CN105538391A - Automatic forming equipment for meta-fluoride double walls - Google Patents

Abstract

The invention discloses automatic forming equipment for meta-fluoride double walls. The automatic forming equipment comprises a rack, a rotary table mechanism, a hot-melting pipe cutting and feeding mechanism, a heat-shrinking pipe cutting and feeding mechanism and a secondary pressing-in mechanism, wherein a top plate is arranged at the top of the rack; the rotary table mechanism comprises a circular rotary table; the rotary table is arranged at the central position of the top plate and rotates around the circle center of the top plate; a plurality of positioning fixtures are arranged on the rotary table in a protruding way and are equidistantly arranged on the rotary table along the circumference at intervals; the hot-melting pipe cutting and feeding mechanism is arranged on the top plate of the rack; the heat-shrinking pipe cutting and feeding mechanism is arranged on the top plate of the rack; and the secondary pressing-in mechanism is arranged on the top plate of the rack and is positioned at one side of the heat-shrinking pipe cutting and feeding mechanism. According to the automatic forming equipment disclosed by the invention, accurate cutting can be realized according to the sizes of hot-melting pipes and heat-shrinking pipes, and the uniformity of the length and the precision of a double-wall pipe is guaranteed; the quality of a notch is good, and the condition that an oblique opening is easily formed by cutting is avoided; the heat-shrinking pipes are enabled to sleeve the heat-melting pipes, and the sleeved positions are accurate and are in-to-place; and the automatic forming equipment is high in processing efficiency and low in labor cost.

Description

A kind of fluorine double-walled shaping equipment partially

Technical field

The present invention relates to a kind of fluorine double-walled shaping equipment partially, particularly for heat-shrink tube and tempreature bulb in inclined fluorine double-walled terminal feeding, cut, combine and the hot briquetting of fluorine double-walled terminal partially, the inclined fluorine double-walled terminal shaping equipment of discharging.

Background technology

Along with the fast development of electron trade, market gets more and more to the demand of inclined fluorine double-walled terminal, and the method for processing inclined fluorine double-walled terminal is at present cut respectively heat-shrink tube and tempreature bulb, then manually two tubing are nested together hot briquetting, owing to manually completing, so easily there is heat-shrink tube and tempreature bulb cutoff length and precision disunity, kerf quality is poor, easily be cut into angle, heat-shrink tube and tempreature bulb is difficult to reasonably to combine, inclined fluorine double-walled terminal heat shrink is not in place, the different problem of serrated end length.Be subject to the impact of the problems referred to above, unsightly, working (machining) efficiency is low, and labour cost is large for the inclined fluorine double-walled terminal outward appearance processed.

Summary of the invention

The technical problem to be solved in the present invention is: provide a kind of fluorine double-walled shaping equipment partially, can cut accurately according to the size of tempreature bulb and tempreature bulb, and ensure that heat-shrink tube is enclosed within outside tempreature bulb, and hot briquetting is carried out to it, and inclined fluorine double-walled terminal good for machine-shaping is taken off from working rotary table.

In order to solve the problems of the technologies described above, the present invention proposes following technical scheme: a kind of fluorine double-walled shaping equipment partially, comprises frame (1), rotating disk mechanism (2), tempreature bulb cuts feed mechanism (3), heat-shrink tube cuts feed mechanism (4), secondary pressing mechanism (6);

The top of this frame (1) is provided with a top board (12);

Rotating disk mechanism (2) includes a circular rotating disk (22), and rotating disk (22) is arranged on the middle position of top board (12), and rotating disk (22) rotates around its center of circle;

Rotating disk (22) is equipped with several localization tools (24), these several localization tools (24) are circumferentially equally spaced from being arranged on this rotating disk (22);

Tempreature bulb cuts feed mechanism (3) and is arranged on the top board (12) of frame (1);

Tempreature bulb cuts feed mechanism (3) and comprises fixed base plate (301), riser (303) is installed, motor fixing plate (305), stepper motor (307), adjustment block (309), two one slide rails (311), cut air cylinder fixed plate (313), cut cylinder (315), knife rest (317), blade (319), pressure block (321), cutting mould fixed head (323), cutting mould (325), pan feeding module mount pad (327), two gripper shoes (329), active pack rubber tire (331), first synchronizing wheel (333), second synchronizing wheel (335), Timing Belt (337), cover plate (339), two slide blocks (341), driven glue coating wheel (343), guide plate (345), pan feeding mould (347),

Fixed base plate (301) is fixed on the top board (12) of frame (1);

Installing riser (303) is fixed on fixed base plate (301);

Motor fixing plate (305) is fixed on the back side of installing riser (303);

Stepper motor (307) is fixed on motor fixing plate (305), and stepper motor (307) comprises an output revolving shaft (3072);

Adjustment block (309) is fixed on the front of installing riser (303);

Two one slide rails (311) are fixed on the both sides of adjustment block (309) and are in sustained height position, and two one slide rails (311) are parallel;

Cut the end that air cylinder fixed plate (313) is arranged on two one slide rails (311);

Cut cylinder (315) to be arranged on and to cut in air cylinder fixed plate (313);

Knife rest (317) is arranged between two one slide rails (311), and knife rest (317) slides between two one slide rails (311);

The piston rod cutting cylinder (315) connects knife rest (317) after cutting air cylinder fixed plate (313);

Blade (319) is arranged on knife rest (317);

Pressure block (321) is arranged on knife rest (317), and pressure block (321) is pushed down blade (319) and prevented blade (319) from coming off;

Cutting mould fixed head (323) is fixed on to be installed on riser (303), is positioned at the top of adjustment block (309);

Cutting mould (325) is arranged on cutting mould fixed head (323), and cutting mould (325) is positioned between two one slide rails (311);

Pan feeding module mount pad (327) is arranged on to be installed on riser (303), is positioned at adjustment block (309) top;

Two gripper shoes (329) are arranged on the both sides of pan feeding module mount pad (327) and are in sustained height position, and two gripper shoes (329) are parallel;

Gripper shoe (329) offers an installing hole (3292) and a rectilinear chute (3294);

The two ends of active pack rubber tire (331) are arranged among two installing holes (3292) of two gripper shoes (329), and active pack rubber tire (331) can roll in two installing holes (3292);

One end of active pack rubber tire (331) is provided with a gear (3312), and the other end is installed and fixed this first synchronizing wheel (333);

Second synchronizing wheel (335) is fixed on the output revolving shaft (3072) of stepper motor (307);

Timing Belt (337) is arranged on the first synchronizing wheel (333) and the second synchronizing wheel (335);

Cover plate (339) is fixed on the end of two gripper shoes (329);

Two slide blocks (341) are arranged in two chutes (3294) of two gripper shoes (329) respectively, and two slide blocks (341) are fixed on cover plate (339);

The two ends of driven glue coating wheel (343) are arranged in two slide blocks (341) respectively, and driven glue coating wheel (343) rotates in two slide blocks (341);

One end of driven glue coating wheel (343) is provided with a gear (3432), gear (3312) engagement of gear (3432) and active pack rubber tire (331);

Guide plate (345) is arranged on the top of pan feeding module mount pad (327);

Pan feeding mould (347) is arranged on guide plate (345);

Heat-shrink tube cuts feed mechanism (4) and is arranged on the top board (12) of frame (1);

Heat-shrink tube cuts that feed mechanism (4) comprises fixed base plate (401), installs riser (403), lift cylinder fixed block (405), lift cylinder (407), line slideway (409), gripper cylinder mounting plate (411), gripper cylinder (413), two intubate fixtures (415), knife rest track (417), knife rest (419), blade (421), pressure knife blocks (423), cut cylinder mounting plate (425), cut cylinder (427), feeding module (429);

Fixed base plate (401) is fixed on the top board (12) of frame (1);

Installing riser (403) is arranged on fixed base plate (401);

Lift cylinder fixed block (405) is fixed on the bottom of installing riser (403);

Lift cylinder (407) is fixed on lift cylinder fixed block (405);

Line slideway (409) is fixed on vertically to be installed on riser (403);

Gripper cylinder mounting plate (411) is fixed on line slideway (409), slides up and down along line slideway (409);

The piston rod of lift cylinder (407) connects the bottom of gripper cylinder mounting plate (411);

Gripper cylinder (413) is fixed on gripper cylinder mounting plate (411);

Gripper cylinder (413) is provided with two slide blocks (4132), and two slide blocks (4132) are inwardly slided and drawn close or outwards slide separately;

Two intubate fixtures (415) are arranged on two slide blocks (4132) of gripper cylinder (413) respectively;

Knife rest track (417) is arranged on gripper cylinder mounting plate (411) top;

Knife rest track (417) comprises two parallel slide rails (4172);

Knife rest (419) is arranged in two slide rails (4172) of knife rest track (417), and can slide along two slide rails (4172);

Blade (421) is arranged on knife rest (419);

Pressure knife block (423) is arranged on knife rest (419), and pushes down blade (421) and prevent blade (421) from coming off;

Cut the end that cylinder mounting plate (425) is fixed on two slide rails (4172);

Cut cylinder (427) to be arranged on and to cut on cylinder mounting plate (425);

The piston rod cutting cylinder (427) connects knife rest (419) afterwards through cutting cylinder mounting plate (425);

Feeding module (429) is arranged on installs riser 430 top;

Secondary pressing mechanism (6) is arranged on the top board (12) of frame (1), is positioned at heat-shrink tube and cuts feed mechanism (4) side;

Secondary pressing mechanism (6) comprises column (601), air cylinder fixed plate (603), cylinder (605), briquetting (607);

Column (601) is fixed on top board (12);

Air cylinder fixed plate (603) is arranged on the top of column (601);

Cylinder (605) is fixed in air cylinder fixed plate (603);

Briquetting (607) is fixed on the piston rod of cylinder (605).

The further restriction of technique scheme is, this inclined fluorine double-walled shaping equipment also comprises guide frame (5), guide frame (5) is fixed on the top board (12) of frame (1), and guide frame (5) is positioned at that tempreature bulb cuts feed mechanism (3), heat-shrink tube cuts between feed mechanism (4);

Guide frame (5) comprises a support bar (501), two connecting rods (503), two directive wheels (505);

Support bar (501) is fixed on top board (12), is positioned at that tempreature bulb cuts feed mechanism (3), heat-shrink tube cuts between feed mechanism (4);

Two connecting rods (503) are arranged on support bar (501) respectively;

Two directive wheels (505) are arranged on two connecting rods (503) respectively.

The further restriction of technique scheme is, this inclined fluorine double-walled shaping equipment also comprises hot briquetting mechanism (7), and hot briquetting mechanism (7) is fixed on the top board (12) of frame (1), is positioned at the side of secondary pressing mechanism (6).

The further restriction of technique scheme is, this inclined fluorine double-walled shaping equipment also comprises cutting agency (8), and cutting agency (8) is fixed on the top board (12) of frame (1), is positioned at the side that tempreature bulb cuts feed mechanism (3).

Compared with prior art, the present invention has following beneficial effect:

1, tempreature bulb cuts feed mechanism 3 and heat-shrink tube and cuts feed mechanism 4 and can cut accurately according to the size of tempreature bulb and heat-shrink tube, ensure that the length of double-wall pipe and precision unified, kerf quality is good, is not easy to be cut into angle.

2, by the conveying of rotating disk 22 and pressing down of secondary pressing mechanism 6, ensure that heat-shrink tube is enclosed within outside tempreature bulb, and the position of being inserted in accurately puts in place.

3, present device automaticity is high, and the inclined fluorine double-walled terminal appearance looks elegant processed, working (machining) efficiency is high, and labour cost is low.

Accompanying drawing explanation

Fig. 1 is the stereogram of the present invention's inclined fluorine double-walled shaping equipment.

Fig. 2 is the top view of the present invention's inclined fluorine double-walled shaping equipment.

Fig. 3 is the stereogram of rotating disk mechanism of the present invention.

Fig. 4 is the stereogram that tempreature bulb of the present invention cuts feed mechanism.

Fig. 5 is the stereogram that heat-shrink tube of the present invention cuts feed mechanism.

Fig. 6 is the stereogram of guide frame of the present invention.

Fig. 7 is the stereogram of secondary pressing mechanism of the present invention.

Detailed description of the invention

Refer to Fig. 1 to Fig. 7, a kind of fluorine double-walled shaping equipment partially, comprise frame 1, rotating disk mechanism 2, tempreature bulb cuts feed mechanism 3, heat-shrink tube cuts feed mechanism 4, guide frame 5, secondary pressing mechanism 6, hot briquetting mechanism 7, cutting agency 8.

The top of this frame 1 is provided with a top board 12.

Rotating disk mechanism 2 includes a circular rotating disk 22, and rotating disk 22 is arranged on the middle position of top board 12, and rotating disk 22 rotates around its center of circle.

Rotating disk 22 is equipped with several localization tools 24, these several localization tools 24 are circumferentially equally spaced from being arranged on this rotating disk 22.

Tempreature bulb cuts feed mechanism 3 and is arranged on the top board 12 of frame 1.

Tempreature bulb cuts feed mechanism 3 and comprises fixed base plate 301, riser 303 is installed, motor fixing plate 305, stepper motor 307, adjustment block 309, two one slide rails 311, cut air cylinder fixed plate 313, cut cylinder 315, knife rest 317, blade 319, pressure block 321, cutting mould fixed head 323, cutting mould 325, pan feeding module mount pad 327, two gripper shoes 329, active pack rubber tire 331, first synchronizing wheel 333, second synchronizing wheel 335, Timing Belt 337, cover plate 339, two slide blocks 341, driven glue coating wheel 343, guide plate 345, pan feeding mould 347.

Fixed base plate 301 is fixed on the top board 12 of frame 1.

Riser 303 is installed be fixed on fixed base plate 301.

Motor fixing plate 305 is fixed on the back side of installing riser 303.

Stepper motor 307 is fixed on motor fixing plate 305.Stepper motor 307 comprises an output revolving shaft 3072.

Adjustment block 309 is fixed on the front of installing riser 303.

Two one slide rails 311 are fixed on the both sides of adjustment block 309 and are in sustained height position, and two one slide rails 311 are parallel.

Cut the end that air cylinder fixed plate 313 is arranged on two one slide rails 311.

Cut cylinder 315 to be arranged on and to cut in air cylinder fixed plate 313.

Knife rest 317 is arranged between two one slide rails 311.Knife rest 317 can slide between two one slide rails 311.

The piston rod cutting cylinder 315 connects knife rest 317 after cutting air cylinder fixed plate 313.

Blade 319 is arranged on knife rest 317.

Pressure block 321 is arranged on knife rest 317, and pressure block 321 is pushed down blade 319 and prevented blade 319 from coming off.

Cutting mould fixed head 323 is fixed on to be installed on riser 303, is positioned at the top of adjustment block 309.

Cutting mould 325 is arranged on cutting mould fixed head 323.Cutting mould 325 is between two one slide rails 311.Tempreature bulb (not shown) is passed from cutting mould 325.

Start and cut cylinder 315, the piston rod band movable knife rack 317 cutting cylinder 315 slides on two one slide rails 311, blade 319, also along with together sliding, when blade 319 switches on cutting mould 325, can cut off the tempreature bulb (not shown) be positioned among cutting mould 325.

Pan feeding module mount pad 327 is arranged on to be installed on riser 303, is positioned at above adjustment block 309.

Two gripper shoes 329 are arranged on the both sides of pan feeding module mount pad 327 and are in sustained height position, and two gripper shoes 329 are parallel.

Gripper shoe 329 offers an installing hole 3292 and a rectilinear chute 3294.

The two ends of active pack rubber tire 331 are arranged among two installing holes 3292 of two gripper shoes 329, and active pack rubber tire 331 can roll in two installing holes 3292.

One end of active pack rubber tire 331 is provided with a gear 3312, and the other end is installed and fixed this first synchronizing wheel 333.

Second synchronizing wheel 335 is fixed on the output revolving shaft 3072 of stepper motor 307.

Timing Belt 337 is arranged on the first synchronizing wheel 333 and the second synchronizing wheel 335.

Cover plate 339 is fixed on the end of two gripper shoes 329.

Two slide blocks 341 are arranged in two chutes 3294 of two gripper shoes 329 respectively, and two slide block 341 bolt (not shown) are fixed on cover plate 339.

The two ends of driven glue coating wheel 343 are arranged in two slide blocks 341 respectively, and driven glue coating wheel 343 rotates in two slide blocks 341.

One end of driven glue coating wheel 343 is provided with a gear 3432, and the gear 3312 of gear 3432 and active pack rubber tire 331 engages.

By swivel bolt, the position of two slide blocks 341 can be adjusted, thus the gap between adjustment active pack rubber tire 331 and driven glue coating wheel 343.

Guide plate 345 is arranged on the top of pan feeding module mount pad 327.

Pan feeding mould 347 is arranged on guide plate 345.

Tempreature bulb (not shown) enters between active pack rubber tire 331 and driven glue coating wheel 343 from pan feeding mould 347, start stepper motor 307, output revolving shaft 3072 rotates, the second synchronizing wheel 335 is driven to rotate, by the conduction of Timing Belt 337, first synchronizing wheel 333 also rotates, active pack rubber tire 331 is driven to rotate, the gearing of gear 3312 and gear 3432, driven glue coating wheel 343 is driven to rotate, tempreature bulb is delivered into cutting mould 325 downwards by the cooperation of active pack rubber tire 331 and driven glue coating wheel 343, cut cylinder 315 to start, knife rest 317 is pushed ahead, blade 319 cuts off tempreature bulb.

Heat-shrink tube cuts feed mechanism 4 and is arranged on the top board 12 of frame 1.

Heat-shrink tube cuts that feed mechanism 4 comprises fixed base plate 401, installs riser 403, lift cylinder fixed block 405, lift cylinder 407, line slideway 409, gripper cylinder mounting plate 411, gripper cylinder 413, two intubate fixtures 415, knife rest track 417, knife rest 419, blade 421, pressure knife block 423, cuts cylinder mounting plate 425, cuts cylinder 427, feeding module 429.

Fixed base plate 401 is fixed on the top board 12 of frame 1.

Riser 403 is installed be arranged on fixed base plate 401.

Lift cylinder fixed block 405 is fixed on the bottom of installing riser 403.

Lift cylinder 407 is fixed on lift cylinder fixed block 405.

Line slideway 409 is fixed on vertically to be installed on riser 403.

Gripper cylinder mounting plate 411 is fixed on line slideway 409, and can slide up and down along line slideway 409.

The piston rod of lift cylinder 407 connects the bottom of gripper cylinder mounting plate 411.

Start lift cylinder 407, lift cylinder 407 drives gripper cylinder mounting plate 411 to slide up and down along line slideway 409.

Gripper cylinder 413 is fixed on gripper cylinder mounting plate 411.

Gripper cylinder 413 is provided with two slide blocks, 4132, two slide blocks 4132 and inwardly can slides and draw close or outwards slide separately.

Two intubate fixtures 415 are arranged on two slide blocks 4132 of gripper cylinder 413 respectively.

Start gripper cylinder 413, two slide blocks 4132 and clamp heat-shrink tube (not shown) with closing up after two intubate fixtures 415 inwardly slip, or two slide blocks 4132 open heat-shrink tube with the outside slip posttension shredding of two intubate fixtures 415.

Knife rest track 417 is arranged on gripper cylinder mounting plate 411 top.

Knife rest track 417 comprises two parallel slide rails 4172.

Knife rest 419 is arranged in two slide rails 4172 of knife rest track 417, and can slide along two slide rails 4172.

Blade 421 is arranged on knife rest 419.

Pressure knife block 423 is arranged on knife rest 419, and pushes down blade 421 and prevent blade 421 from coming off.

Cut the end that cylinder mounting plate 425 is fixed on two slide rails 4172.

Cut cylinder 427 to be arranged on and to cut on cylinder mounting plate 425.

The piston rod cutting cylinder 427 connects knife rest 419 after cutting cylinder mounting plate 425.

Feeding module 429 is arranged on installs riser 430 top.

Feeding module 429 is conveying heat-shrink tube (not shown) downwards, and clamp heat-shrink tube after two intubate fixtures 415 close up, then cut cylinder 427 and start, blade 421 cuts off heat-shrink tube.

Guide frame 5 is fixed on the top board 12 of frame 1.Guide frame 5 cuts feed mechanism 3 at tempreature bulb, heat-shrink tube cuts between feed mechanism 4.

Guide frame 5 comprises a support bar 501, two connecting rods 503, two directive wheels 505.

Support bar 501 is fixed on top board 12, cuts feed mechanism 3, heat-shrink tube cuts between feed mechanism 4 at tempreature bulb.

Two connecting rods 503 are arranged on support bar 501 respectively.

Two directive wheels 505 are arranged on two connecting rods 503 respectively.Two directive wheels 505 respectively corresponding tempreature bulb cut feed mechanism 3 and heat-shrink tube cuts feed mechanism 4, conveying tempreature bulb (not shown) and heat-shrink tube (not shown).

Secondary pressing mechanism 6 is arranged on the top board 12 of frame 1, is positioned at heat-shrink tube and cuts feed mechanism 4 side.

Secondary pressing mechanism 6 comprises column 601, air cylinder fixed plate 603, cylinder 605, briquetting 607.

Column 601 is fixed on top board 12.

Air cylinder fixed plate 603 is arranged on the top of column 601.

Cylinder 605 is fixed in air cylinder fixed plate 603.

Briquetting 607 is fixed on the piston rod of cylinder 605.

After cylinder 605 starts, briquetting 607 can move up and down.

Hot briquetting mechanism 7 is fixed on the top board 12 of frame 1, is positioned at the side of secondary pressing mechanism 6.

Cutting agency 8 is fixed on the top board 12 of frame 1, is positioned at the side that tempreature bulb cuts feed mechanism 3.

The course of work brief introduction of present device is as follows: the size that tempreature bulb cuts the tempreature bulb of feed mechanism 3 needed for inclined fluorine double-walled terminal cuts accurately, and tempreature bulb (not shown) is delivered on the localization tool 24 on rotating disk 22, then rotating disk 22 rotates, the localization tool 24 having overlapped tempreature bulb is allowed to forward the station that heat-shrink tube cuts feed mechanism 4 to, then cut feed mechanism 4 by heat-shrink tube accurately cut heat-shrink tube (not shown) and heat-shrink tube be enclosed within the outside of tempreature bulb, rotating disk 22 continues the station rotating to secondary pressing mechanism 6, the heat-shrink tube be enclosed within outside tempreature bulb is depressed into accurate location, rotating disk 22 continues to rotate to hot briquetting mechanism 7 station, the double-wall pipe hot briquetting packaged, so just be processed into inclined fluorine double-walled terminal, rotating disk 22 continues to forward cutting agency 8 to, the inclined fluorine double-walled terminal processed is taken off from the localization tool 24 rotating disk 22.

The present invention has following beneficial effect:

1, tempreature bulb cuts feed mechanism 3 and heat-shrink tube and cuts feed mechanism 4 and can cut accurately according to the size of tempreature bulb and heat-shrink tube, ensure that the length of double-wall pipe and precision unified, kerf quality is good, is not easy to be cut into angle.

2, by the conveying of rotating disk 22 and pressing down of secondary pressing mechanism 6, ensure that heat-shrink tube is enclosed within outside tempreature bulb, and the position of being inserted in accurately puts in place.

3, present device automaticity is high, and the inclined fluorine double-walled terminal appearance looks elegant processed, working (machining) efficiency is high, and labour cost is low.

Claims (4)

1. an inclined fluorine double-walled shaping equipment, is characterized in that, comprises frame (1), rotating disk mechanism (2), tempreature bulb cuts feed mechanism (3), heat-shrink tube cuts feed mechanism (4), secondary pressing mechanism (6);

The top of this frame (1) is provided with a top board (12);

Rotating disk mechanism (2) includes a circular rotating disk (22), and rotating disk (22) is arranged on the middle position of top board (12), and rotating disk (22) rotates around its center of circle;

Rotating disk (22) is equipped with several localization tools (24), several localization tools (24) are circumferentially equally spaced from being arranged on this rotating disk (22);

Tempreature bulb cuts feed mechanism (3) and is arranged on the top board (12) of frame (1);

Tempreature bulb cuts feed mechanism (3) and comprises fixed base plate (301), riser (303) is installed, motor fixing plate (305), stepper motor (307), adjustment block (309), two one slide rails (311), cut air cylinder fixed plate (313), cut cylinder (315), knife rest (317), blade (319), pressure block (321), cutting mould fixed head (323), cutting mould (325), pan feeding module mount pad (327), two gripper shoes (329), active pack rubber tire (331), first synchronizing wheel (333), second synchronizing wheel (335), Timing Belt (337), cover plate (339), two slide blocks (341), driven glue coating wheel (343), guide plate (345), pan feeding mould (347),

Fixed base plate (301) is fixed on the top board (12) of frame (1);

Installing riser (303) is fixed on fixed base plate (301);

Motor fixing plate (305) is fixed on the back side of installing riser (303);

Stepper motor (307) is fixed on motor fixing plate (305), and stepper motor (307) comprises an output revolving shaft (3072);

Adjustment block (309) is fixed on the front of installing riser (303);

Two one slide rails (311) are fixed on the both sides of adjustment block (309) and are in sustained height position, and two one slide rails (311) are parallel;

Cut the end that air cylinder fixed plate (313) is arranged on two one slide rails (311);

Cut cylinder (315) to be arranged on and to cut in air cylinder fixed plate (313);

Knife rest (317) is arranged between two one slide rails (311), and knife rest (317) slides between two one slide rails (311);

The piston rod cutting cylinder (315) connects knife rest (317) after cutting air cylinder fixed plate (313);

Blade (319) is arranged on knife rest (317);

Pressure block (321) is arranged on knife rest (317), and pressure block (321) is pushed down blade (319) and prevented blade (319) from coming off;

Cutting mould fixed head (323) is fixed on to be installed on riser (303), is positioned at the top of adjustment block (309);

Cutting mould (325) is arranged on cutting mould fixed head (323), and cutting mould (325) is positioned between two one slide rails (311);

Pan feeding module mount pad (327) is arranged on to be installed on riser (303), is positioned at adjustment block (309) top;

Two gripper shoes (329) are arranged on the both sides of pan feeding module mount pad (327) and are in sustained height position, and two gripper shoes (329) are parallel;

Gripper shoe (329) offers an installing hole (3292) and a rectilinear chute (3294);

The two ends of active pack rubber tire (331) are arranged among two installing holes (3292) of two gripper shoes (329), and active pack rubber tire (331) rolls in two installing holes (3292);

One end of active pack rubber tire (331) is provided with a gear (3312), and the other end is installed and fixed this first synchronizing wheel (333);

Second synchronizing wheel (335) is fixed on the output revolving shaft (3072) of stepper motor (307);

Timing Belt (337) is arranged on the first synchronizing wheel (333) and the second synchronizing wheel (335);

Cover plate (339) is fixed on the end of two gripper shoes (329);

Two slide blocks (341) are arranged in two chutes (3294) of two gripper shoes (329) respectively, and two slide blocks (341) are fixed on cover plate (339);

The two ends of driven glue coating wheel (343) are arranged in two slide blocks (341) respectively, and driven glue coating wheel (343) rotates in two slide blocks (341);

One end of driven glue coating wheel (343) is provided with a gear (3432), gear (3312) engagement of gear (3432) and active pack rubber tire (331);

Guide plate (345) is arranged on the top of pan feeding module mount pad (327);

Pan feeding mould (347) is arranged on guide plate (345);

Heat-shrink tube cuts feed mechanism (4) and is arranged on the top board (12) of frame (1);

Heat-shrink tube cuts that feed mechanism (4) comprises fixed base plate (401), installs riser (403), lift cylinder fixed block (405), lift cylinder (407), line slideway (409), gripper cylinder mounting plate (411), gripper cylinder (413), two intubate fixtures (415), knife rest track (417), knife rest (419), blade (421), pressure knife blocks (423), cut cylinder mounting plate (425), cut cylinder (427), feeding module (429);

Fixed base plate (401) is fixed on the top board (12) of frame (1);

Installing riser (403) is arranged on fixed base plate (401);

Lift cylinder fixed block (405) is fixed on the bottom of installing riser (403);

Lift cylinder (407) is fixed on lift cylinder fixed block (405);

Line slideway (409) is fixed on vertically to be installed on riser (403);

Gripper cylinder mounting plate (411) is fixed on line slideway (409), slides up and down along line slideway (409);

The piston rod of lift cylinder (407) connects the bottom of gripper cylinder mounting plate (411);

Gripper cylinder (413) is fixed on gripper cylinder mounting plate (411);

Gripper cylinder (413) is provided with two slide blocks (4132), and two slide blocks (4132) are inwardly slided and drawn close or outwards slide separately;

Two intubate fixtures (415) are arranged on two slide blocks (4132) of gripper cylinder (413) respectively;

Knife rest track (417) is arranged on gripper cylinder mounting plate (411) top;

Knife rest track (417) comprises two parallel slide rails (4172);

Knife rest (419) is arranged in two slide rails (4172) of knife rest track (417), and slides along two slide rails (4172);

Blade (421) is arranged on knife rest (419);

Pressure knife block (423) is arranged on knife rest (419), and pushes down blade (421) and prevent blade (421) from coming off;

Cut the end that cylinder mounting plate (425) is fixed on two slide rails (4172);

Cut cylinder (427) to be arranged on and to cut on cylinder mounting plate (425);

The piston rod cutting cylinder (427) connects knife rest (419) afterwards through cutting cylinder mounting plate (425);

Feeding module (429) is arranged on installs riser 430 top;

Secondary pressing mechanism (6) is arranged on the top board (12) of frame (1), is positioned at heat-shrink tube and cuts feed mechanism (4) side;

Secondary pressing mechanism (6) comprises column (601), air cylinder fixed plate (603), cylinder (605), briquetting (607);

Column (601) is fixed on top board (12);

Air cylinder fixed plate (603) is arranged on the top of column (601);

Cylinder (605) is fixed in air cylinder fixed plate (603);

Briquetting (607) is fixed on the piston rod of cylinder (605).

2. one according to claim 1 inclined fluorine double-walled shaping equipment, it is characterized in that, this inclined fluorine double-walled shaping equipment also comprises guide frame (5), guide frame (5) is fixed on the top board (12) of frame (1), and guide frame (5) is positioned at that tempreature bulb cuts feed mechanism (3), heat-shrink tube cuts between feed mechanism (4);

Guide frame (5) comprises a support bar (501), two connecting rods (503), two directive wheels (505);

Support bar (501) is fixed on top board (12), is positioned at that tempreature bulb cuts feed mechanism (3), heat-shrink tube cuts between feed mechanism (4);

Two connecting rods (503) are arranged on support bar (501) respectively;

Two directive wheels (505) are arranged on two connecting rods (503) respectively.

3. one according to claim 1 inclined fluorine double-walled shaping equipment, it is characterized in that, this inclined fluorine double-walled shaping equipment also comprises hot briquetting mechanism (7), hot briquetting mechanism (7) is fixed on the top board (12) of frame (1), is positioned at the side of secondary pressing mechanism (6).

4. one according to claim 1 inclined fluorine double-walled shaping equipment, it is characterized in that, this inclined fluorine double-walled shaping equipment also comprises cutting agency (8), cutting agency (8) is fixed on the top board (12) of frame (1), is positioned at the side that tempreature bulb cuts feed mechanism (3).