CN212400379U - Automatic forming device for capping tube - Google Patents

Abstract

The utility model discloses an automatic forming device for a sealing cap pipe, which comprises a moving mechanism, a heating mechanism and a cutting mechanism; the moving mechanism comprises a movable seat and a first driving piece, the first driving piece is used for driving the movable seat to move back and forth between a heating position and a cutting position, and the movable seat is used for limiting the position of the heat-shrinkable double-wall pipe and exposing the non-end position of the heat-shrinkable double-wall pipe; the heating mechanism comprises at least one heating element used for heating the non-end part position of the heat-shrinkable double-wall pipe at the heating position to enable the heat-shrinkable double-wall pipe to shrink, the cutting mechanism comprises a blade and a second driving element, and the second driving element is used for driving the blade to cut off the shrinking part of the heat-shrinkable double-wall pipe when the movable seat is at the cutting position. The utility model discloses a non-tip location to pyrocondensation double-walled pipe heats and makes its shrink re-cut, can be two cap pipe products with a pyrocondensation double-walled pipe simultaneous shaping, and the outward appearance uniformity is high, has improved production efficiency greatly.

Description

Automatic forming device for capping tube

[ technical field ] A method for producing a semiconductor device

The utility model relates to the technical field of mechanical equipment, especially, relate to a seal cap pipe automatic molding device.

[ background of the invention ]

In the production and processing process of the cap sealing pipe, the end part of the heat-shrinkable double-wall pipe is generally heated, the hot melt adhesive layer of the inner wall is melted during heating and is shrunk and formed into the cap sealing pipe along with the outer wall, and the cap sealing pipe is open at one end and closed at the other end. The current heating forming mode is mainly that one end of the thermal shrinkage double-wall pipe is sequentially heated one by one through manpower or machines, manual operation can lead to inconsistent product appearance, the influence is attractive, the mode of heating forming one by one to the end is extremely low in efficiency, and the mode is not beneficial to realizing automatic production. In view of the above, it is desirable to provide an automatic forming device for a cap sealing tube to overcome the above-mentioned drawbacks.

[ Utility model ] content

The utility model aims at providing a cap sealing pipe automatic molding device, machining efficiency is high, and product appearance uniformity is high.

In order to achieve the purpose, the utility model provides an automatic forming device for a sealing cap pipe, which comprises a moving mechanism, a heating mechanism and a cutting mechanism; the moving mechanism comprises a movable seat and a first driving piece, the first driving piece is used for driving the movable seat to move back and forth between a heating position and a cutting position, and the movable seat is used for limiting the position of the heat-shrinkable double-wall pipe and exposing the non-end position of the heat-shrinkable double-wall pipe; the heating mechanism comprises at least one heating element used for heating the non-end part position of the heat-shrinkable double-wall pipe at the heating position to enable the heat-shrinkable double-wall pipe to shrink, the cutting mechanism comprises a blade and a second driving element, and the second driving element is used for driving the blade to cut off the shrinking part of the heat-shrinkable double-wall pipe when the movable seat is at the cutting position.

In a preferred embodiment, the automatic molding device for the cap sealing pipe further comprises a bottom plate; the heating position and the cutting position are located on the bottom plate, the movable seat is provided with a plurality of transversely-arranged limiting holes, the limiting holes are used for penetrating the heat-shrinkable double-wall pipe, the middle part of the movable seat is provided with a longitudinally-arranged opening, and the opening is communicated with the limiting holes to expose the heat-shrinkable double-wall pipe.

In a preferred embodiment, the moving mechanism further includes a pair of guide rails disposed on the bottom plate, and a slider slidably disposed on each guide rail, and the movable seat is fixed on the slider.

In a preferred embodiment, the first driving member is an air cylinder, and an output end of the first driving member is connected with the movable seat.

In a preferred embodiment, a through processing opening is formed in the bottom plate at the heating position, and the number of the heating members is two and the two heating members are respectively arranged on two sides of the processing opening.

In a preferred embodiment, the heating element is a heat gun.

In a preferred embodiment, the outlet opening of the heating element is flat and the opening is rectangular.

In a preferred embodiment, the second driving member includes a blade seat and a first driving unit connected to the blade seat, the blade seat is configured to fix the blade, and the first driving unit is configured to drive the blade seat to rotate the blade.

In a preferred embodiment, the second driving element further includes a mounting seat fixed on the bottom plate, a second driving unit disposed on the mounting seat, and a moving seat connected to the second driving unit, the first driving unit is fixed on the moving seat, and the second driving unit is configured to drive the moving seat to move closer to or away from the bottom plate.

In a preferred embodiment, the first driving unit is a servo motor, and the second driving unit is an air cylinder.

In a preferred embodiment, a through avoiding opening is formed on the bottom plate at the cutting position.

The beneficial effects of the utility model reside in that: through heating the non-tip position to pyrocondensation double-walled pipe, cut again after making its shrink, can correspond each pyrocondensation double-walled pipe and process into two sealing cap pipe products, the outward appearance uniformity is high, has improved production efficiency greatly.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic cross-sectional view of a heat-shrinkable double-walled tube;

fig. 2 is a schematic cross-sectional view of a heat-shrinkable double-wall pipe according to a preferred embodiment of the present invention after heat shrinkage;

fig. 3 is a schematic cross-sectional view of a heat-shrinkable double-wall pipe according to a preferred embodiment of the present invention after being cut;

fig. 4 is a three-dimensional structure diagram of the heat-shrinkable double-wall tube in the automatic forming device for a cap sealing tube according to the preferred embodiment of the present invention;

fig. 5 is a perspective view of the thermal shrinkage double-wall pipe in the automatic forming device for a cap sealing pipe according to the preferred embodiment of the present invention.

The reference numbers illustrate: the cutting device comprises a bottom plate 10, a heating position 11, a cutting position 12, a processing opening 13, an avoidance opening 14, a moving mechanism 20, a movable seat 21, an opening 211, a first driving piece 22, a guide rail 23, a sliding block 24, a heating mechanism 30, a heating piece 31, a cutting mechanism 40, a blade 41, a second driving piece 42, a blade seat 421, a tool apron body 4211, a gland 4212, a first driving unit 422, a mounting seat 423, a second driving unit 424, a moving seat 425, a heat-shrinkable double-wall pipe 50, a heat-shrinkable pipe 51 and a hot melt adhesive layer 52.

[ detailed description ] embodiments

In order to make the objects, technical solutions and advantageous technical effects of the present invention more clearly understood, the present invention is further described in detail with reference to the accompanying drawings and the following detailed description. It should be understood that the detailed description and specific examples, while indicating the present invention, are given by way of illustration only and not by way of limitation.

Referring to fig. 1 to 5, an embodiment of the present invention further provides an automatic forming device for a cap sealing pipe, which includes a moving mechanism 20, a heating mechanism 11 and a cutting mechanism 40; the moving mechanism 20 comprises a movable seat 21 and a first driving piece 22, the first driving piece 22 is used for driving the movable seat 21 to move back and forth between the heating position 11 and the cutting position 12, and the movable seat 21 is used for limiting the position of the heat-shrinkable double-wall pipe and exposing the non-end position of the heat-shrinkable double-wall pipe 50; the heating mechanism 30 comprises at least one heating member 31 for heating and shrinking the non-end position of the heat-shrinkable double-wall pipe 50 at the heating position 11, and the cutting mechanism 40 comprises a blade 41 and a second driving member 42, wherein the second driving member 42 is used for driving the blade 41 to cut off the shrunk part of the heat-shrinkable double-wall pipe 50 when the movable seat 21 is at the cutting position 12.

As shown in fig. 1, the outer layer of the heat-shrinkable double-walled tube 50 is a heat-shrinkable tube 51, and the inner layer is a hot-melt adhesive layer 52. Fig. 2 is a schematic cross-sectional view of a heat-shrinkable double-walled tube 50 after heat shrinking. Fig. 3 is a cross-sectional view of a heat-shrinkable double-walled tube 50 after cutting.

In this embodiment, this automatic forming device for sealing cap pipe further includes bottom plate 10, and heating position 11 and cutting position 12 are located bottom plate 10, and a plurality of spacing holes (not shown) of horizontal setting are seted up to movable seat 21, and spacing hole is used for wearing to establish pyrocondensation double-walled pipe 50, and vertical opening 211 that sets up is seted up at the middle part of movable seat 21, and opening 211 link up with spacing hole in order to expose pyrocondensation double-walled pipe 50. Specifically, the second driving member 42 is used to drive the blade 41 into the opening 211 to cut the heat-shrinkable double-walled tube 50 when the movable seat 21 is at the cutting position 12.

In this embodiment, the quantity of spacing hole is four, can wear to establish four pyrocondensation double-walled pipes 50 simultaneously, heats the shrink through heating mechanism 30 and passes through cutting mechanism 40 cutting back again, can make eight sealing cap pipe products simultaneously.

Specifically, the moving mechanism 20 further includes a pair of guide rails 23 disposed on the base plate 10, and a slider 24 slidably disposed on each guide rail 23, and the movable seat 21 is fixed on the slider 24. Preferably, the first driving element 22 is an air cylinder, an output end of the first driving element 22 is connected to the movable seat 21, and the movable seat 21 is driven by the first driving element 22 to move along the guide rail 23. In this embodiment, the first driver 22 is mounted on the base plate 10 via a cylinder block 221.

Preferably, the through processing opening 13 is formed in the bottom plate 10 at the heating position 11, and the two heating members 31 are respectively disposed on two sides of the processing opening 13, so that the two sides of the thermal shrinkage double-wall pipe 50 are heated uniformly, and the thermal melt adhesive layer 52 of the thermal shrinkage double-wall pipe 50 is prevented from bubbling and sinking when being heated, so that the appearance of the shrinkage position is attractive.

In this embodiment, the heating member 31 is a heat gun. The air outlet of the heating member 31 faces the heating position 11, the air outlet of the heating member 31 is flat, the opening 211 is rectangular, the size of the opening 211 is consistent with the heat shrinkage size of the heat-shrinkable double-wall pipe 50, and preferably, the middle position of the heat-shrinkable double-wall pipe 50 is aligned with the opening 211, so that the consistency of products after cutting is ensured.

Preferably, the second driving member 42 includes a blade seat 421 and a first driving unit 422 connected to the blade seat 421, the blade seat 421 is used for fixing the blade 41, and the first driving unit 422 is used for driving the blade seat 421 to drive the blade 41 to rotate, so as to perform the rotary cutting on the heat-shrinkable double-walled tube 50.

In this embodiment, the blade holder 421 includes a holder body 4211 and a gland 4212, the blade 41 is clamped between the holder body 4211 and the gland 4212, the gland 4212 is fixedly connected to the holder body 4211 by screws, and the blade 41 is conveniently replaced by detaching the gland 4212.

Further, the second driving member 42 further includes a mounting seat 423 fixed on the bottom plate 10, a second driving unit 424 disposed on the mounting seat 423, and a moving seat 425 connected to the second driving unit 424, the first driving unit 422 is fixed on the moving seat 425, the second driving unit 424 is used for driving the moving seat 425 to approach or leave the bottom plate 10, and the first driving unit 422 moves to a proper position, which is convenient for cutting.

Preferably, the first driving unit 422 is a servo motor, the servo motor has high position accuracy, strong adaptability and strong overload resistance, and the second driving unit 424 is a cylinder.

In this embodiment, a through-going escape opening 14 is formed in the bottom plate 10 at the cutting position 12 for escaping the blade 41.

The embodiment of the utility model provides a theory of operation lies in: the heat-shrinkable double-wall pipe 50 penetrates into the corresponding limiting hole and the non-end position of the heat-shrinkable double-wall pipe 50 is aligned with the opening 211, when the movable seat 21 is located at the heating position 11, the heating mechanism 30 starts to heat to melt the inner layer of the heat-shrinkable double-wall pipe 50 and shrink along with the outer layer, and after the shrinkage is completed, the first driving piece 22 drives the movable seat 21 to move to the cutting position 12. The second driving unit 424 drives the moving seat 425 to drive the first driving unit 422 and the blade 41 to approach the bottom plate 10, and the first driving unit 422 drives the blade seat 421 to rotate so as to drive the blade 41 to rotate to cut off the heat-shrinkable part of the heat-shrinkable double-walled tube 50.

The embodiment of the utility model provides a cap sealing pipe automatic molding device heats through the non-tip position to pyrocondensation double-walled pipe 50, cuts again after making its shrink, can become two cap sealing pipe products with each pyrocondensation double-walled pipe 50 correspondence processing, and the outward appearance uniformity is high, has improved production efficiency greatly.

The invention is not limited solely to that described in the specification and the embodiments, and additional advantages and modifications will readily occur to those skilled in the art, and it is not intended to be limited to the specific details, representative apparatus, and illustrative examples shown and described herein, without departing from the spirit and scope of the general concept as defined by the appended claims and their equivalents.

Claims (11)

1. An automatic forming device for a cap sealing pipe is characterized by comprising a moving mechanism, a heating mechanism and a cutting mechanism; the moving mechanism comprises a movable seat and a first driving piece, the first driving piece is used for driving the movable seat to move back and forth between a heating position and a cutting position, and the movable seat is used for limiting the position of the heat-shrinkable double-wall pipe and exposing the non-end position of the heat-shrinkable double-wall pipe; the heating mechanism comprises at least one heating element used for heating the non-end part position of the heat-shrinkable double-wall pipe at the heating position to enable the heat-shrinkable double-wall pipe to shrink, the cutting mechanism comprises a blade and a second driving element, and the second driving element is used for driving the blade to cut off the shrinking part of the heat-shrinkable double-wall pipe when the movable seat is at the cutting position.

2. The automated capping tube forming apparatus of claim 1, further comprising a base plate; the heating position and the cutting position are located on the bottom plate, the movable seat is provided with a plurality of transversely-arranged limiting holes, the limiting holes are used for penetrating the heat-shrinkable double-wall pipe, the middle part of the movable seat is provided with a longitudinally-arranged opening, and the opening is communicated with the limiting holes to expose the heat-shrinkable double-wall pipe.

3. The automatic forming device of claim 2, wherein the moving mechanism further comprises a pair of guide rails disposed on the bottom plate, a sliding block slidably disposed on each guide rail, and the movable seat is fixed on the sliding block.

4. The automatic forming device of claim 1, wherein the first driving member is a cylinder, and an output end of the first driving member is connected to the movable seat.

5. The automatic molding device of claim 2, wherein the bottom plate at the heating position is provided with a through processing opening, and the number of the heating members is two and is respectively arranged at two sides of the processing opening.

6. The automated capping tube forming apparatus of claim 5, wherein the heating element is a heat gun.

7. The automatic molding device of claim 6, wherein the outlet of the heating element is flat and the opening is rectangular.

8. The apparatus of claim 2, wherein the second driving member comprises a blade seat and a first driving unit connected to the blade seat, the blade seat is used for fixing the blade, and the first driving unit is used for driving the blade seat to rotate the blade.

9. The automatic forming device of claim 8, wherein the second driving member further comprises a mounting seat fixed on the bottom plate, a second driving unit disposed on the mounting seat, and a moving seat connected to the second driving unit, the first driving unit is fixed on the moving seat, and the second driving unit is used for driving the moving seat to move closer to or away from the bottom plate.

10. The automated capping tube forming apparatus of claim 9, wherein the first driving unit is a servo motor and the second driving unit is a cylinder.

11. The automatic forming device of claim 2, wherein a through-opening is provided on the bottom plate at the cutting position.

Images