CN104806804A - Flexible air tap structure for air inflation - Google Patents

Abstract

The invention provides a flexible air tap structure for air inflation. The flexible air tap structure comprises upper and lower inflation units fixed together; an air inflation channel is formed between the air inflation units; the air inflation channel is provided with at least two or more outlets. The air tap structure is improved, so that the single air inflation channel is changed into a plurality of air inflation channels to realize uniform air inflation; as a result, the air inflation efficiency is improved, and the reliability and safety of air inflation are enhanced.

Description

For the flexible air mouth structure inflated

Technical field

The present invention relates to inflator, particularly relate to a kind of valve that the flexible articles such as balloon, water wing, aerated rod are inflated.

Background technique

In daily life; often can the object that balloon, water wing, aerated rod etc. are flexible be inflated; inflation all adopts specific gas-filled pump or valve inside to carry out; but due to need to plug after inflation illumination, sounding device and seal, be usually also provided with gas nozzle structure at the inflation position of the object of the flexibilities such as balloon, water wing, aerated rod.

A kind of seal valve such as disclosed in US Patent No. 4917646, sealing valve adopts two panels plastic sheet to form a seal valve, the both sides sealing of two panels plastic sheet, and middle formation filling channel, entrance one end of plastic sheet has anti-splicing tape.During inflation, be inserted in filling channel with inflator and inflate, after inflation, can also LED light device be inserted, better install effect to have, and then by the mode of thermosol, sealing valve seal is lived.

Sealing valve arrangement is simple, and can fast and effeciently carry out inflating and sealing, but its shortcoming also clearly, exactly when electric gas-filled equipment carries out automatic inflating, owing to only having single filling channel, powerful gas flow can bring harmful effect to the object that balloon, water wing, aerated rod etc. are flexible, not only affects aeration speed, even can damage above-mentioned product.

Summary of the invention

Based on the problems referred to above, primary and foremost purpose of the present invention is to provide a kind of flexible air mouth structure for inflating, this gas nozzle structure can not only realize fast aeration, effectively can also control the flow equalization of gas, can not bring harmful effect to the object that balloon, water wing, aerated rod etc. are flexible.

Another object of the present invention is to provide a kind of flexible air mouth structure for inflating, this gas nozzle structure realizes simple and easy, cheap for manufacturing cost, and safe and reliable.

In order to achieve the above object, the present invention realizes in the following manner.

For the flexible air mouth structure inflated, it comprises the inflation unit that upper and lower two panels is fixed together, and forms filling channel between described inflation unit, it is characterized in that the outlet of described filling channel at least has two or more.By more than two or two filling channels, shunt gas, not only make the impact force of gas reduce, also enable gas form uniform flow velocity, inflation is balanced, improves aeration speed.

Further, the outlet of described filling channel is symmetricly set in inflation unit, to make uniform stream spray, avoids the undue impact to being inflated object.

The outlet of described filling channel is symmetricly set in the both sides of inflation unit, inflates from the carrying out of both sides, can effectively shunt gas, reducing the impact force of gas, avoiding bringing harmful effect to being inflated object.

Further, described inflation unit, its inner terminal is closed, and the outlet of filling channel is arranged on the sidewall of inflation unit, gas can only be entered into from the sidewall of inflation unit and be inflated object.

The middle part of described inflation unit is vertically provided with an isolation zone, with by filling channel interval.

Described inflation unit, its sidewall is provided with the fixing belt of vertical distribution, upper and lower two panels inflation unit is fixed together by fixing belt.

Further, described fixing belt, is arranged with two in parallel, to increase fixing reliability, make inflation unit in conjunction with safety and reliability.

Further, described in the two ends of two fixing belts that be arranged in parallel link together, increase fixing stability further.

The present invention, by two or more filling channel, shunts gas, not only makes the impact force of gas reduce, also enables gas form uniform flow velocity, and inflation is balanced, improves aeration speed.So in use, the present invention can not only realize fast aeration, effectively can also control the flow equalization of gas, can not bring harmful effect, add the safety reliability of inflation to the object that balloon, water wing, aerated rod etc. are flexible.

Accompanying drawing explanation

Fig. 1 is the structural representation of the first mode of execution of the present invention.

Fig. 2 is the structural representation of the second mode of execution of the present invention.

Fig. 3 is the structural representation of the third mode of execution of the present invention.

Fig. 4 is the structural representation of the present invention's the 4th kind of mode of execution.

Fig. 5 is the structural representation of the present invention's the 5th kind of mode of execution.

Fig. 6 is the structural representation of the present invention's the 6th kind of mode of execution.

Fig. 7 is the structural representation of the present invention's the 7th kind of mode of execution.

Fig. 8 is the structural representation of the present invention's the 8th kind of mode of execution.

Fig. 9 is the structural representation of the present invention's the 9th kind of mode of execution.

Embodiment

In order to make object of the present invention, technological scheme and advantage clearly understand, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

Refer to Fig. 1 shown (in this implementation, adopt because the structure of valve is simple, accompanying drawing adopts planimetric map to describe the structural type of valve), valve has inflation unit 1, fixing belt 4,5 and filling channel 2, the several part in isolation zone 3, wherein, inflation unit 1 is made up of upper and lower two panels, fixing belt 4 and 5 is adopted to be adhesively fixed between this upper and lower two panels inflation unit 1, fixing belt 4,5 is that the parallel fixing belt of employing two is adhesively fixed, to increase fixing steadiness and reliability simultaneously.

Fixing belt 4 and 5 normally adhesive glue or glue, such as normal temperature cured type epoxy resin adhesive.Also can adopt the form of thermosol that upper and lower two panels inflation unit 1 is pressed together formation.

And, in the end of fixing belt 4 and 5, combined by joint 6, more enhance bonding steadiness.

Isolation zone 3, usual and filling channel 2 be arranged in parallel, to shunt gas; Isolation zone 3 normally extends to gas outlet from 1/3rd of inflation unit.Filling channel 2 is isolated into two parallel filling channels by isolation zone 3, and the outlet of filling channel 2 is located in the end of inflation unit 1, enables gas form uniform flow velocity, and inflation is balanced, improves aeration speed.

Again as shown in Figure 2, for the another kind of mode that the present invention realizes, in this approach, the basic structure of inflation unit 1, fixing belt 4,5 and filling channel 2, the several part in isolation zone 3 is identical with mode shown in Fig. 1, the sidewall that difference part is inflation unit 1 is also arranged with the outlet of two filling channels 2, the quantity making filling channel export like this increases to 4, the air-flow of giving vent to anger distributed equalization more.

But, in two kinds of modes above, the outlet side of inflation unit 1 is not closed, two filling channels 2 being positioned at this outlet side are main passage, so still, stronger gas shock can be brought to the object be inflated, if inflation pressure is excessive, still damage may be brought to the object be inflated.

Therefore, in the following embodiments, the present invention proposes more reliable implementation: close original air outlet, the outlet of filling channel 2 be opened on the sidewall of inflation unit 1.

Shown in Fig. 3, for the third implementation of the present invention, in this approach, the inner terminal of inflation unit 1 is provided with the Stamping Steel Ribbon 7 of a level, is closed original air outlet, simultaneously, on the sidewall of inflation unit 1, be symmetrically arranged with the outlet of filling channel 2, gas entered into no longer in a straightforward manner and is inflated object, can only enter into from the sidewall of inflation unit and be inflated object.

The outlet of filling channel 2 is now positioned at the two ends of Stamping Steel Ribbon 7, and air-flow enters into from the two bottom sides of inflation unit 1 and is inflated object.This mode can shunt gas effectively, slows down the impact force of air-flow.

Basic structure as inflation unit 1, fixing belt 4,5 and filling channel 2, the several part in isolation zone 3 is identical with mode shown in Fig. 1, does not repeat them here.

Shown in Fig. 4, be the modified model of Fig. 3, namely on the architecture basics of Fig. 3, add isolation zone 3, utilize isolation zone 3 to make air-flow separately, can the pressure of air-flow in more effectively balanced two filling channels 2.

Shown in Fig. 5, be the modified model of Fig. 3, the architecture basics of Fig. 3 is improved further, extended to by Stamping Steel Ribbon 7 on the sidewall of inflation unit 1 further, the outlet of filling channel 2 is positioned on inflation unit 1 sidewall, instead of be positioned at end.

Shown in Fig. 6, be also the modified model for Fig. 3, namely on the architecture basics of Fig. 3 by the symmetrical outlet of offering two filling channels 2 again of the fixing belt 4 and 5 on inflation unit 1 sidewall, make the outlet of filling channel 2 be increased to 4.

Shown in Fig. 7, be the modified model of Fig. 6, the basis of Fig. 6 adds isolation zone 3, utilize isolation zone 3 to make air-flow separately, can the pressure of air-flow in more effectively balanced two filling channels 2.

Shown in Fig. 8, the modified model of basic structure and Fig. 5, except on sidewall that Stamping Steel Ribbon 7 extends to inflation unit 1 further, the fixing belt 4 and 5 also on inflation unit 1 sidewall is symmetrical outlet of offering two filling channels 2 again, makes the outlet of filling channel 2 be increased to 4.

Shown in Fig. 9, be the modified model of Fig. 8, the basis of Fig. 8 adds isolation zone 3, utilize isolation zone 3 to make air-flow separately, can the pressure of air-flow in more effectively balanced two filling channels 2.

In a word, the present invention, by two or more filling channel, shunts gas, not only makes the impact force of gas reduce, also enables gas form uniform flow velocity, and inflation is balanced, effectively can improve aeration speed, ensures inflatable safety.

The present invention can be applicable to the flexible inflatable objects such as balloon, water wing, life ring, aerated rod, but is not not limited to the said goods, as long as carry out the place of inflating by the valve of flexibility, can be applied to the present invention.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, all any amendments done within the spirit and principles in the present invention, equivalent replacement and improvement etc., all should be included within protection scope of the present invention.

Claims (8)

1. the flexible air mouth structure for inflating, it comprises the inflation unit that upper and lower two panels is fixed together, and forms filling channel between described inflation unit, it is characterized in that the outlet of described filling channel at least has two or more.

2. the flexible air mouth structure for inflating as claimed in claim 1, is characterized in that the outlet of described filling channel is symmetricly set in inflation unit, to make uniform stream spray, avoiding the undue impact to being inflated object.

3. the flexible air mouth structure for inflating as claimed in claim 1, is characterized in that the outlet of described filling channel is symmetricly set in the both sides of inflation unit.

4. the flexible air mouth structure for inflating as claimed in claim 1, is characterized in that the middle part of described inflation unit is vertically provided with an isolation zone, with by filling channel interval.

5. the flexible air mouth structure for inflating as claimed in claim 3, it is characterized in that described inflation unit, its inner terminal is closed, and the outlet of filling channel is arranged on the sidewall of inflation unit.

6. the flexible air mouth structure for inflating as claimed in claim 1, is characterized in that described inflation unit, and its sidewall is provided with the fixing belt of vertical distribution, upper and lower two panels inflation unit is fixed together by fixing belt.

7. the flexible air mouth structure for inflating as claimed in claim 6, is characterized in that described fixing belt, is arranged with two in parallel, to increase fixing stability.

8. the flexible air mouth structure for inflating as claimed in claim 7, the two ends of two fixing belts be arranged in parallel described in it is characterized in that link together.