CN212041235U

CN212041235U - Rubberizing device

Info

Publication number: CN212041235U
Application number: CN202020518249.2U
Authority: CN
Inventors: 甘志文; 聂文兰
Original assignee: Dongguan Airui Automation Technology Co ltd
Current assignee: Dongguan Airui Automation Technology Co ltd
Priority date: 2020-04-10
Filing date: 2020-04-10
Publication date: 2020-12-01
Anticipated expiration: 2030-04-10

Abstract

The utility model relates to a rubberizing device, which comprises a frame, a guide component arranged on the frame, a bottom membrane component, a top membrane component and a control component, wherein the bottom membrane component and the top membrane component are connected with the guide component; the guide assembly comprises a base, a guide rail connected with the base and a top seat connected with the guide rail; the bottom film assembly comprises a driving part connected with the base, a base connected with the driving part, and a lower module arranged on the base; the base is arranged on the guide rail in a sliding manner; the top film component and the bottom film component are oppositely arranged; the top film assembly comprises a turning plate, a first upper module and a second upper module which are oppositely arranged on the turning plate, and a turning piece; the control assembly is respectively and correspondingly electrically connected with the driving piece and the overturning piece. Above-mentioned rubberizing device realizes the automatic rubberizing operation to socks through setting up basement membrane subassembly and top membrane subassembly, leads to the pressfitting operation through setting up the direction subassembly, realizes the automated production processing of basement membrane subassembly and top membrane subassembly through setting up the control assembly, greatly improves production machining efficiency.

Description

Rubberizing device

Technical Field

The utility model relates to a rubberizing equipment technical field especially relates to a rubberizing device.

Background

In the colder area of weather, the problem of heel fracture often can appear, and the heel fracture can lead to human heel position to support the human body because of painful, and then leads to people to lose the walking ability. This is because in cold weather areas, the body surface becomes dry due to low temperature and dry air, and the heel of the human body is under high pressure when standing, which causes the heel of the human body to crack.

The current method of preventing human heel fracture mainly through the attached one deck colloid in the heel portion of socks, and then effectively prevents the surperficial moisture loss of heel portion, and then guarantees the humidity of heel portion, and then effectively prevents human heel portion fracture. The existing mode of rubberizing on the root of the sock is to manually paint the colloid on the root, and the manual pressing operation is carried out, so that the processing efficiency is low.

SUMMERY OF THE UTILITY MODEL

In view of this, it is necessary to provide a tape sticking apparatus for solving the problem of low processing efficiency in manual operation.

A taping device, comprising:

the frame comprises a left baffle, a right baffle and a panel respectively connected with the left baffle and the right baffle;

a guide assembly mounted on the frame; the guide assembly comprises a base, a guide rail connected with the base and a top seat connected with the guide rail; the guide assembly is oppositely arranged on the left baffle and the right baffle on two sides;

a bottom membrane assembly coupled to the directing assembly; the bottom film assembly comprises a driving part connected with the base, a base connected with the driving part, and a lower module arranged on the base; the base is arranged on the guide rail in a sliding manner;

the top film assembly is connected with the guide assembly and is arranged opposite to the bottom film assembly; the top film component comprises a turning plate pivoted between the top seats at two sides, a first upper module and a second upper module which are oppositely arranged on the turning plate, and a turning piece connected with the turning plate; and

and the control assembly is arranged on the panel of the frame and is respectively and correspondingly electrically connected with the driving piece and the overturning piece.

Above-mentioned rubberizing device realizes the automatic rubberizing operation to socks through setting up basement membrane subassembly and top membrane subassembly, leads to the pressfitting operation through setting up the direction subassembly, realizes the automated production processing of basement membrane subassembly and top membrane subassembly through setting up the control assembly, greatly improves production machining efficiency.

In one embodiment, the control assembly includes a console box connected to the panel, a controller disposed within the console box, and a vent mounted on the console box.

In one embodiment, the control assembly further comprises a trigger piece arranged on one side of the turning plate and a sensor arranged corresponding to the trigger piece; the inductor is correspondingly and electrically connected with the controller.

In one embodiment, the frame is correspondingly provided with a control module, and the control module is correspondingly electrically connected with the controller.

In one embodiment, the lower die element is provided with at least two stitching cavities, and the stitching cavities are sequentially arranged at intervals along the lower die element.

In one embodiment, the first upper mold comprises a mounting plate and a molding block arranged on the mounting plate; the arrangement positions of the forming blocks correspond to the arrangement number of the pressing cavities.

In one embodiment, the structural size of the second upper module is the same as that of the first upper module, and the first upper module and the second upper module are arranged on two sides of the turning plate in a central symmetry manner.

In one embodiment, the lower module is provided with a glue injection hole and a heating hole; the glue injection hole is correspondingly communicated with the pressing cavity and is used for injecting glue into the pressing cavity, the heating holes are correspondingly arranged on two sides of the pressing cavity, and the heating holes are used for heating the pressing cavity.

In one embodiment, the base and the top seat are arranged at two ends of the guide rail in parallel, the arrangement direction of the guide rail is the same as that of the driving piece, and the arrangement direction of the driving piece is perpendicular to that of the base.

In one embodiment, the direction of arrangement of the flap is the same as the direction of arrangement of the base, and the first upper mould part and the second upper mould part are arranged in a central symmetry manner relative to the flap.

Drawings

Fig. 1 is a schematic structural view of a rubberizing device according to an embodiment of the present invention;

FIG. 2 is a schematic view of the internal structure of the adhesive applying apparatus shown in FIG. 1;

FIG. 3 is a schematic view of another angle of the adhesive applying apparatus shown in FIG. 1;

fig. 4 is a schematic structural diagram after the frame and the control assembly are hidden.

The reference numbers in the drawings have the meanings given below:

100. a rubberizing device;

10. a frame; 11. a left baffle; 12. a right baffle; 13. a panel;

20. a guide assembly; 21. a base; 22. a guide rail; 23. a top seat;

30. a base film component; 31. a drive member; 32. a base; 33. a lower mold part; 35. a press-fit cavity; 36. injecting glue holes; 37. heating the hole;

40. a top film assembly; 41. turning over a plate; 42. a first upper mold member; 45. mounting a plate; 46. forming a block; 43. a second upper mold part; 44. a turnover piece;

50. a control component; 51. a central control box; 52. a controller; 53. a ventilation member; 55. a trigger; 56. an inductor; 57. and a control module.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully below. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Referring to fig. 1 to 4, a rubberizing apparatus 100 according to an embodiment of the present invention includes a frame 10, a guide assembly 20 mounted on the frame 10, a bottom film assembly 30 and a top film assembly 40 connected to the guide assembly 20, and a control assembly 50 mounted on the frame 10; this rubberizing device 100 is used for carrying out automatic rubberizing operation to the root of socks, and then prevents that the problem of skin fracture from appearing in human heel portion in cold areas.

The frame 10 is correspondingly arranged around the outer side of the rubberizing device 100, the frame 10 is used for protecting the rubberizing device 100, and the frame 10 comprises a left baffle 11, a right baffle 12 and a panel 13 respectively connecting the left baffle 11 and the right baffle 12. The left baffle 11 is rectangular straight plate-shaped and is arranged along the vertical direction, the right baffle 12 and the left baffle 11 are arranged oppositely, the right baffle 12 is rectangular straight plate-shaped and is arranged along the vertical direction, and the arrangement direction of the left baffle 11 is the same as that of the right baffle 12; the panel 13 is rectangular and straight and is arranged along the vertical direction, and the panel 13 is correspondingly arranged between the left baffle plate 11 and the right baffle plate 12.

The guide assembly 20 is correspondingly arranged in the frame 10, the guide assembly 20 is oppositely arranged on the left baffle plate 11 and the right baffle plate 12 at two sides, and the guide assembly 20 comprises a base 21, a guide rail 22 connected with the base 21 and a top seat 23 connected with the guide rail 22. The base 21 is rectangular and long and is arranged along the horizontal direction, the base 21 is respectively arranged on the left baffle 11 and the right baffle 12, and the bases 21 at two sides are arranged in parallel; the guide rail 22 is arranged in a cylindrical structure, the guide rail 22 correspondingly extends along the vertical direction, and the guide rail 22 extends from the base 21 to the top base 23; the top seat 23 is rectangular and long and is arranged along the horizontal direction, the top seat 23 is respectively arranged on the left baffle plate 11 and the right baffle plate 12, the top seat 23 is correspondingly arranged above the base 21, and the top seats 23 on the two sides are arranged in parallel. In the present embodiment, the guide rails 22 on both sides are arranged in parallel, and the base 21 and the top 23 are arranged in parallel at both ends of the guide rails 22.

The bottom die assembly is located at the bottom of the frame 10, the bottom die assembly 30 is correspondingly connected to the guide assembly 20, and the bottom die assembly includes a driving member 31 connected to the base 21, a base 32 connected to the driving member 31, and a lower die member 33 mounted on the base 32. The driving member 31 is long and arranged along the vertical direction, the driving member 31 is correspondingly connected and fixed with the bases 21 at two sides, the arrangement direction of the driving member 31 is the same as that of the guide rail 22, the driving member 31 is arranged at the bottom of the base 32, and the driving member 31 is used for driving the base 32 to move relative to the base 21; the base 32 is rectangular and long and is arranged along the horizontal direction, the arrangement direction of the driving piece 31 is vertical to that of the base 32, and the driving piece 31 is used for driving the base 32 to be close to or far away from the top die assembly; the lower mold 33 is correspondingly arranged on the top of the base 32, the lower mold 33 is in a long strip shape and is arranged along the horizontal direction, the arrangement direction of the lower mold 33 is the same as that of the base 32, the lower mold 33 is arranged on one side of the base 32 close to the top mold assembly, and the lower mold 33 is used for performing press gluing on the root of the sock. In this embodiment, the driving member 31 is a hydraulic cylinder.

In this embodiment, the lower mold part 33 is provided with a pressing cavity 35, the pressing cavity 35 is used for providing a pressing environment for the rubberizing operation, the pressing cavity 35 corresponds to the shape of the heel of the human body, and the pressing cavity 35 is correspondingly arranged on the top of the lower mold part 33 in a circular arc groove-shaped structure. It is understood that the number of the stitching cavities 35 is at least two, each stitching cavity 35 is arranged at intervals along the lower mold part 33, and the number of the stitching cavities 35 corresponds to the number of socks applied by one stitching. In this embodiment, the number of the stitching cavities 35 is four, and the stitching cavities 35 are sequentially and uniformly spaced on the side of the lower mold part 33 close to the top mold assembly.

Furthermore, the lower mold part 33 is further provided with a glue injection hole 36 and a heating hole 37, the glue injection hole 36 is correspondingly formed in a circular through hole shape and extends from one side of the lower mold part 33 to the inside of the pressing cavity 35, the glue injection hole 36 is correspondingly communicated with the pressing cavity 35, and the glue injection hole 36 is used for injecting glue into the pressing cavity 35. This heated hole 37 is the both sides of module 33 under circular through-hole form intercommunication, this heated hole 37 set up the direction the same with injecting glue hole 36 set up the direction, heated hole 37 corresponds the both sides that set up at pressfitting chamber 35, this heated hole 37 is used for the heat supply source material to pass through, with the operation of heating to pressfitting chamber 35, and then guarantee pressfitting efficiency, guarantee the pressfitting quality through the mode of hot pressing, and set up heated hole 37 through the both sides at pressfitting chamber 35, make the both sides in pressfitting chamber 35 be heated simultaneously and heat up, guarantee that the temperature in the pressfitting chamber 35 is even, and then guarantee the laminating quality of colloid. In this embodiment, the number of the glue injection holes 36 corresponding to the number of the bonding cavities 35 is four, the number of the heating holes 37 is twice that of the bonding cavities 35, and the number of the heating holes 37 is eight.

The top mold assembly is correspondingly located on the top of the frame 10, the top mold assembly is arranged opposite to the bottom mold assembly, and the top mold assembly comprises a turning plate 41 pivoted between the top seats 23 on both sides, a first upper mold 42 and a second upper mold 43 arranged opposite to the turning plate 41, and a turnover piece 44 connected with the turning plate 41. The turning plate 41 is arranged in a rectangular straight plate-shaped structure, the direction of the turning plate 41 is the same as that of the base 32, the first upper module 42 and the second upper module 43 are respectively and correspondingly arranged on two sides of the turning plate 41, the turning plate 41 is used for switching the state that the first upper module 42 or the second upper module 43 faces the lower module 33 in a turning mode, then the first upper module 42 can be correspondingly controlled to face the lower module 33 by driving and controlling the turning plate 41 to turn over, when the socks on the first upper module 42 are glued and pressed, the socks can be sleeved on the second upper module 43 at the same time, and when the socks on the second upper module 43 are glued and pressed, the socks finished by gluing on the first upper module 42 can be taken down and correspondingly sleeved with the socks to be glued.

The first upper mold member 42 includes a mounting plate 45, and a molding block 46 provided on the mounting plate 45; the mounting plate 45 is correspondingly connected with the turning plate 41, the mounting plate 45 is in a rectangular straight plate shape and is arranged along the horizontal direction, the mounting plate 45 is fixed on one side of the turning plate 41, the first upper die piece 42 rotates along with the rotation of the turning plate 41, the arrangement position of the forming block 46 corresponds to the arrangement number of the pressing cavities 35, the forming block 46 extends from the mounting plate 45 to the lower die piece 33, the forming blocks 46 correspond to the pressing cavities 35 in a one-to-one correspondence manner, one end, far away from the mounting plate 45, of the forming block 46 is in an arc-shaped structure arrangement so as to correspond to the shape of the heel part of a human body, and therefore corresponding sleeving of socks on the forming block 46 is. In this embodiment, the number of the forming blocks 46 is four, and the forming blocks 46 are sequentially and uniformly arranged on one side of the mounting plate 45 close to the pressing cavity 35 at intervals.

The structural size of the second upper mold 43 is the same as that of the first upper mold 42, and the first upper mold 42 and the second upper mold 43 are arranged on two sides of the turning plate 41 in a central symmetry manner, so as to ensure that the arrangement angles of the first upper mold 42 and the second upper mold 43 are the same after the turning plate 41 rotates. The turnover piece 44 is correspondingly arranged on the frame 10, the turnover piece 44 is connected with the turning plate 41, and the turnover piece 44 is used for driving the turning plate 41 to rotate; in this embodiment, the turning member 44 is a motor.

The control assembly 50 is correspondingly installed on the panel 13 of the frame 10, the control assembly 50 is respectively and electrically connected with the driving member 31 and the turnover member 44, and the control assembly 50 is used for controlling the working states of the driving member 31 and the turnover member 44; the control assembly 50 includes a center console box 51 connected to the panel 13, a controller 52 provided in the center console box 51, and a ventilation member 53 installed on the center console box 51. The central control box 51 is arranged on the panel 13 in a hollow rectangular structure, and the central control box 51 is used for installing and fixing the control component 50; the controller 52 is rectangular arranged in the central control box 51, the controller 52 is fixedly connected with the central control box 51, the central control box 51 is used for protecting the controller 52, the controller 52 corresponds to the working states of the driving element 31 and the overturning element 44 respectively, and the controller 52 controls the movement of the bottom film assembly 30 and the overturning of the top film assembly 40; the ventilation piece 53 is correspondingly arranged on one side of the central control box 51, the ventilation piece 53 correspondingly blows air in the central control box 51 to the outside, and the ventilation piece 53 is used for dissipating heat of the controller 52 and conveying heat generated by the controller 52 to the outside in the working process, so that the temperature in the central control box 51 is reduced, and the working stability of the controller 52 is ensured. In this embodiment, the ventilation member 53 is a fan.

Further, the control assembly 50 further includes a trigger 55 disposed on one side of the turning plate 41, and a sensor 56 disposed corresponding to the trigger 55; the trigger 55 is protruded outwards from one side of the turning plate 41 in a convex block shape, and the trigger 55 rotates along with the turning plate 41; the sensor 56 is correspondingly connected and fixed with the frame 10, the position of the sensor 56 corresponds to the trigger 55, the sensor 56 is correspondingly electrically connected with the controller 52, the sensor 56 is used for sensing the position of the trigger 55, when the trigger 55 rotates to face the sensor 56, the sensor 56 correspondingly generates a trigger signal and transmits the trigger signal to the controller 52 in the form of an electric signal, and the controller 52 controls the first upper module 42 or the second upper module 43 to face the lower module 33 by detecting the electric signal and correspondingly identifying the rotating direction of the turning plate 41. Furthermore, a control module is correspondingly disposed on the frame 10, and the control module is correspondingly electrically connected to the controller 52, and the control module is configured to set relevant parameters of the controller 52, so as to realize relevant control of the driving member 31 and the overturning member 44, so as to meet different production requirements.

Above-mentioned rubberizing device 100 realizes the automatic rubberizing operation to socks through setting up basement membrane subassembly 30 and top membrane subassembly 40, leads to the pressfitting operation through setting up direction subassembly 20, realizes basement membrane subassembly 30 and the automated production of top membrane subassembly 40 through setting up control assembly 50 and processes, greatly improves production machining efficiency.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims

1. A rubberizing device, characterized by comprising:

2. The taping device of claim 1, wherein the control assembly includes a central control box connected to the panel, a controller disposed within the central control box, and a vent mounted on the central control box.

3. The rubberizing device according to claim 2, wherein the control assembly further comprises a trigger piece arranged on one side of the turning plate and a sensor arranged corresponding to the trigger piece; the inductor is correspondingly and electrically connected with the controller.

4. The rubberizing device according to claim 2, wherein a control module is correspondingly disposed on the frame, and the control module is correspondingly electrically connected with the controller.

5. The rubberizing device according to claim 1, wherein said lower mold member is provided with a plurality of press-fitting cavities, said number of press-fitting cavities being at least two, each of said press-fitting cavities being arranged at intervals in succession along said lower mold member.

6. The rubberizing device according to claim 5, wherein the first upper mold comprises a mounting plate and a forming block arranged on the mounting plate; the arrangement positions of the forming blocks correspond to the arrangement number of the pressing cavities.

7. The rubberizing device according to claim 6, wherein the second upper mold has the same structural dimensions as the first upper mold, the first upper mold and the second upper mold being arranged on both sides of the flap in a central symmetry.

8. The rubberizing device according to claim 5, wherein said lower mold member is provided with a glue injection hole and a heating hole; the glue injection hole is correspondingly communicated with the pressing cavity and is used for injecting glue into the pressing cavity, the heating holes are correspondingly arranged on two sides of the pressing cavity, and the heating holes are used for heating the pressing cavity.

9. The rubberizing device according to claim 1, wherein the base and the top base are arranged side by side at two ends of the guide rail, the direction of the guide rail is the same as the direction of the driving member, and the direction of the driving member is perpendicular to the direction of the base.

10. The rubberizing device according to claim 1, wherein the flap is disposed in the same direction as the base, and the first upper mold member and the second upper mold member are disposed in a central symmetry with respect to the flap.