CN220700456U - Sole film sticking machine - Google Patents

Abstract

The utility model relates to sole production equipment, in particular to a sole film sticking machine, which comprises a frame, wherein a rotating assembly is arranged on the frame and comprises a rotating frame, a first rotating motor, a sole front pressing die, a second rotating motor, a rotating disc, a mounting plate which is connected to the rotating disc in a sliding manner, an electromagnetic telescopic device used for driving the mounting plate to slide and a sole rear pressing die which is detachably and fixedly connected to the mounting plate, a rotating shaft of the rotating frame and an output shaft of the second rotating motor are coaxially arranged, and an operation space for clamping soles is formed between the sole front pressing die and the sole rear pressing die. Through setting up rotating assembly, can replace artifical rotatory sole when the pad pasting, production efficiency is relatively higher, because rotating assembly has set up before the sole press mold and behind the sole press mold centre gripping sole to press the membrane to rotate behind the press mold and the sole before utilizing two rotating electrical machines to drive the sole respectively, help avoiding the sole to warp, improve the yields.

Description

Sole film sticking machine

Technical Field

The utility model relates to sole production equipment, in particular to a sole film sticking machine.

Background

The Chinese patent application with publication number of CN116552034A discloses a processing technology of a wear-resistant popcorn midsole developed by the applicant, which requires laminating a malleable film on the side wall of a rough blank to form a film-covered rough blank, and the film laminating process in the market at present mainly depends on manual adhesion of the film on the sole, so that the production efficiency is relatively low.

In view of this, the applicant has conducted intensive studies on the structure of a sole laminator, and has produced the present application.

Disclosure of Invention

The utility model aims to provide a sole film sticking machine with relatively high production efficiency.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a sole film sticking machine, includes the frame, be provided with rotating assembly in the frame, rotating assembly is including rotating the connection be in swivel mount in the frame, be used for the drive swivel mount pivoted first rotating electrical machines, can dismantle fixed connection be in preceding moulding-die of sole on the swivel mount, install second rotating electrical machines in the frame, fixed connection be in rotary disk on the output shaft of second rotating electrical machines, sliding connection be in mounting panel on the rotary disk, be used for the drive the gliding electromagnetic telescopic device of mounting panel and can dismantle fixed connection be in behind the moulding-die behind the sole on the mounting panel, the rotation axis of swivel mount with the coaxial arrangement of output shaft of second rotating electrical machines, before the sole moulding-die with form the operating space that is used for the centre gripping sole behind the moulding-die.

As an improvement of the utility model, the transmission rod is rotationally connected to the frame, the rotating frame is indirectly rotationally connected to the frame through the fixed connection to one end of the transmission rod, and one end of the transmission rod, which is far away from the rotating frame, is in transmission connection with the first rotating motor through the belt mechanism.

As an improvement of the utility model, the frame is also provided with a material placing component for placing the film roll and a film guiding component matched with the material placing component.

As an improvement of the utility model, the material placing component comprises a supporting rod fixedly connected or rotationally connected on the frame and two baffles respectively detachably and fixedly connected on the supporting rod.

As an improvement of the utility model, the film guide assembly comprises a fixed guide roller mechanism positioned right above the material placing assembly and a movable guide roller mechanism positioned right above the operation space;

the fixed guide roller mechanism comprises a receiving guide roller rotatably connected to the frame;

the movable guide roller mechanism comprises a lifting frame, an operating piece, a discharging guide roller, a pressing wheel and a heating air gun, wherein the lifting frame is vertically and slidably connected to the machine frame, the operating piece is used for controlling the sliding position of the lifting frame, the discharging guide roller is rotationally connected to the lifting frame, the pressing wheel is located below the discharging guide roller, the heating air gun is located on one side of the discharging guide roller, which is away from the material placing component, the pressing wheel is directly or indirectly rotationally connected to the lifting frame, and the heating air gun is installed on the lifting frame.

As an improvement of the utility model, the operation piece comprises a jacking air rod and a pressing rod, wherein the lower end of the jacking air rod is rotatably connected to the frame, the upper end of the jacking air rod is rotatably connected to the lifting frame, one end of the pressing rod is rotatably connected to the frame, the other end of the pressing rod is provided with a handle, and the pressing rod is inserted into the lifting frame in a sliding manner.

As an improvement of the utility model, the lifting frame is provided with a link mechanism, the link mechanism comprises an upper link rod, a lower link rod, a synchronizing rod, a rear link rod, a mounting seat and a lower air compressing rod, one end of the upper link rod is rotatably connected to the lifting frame, the lower link rod is positioned below the upper link rod, the synchronizing rod is fixedly connected to one end of the lower link rod and rotatably connected to the lifting frame, one end of the rear link rod is fixedly connected to the synchronizing rod, the mounting seat is simultaneously rotatably connected to the upper link rod and the lower link rod, the upper end of the lower air compressing rod is rotatably connected to one end of the rear link rod, which is not connected to the synchronizing rod, the heating air gun comprises an air nozzle with the blowing direction facing the discharging guide roller and an air pipe connected to the air nozzle, and the air pipe is vertically and fixedly connected to the mounting seat.

As an improvement of the utility model, the lifting frame is fixedly connected with an adjusting rod through an adjusting bolt, and the material pressing wheel is rotationally connected with the adjusting rod.

As an improvement of the utility model, a film pressing guide roller is arranged above the material receiving guide roller and/or the material discharging guide roller, and the film pressing guide roller is rotatably connected with a swing frame which is rotatably connected with the frame or the lifting frame.

As an improvement of the utility model, guide pieces are respectively arranged beside the material receiving guide roller and the material discharging guide roller, the two guide pieces are positioned between the material receiving guide roller and the material discharging guide roller, the guide pieces comprise two guide rods which are arranged in parallel, and a film penetrating gap is formed between the two guide rods.

By adopting the scheme, the utility model has the following beneficial effects:

1. through setting up rotating assembly, can replace artifical rotatory sole when the pad pasting, production efficiency is relatively higher, because rotating assembly has set up before the sole press mold and behind the sole press mold centre gripping sole to press the membrane to rotate behind the press mold and the sole before utilizing two rotating electrical machines to drive the sole respectively, help avoiding the sole to warp, improve the yields.

2. Through setting up the membrane guide assembly, avoid the manual work to contact the film and cause the pollution to the film, help further improving pad pasting efficiency simultaneously.

Drawings

FIG. 1 is a schematic diagram of a sole laminator, wherein a front sole pressing die is omitted;

FIG. 2 is a schematic diagram of the present utility model with parts such as a console omitted;

fig. 3 is a schematic view of the structure of fig. 2 from another perspective.

The labels correspond to the following:

10-a frame; 11-a transmission rod;

20-a rotating assembly; 21-a rotating rack;

22-a first rotating electrical machine; 23-sole front press mold;

24-a second rotating electrical machine; 25-selecting a rotary table;

26-mounting plate; 27-an electromagnetic retractor;

28-sole rear die; 30-a material placing component;

31-supporting rods; 32-baffle plates;

40-a film guiding component; 41-a receiving guide roller;

42-lifting frames; 43-a discharge guide roller;

44-a material pressing wheel; 45-heating an air gun;

46-lifting the gas rod; 47-pressing rods;

48-adjusting the rod; 50-a console;

60-a linkage mechanism; 61-upper connecting rod;

62-lower link; 63-a synchronizing bar;

64-rear link; 65-mounting seats;

66-pressing a gas rod downwards; 70-film pressing guide rollers;

71-a swing frame; 72-guide.

Detailed Description

The utility model will be further described with reference to the accompanying drawings and specific examples.

As shown in fig. 1-3, the present embodiment provides a sole film sticking machine, which includes a frame 10, a rotating assembly 20, a material placing assembly 30 for placing a film roll, a film guiding assembly 40 matched with the material placing assembly 30, and a console 50 for controlling the working time sequence of the rotating assembly 20 are disposed on the frame 10, wherein the console 50 is a conventional control device, which is not the focus of the present embodiment, and will not be described in detail herein.

The rotating assembly 20 comprises a rotating frame 21 rotatably connected to the frame 10, a first rotating motor 22 for driving the rotating frame 21 to rotate, a front sole pressing die 23 detachably and fixedly connected to the rotating frame 21, a second rotating motor 24 mounted on the frame 10, a rotating disc 25 fixedly connected to an output shaft of the second rotating motor 24, a mounting plate 26 slidably connected to the rotating disc 25, an electromagnetic telescopic device 27 for driving the mounting plate 26 to slide and a rear sole pressing die 28 detachably and fixedly connected to the mounting plate 26, wherein the rotating shaft of the rotating frame 21 and the output shaft of the second rotating motor 24 are respectively horizontally arranged and coaxially arranged, at least two sliding rods slidably inserted on the rotating disc 25 are fixedly connected to the mounting plate 26, and are parallel to the output shaft of the second rotating motor 24, so that the sliding connection between the mounting plate 26 and the rotating disc 25 is realized. It should be noted that, the electromagnetic telescopic device 27 preferably adopts the electromagnetic telescopic device 27 with a power supply and a wireless communication module, so that wire winding can be avoided, when the electromagnetic telescopic valve 27 has a wire (a power supply wire, a control wire, etc.), the wire winding can be avoided by adopting the existing structure such as a conductive slip ring assembly, etc., and the wire winding can be avoided by requiring the clockwise rotation of the rotating disk 25 after one turn in use, and the anticlockwise reset is required, which is not described in detail herein.

The output shaft of the second rotary motor 24 faces the rotary frame 21, and an operation space for clamping the sole is formed between the sole front pressing die 23 and the sole rear pressing die 28. The shape of the facing sides of the front sole stamper 23 and the rear sole stamper 28 need to be designed according to the specific shape of the sole in order to facilitate a better fit of the sole. The specific releasable connection of the front sole stamper 23 and the rear sole stamper 28 may be of conventional construction, such as releasable attachment by means of bolts or the like. When the film attaching device is used, the soles are placed in the operation space and placed at positions corresponding to the front sole pressing mold 23 and the rear sole pressing mold 28, then the electromagnetic telescopic device 27 is used for driving the mounting plate 26 to slide relative to the rotating disc 25, the rear sole pressing mold 28 is pushed to press the soles on the front sole pressing mold 23, and then the two rotating motors synchronously rotate to drive the soles to rotate, so that the film is attached to the side walls of the soles.

Preferably, in this embodiment, the frame 10 is rotatably connected with a horizontally arranged transmission rod 11, the rotating frame 21 is indirectly rotatably connected with the frame 10 through a fixed connection at one end of the transmission rod 11, and one end of the transmission rod 11 away from the rotating frame 21 is in transmission connection with the first rotating motor 22 through a conventional belt mechanism, so that when the sole is clamped, the pressure of the rear pressing die 28 of the sole can be prevented from being directly transmitted to the output shaft of the first rotating motor 22, and the transmission stability is improved.

The material placing assembly 30 includes a support rod 31 fixedly connected or rotatably connected to the frame 10 and two baffles 32 respectively detachably and fixedly connected to the support rod 31, and the specific detachable connection structure between the baffles 32 and the support rod 31 is similar to that of the conventional winding and unwinding mechanism, and is not focused on in the present embodiment, and is not described in detail herein. When the film roll needs to be taken and put, one baffle plate 32 is detached, the supporting rod 31 penetrates out of the inner hole of the film roll, then the detached baffle plate 32 is assembled back, the film roll is positioned between the two baffle plates 32, and therefore the two baffle plates 32 can be utilized to limit the film roll, and the film roll is prevented from moving towards the running direction during use.

The film guide assembly 40 comprises a fixed guide roller mechanism positioned right above the material placing assembly 30 and a movable guide roller mechanism positioned right above the operation space; the fixed guide roller mechanism comprises a receiving guide roller 41 rotatably connected to the frame 10; the movable guide roller mechanism comprises a lifting frame 42 vertically and slidably connected to the frame 10, an operating member for controlling the sliding position of the lifting frame 42, a discharging guide roller 43 rotatably connected to the lifting frame 42, a material pressing wheel 44 positioned below the discharging guide roller 43, and a heating air gun 45 positioned on one side of the discharging guide roller, which is far away from the material placing component 30, wherein the material pressing wheel 44 is directly or indirectly rotatably connected to the lifting frame 42, the heating air gun 45 is mounted on the lifting frame 42, and the heating air gun 45 is a conventional high-temperature air gun and can be directly purchased from the market. In addition, the material placing assembly 30, the material receiving guide roller 41 and the material discharging guide roller 43 are arranged in parallel with each other and on the same vertical plane.

The operating member may be a conventional member such as a cylinder or a lift motor, and in this embodiment, the operating member includes a lifting air bar 46 and a pressing bar 47 which are disposed obliquely with respect to a horizontal plane and are located on the same vertical plane or on vertical planes parallel to each other, wherein a lower end (cylinder end) of the lifting air bar 46 is rotatably connected to the frame 10, and an upper end (telescopic bar end) is rotatably connected to the lifting frame 42, so that an upward elastic force can be formed by the lifting air bar 46 to prevent the lifting frame 42 from naturally sliding down under the action of gravity. One end of the pressing rod 47 is rotatably connected to the frame 10, the other end of the pressing rod is provided with a handle, and the pressing rod 47 is slidably inserted into the lifting frame 42, so that the lifting frame 42 can be pressed downwards by the pressing rod 47, the lifting frame 42 overcomes the elasticity of the jacking cylinder 43 and slides downwards, and the pressing rod 47 can be used as a lever, so that the lifting frame has a labor-saving effect.

The pressing wheel 44 may be directly rotatably connected to the lifting frame 42, preferably, in order to facilitate adjustment of the position of the pressing wheel 44 according to the sole model, in this embodiment, the lifting frame 42 is fixedly connected to the adjusting rod 48 through an adjusting bolt, and the pressing wheel 44 is rotatably connected to the adjusting rod 48, so as to implement indirect rotational connection between the pressing wheel 44 and the lifting frame 42. In use, the position of the nip wheel 44 can be adjusted by unscrewing the adjustment screw so that the adjustment lever 48 can be swung.

The heating air gun 45 may be directly and fixedly connected to the lifting frame 42, preferably, in order to improve the heating stability and the self-adapting capability of the heating air gun 45, in this embodiment, the lifting frame 42 is provided with a link mechanism 60, the link mechanism 60 includes an upper link 61 with one end rotatably connected to the lifting frame 42, a lower link 62 located below the upper link 61, a synchronizing rod 63 fixedly connected to one end of the lower link 62 and rotatably connected to the lifting frame 42, a rear link 64 with one end fixedly connected to the synchronizing rod 63, and a lower air compressing rod 66 with one end rotatably connected to the upper link 61 and the lower link 62 and one end (cylinder end) rotatably connected to the lifting frame 42, wherein the upper link 61 and the lower link 62 are located on the same vertical plane, the lifting frame 42, the mounting seat 65, the upper link 61 and the lower link 62 together form a quadrilateral mechanism, and a lower end (telescopic rod end) of the lower air compressing rod 66 is rotatably connected to one end of the rear link 64 not connected to the synchronizing rod 63; the heating air gun 45 includes an air tap with a blowing direction toward the discharge guide roller 43 and an air pipe connected with the air tap, and the air pipe is vertically and fixedly connected to the mounting base 65. Thus, when the film is pulled against the heating air gun 45, the heating air gun 45 can be moved upward by the push-pull force and reset after the push-pull force is removed, and meanwhile, when the heating air gun 45 is debugged or not needed, the mounting seat 65 is pushed upward, so that the rear connecting rod 64 and the lower air pressing rod 66 are positioned on the same straight line, and the heating air gun is temporarily fixed above the side of the discharging guide roller 43.

Preferably, the film pressing guide roller 70 is disposed above the material receiving guide roller 41 and/or the material discharging guide roller 43, in this embodiment, the film pressing guide roller 70 is disposed above the material receiving guide roller 41 and the material discharging guide roller 43, and in this embodiment, each film pressing guide roller 70 is rotatably connected with one swinging frame 71, that is, two swinging frames 71 are respectively matched with two film pressing guide rollers 70 one to one, and the middle part of the swinging frame 71 is rotatably connected to the frame 10 or the lifting frame 42, specifically, rotatably connected to the frame 10 or the lifting frame 42 depending on the matching of the film pressing guide roller 70 and the material receiving guide roller 41 or the material discharging guide roller 43. The film pressing guide roller 70 is located at one end of the corresponding swing frame 71, so that when in use, the film pressing guide roller 70 can press the falling film on the receiving guide roller 41 or the discharging guide roller 43 under the action of gravity, and when in use, the film can be conveniently penetrated by pressing one end of the swing frame 71 away from the corresponding film pressing guide roller 70, which is the corresponding film pressing guide roller 70, and the gap between the film pressing guide roller and the receiving guide roller 41 or the discharging guide roller 43 is relatively larger. Furthermore, guide elements 72 are arranged next to the receiving guide roller 41 and the discharge guide roller 43, respectively, both guide elements 72 being located between the receiving guide roller 41 and the discharge guide roller 43, the guide elements 72 being fixedly connected to the frame 10 or the lifting frame 42, in particular to the frame 10 or the lifting frame 42, depending on whether they are relatively close to the receiving guide roller 41 or relatively close to the discharge guide roller 43. The guide member 72 includes two guide rods arranged parallel to each other, and a film passing gap is formed between the two guide rods, so that the separation position of the film and the receiving guide roller 41 and the position of the film entering the discharging guide roller 43 are kept basically unchanged, and the influence of the up-and-down movement of the movable guide roller mechanism on the film conveying stability is avoided.

Before use, after being led out from the material placing component 30, the film roll bypasses the material receiving guide roller 41 and passes out from between the material receiving guide roller 41 and the corresponding film pressing guide roller 70, then sequentially passes through the film passing gap of the two guide pieces 72, passes through and winds on the material discharging guide roller 43, and then is pulled below the material pressing wheel 44; when the shoe is used, the film is pressed on the sole by the pressing wheel 44 which presses the pressing rod 47, and meanwhile, the sole is driven by the two rotating motors to rotate, so that the film is attached to the side wall of the sole, and film pasting is realized. It is desirable that the sole is not a rotating member and that its rotational movement is not too rapid to ensure that the nip wheel 44 is always capable of holding the sole.

The present utility model has been described in detail with reference to the accompanying drawings, but the embodiments of the present utility model are not limited to the above embodiments, and those skilled in the art can make various modifications to the present utility model according to the prior art, which are all within the scope of the present utility model.

Claims (10)

1. The utility model provides a sole film sticking machine, includes the frame, its characterized in that, be provided with rotating assembly in the frame, rotating assembly is including rotating the connection be in swivel mount in the frame, be used for the drive swivel mount pivoted first rotating electrical machines, can dismantle fixed connection be in preceding moulding-die of sole on the swivel mount, install second rotating electrical machines in the frame, fixed connection be in rotary disk on the output shaft of second rotating electrical machines, sliding connection be in mounting panel on the rotary disk, be used for the drive the gliding electromagnetic telescopic ware of mounting panel and can dismantle fixed connection be in behind the moulding-die behind the sole on the mounting panel, the rotation axis of swivel mount with the coaxial arrangement of output shaft of second rotating electrical machines, preceding moulding-die of sole with form the operating space that is used for the centre gripping sole behind the moulding-die.

2. The shoe sole film sticking machine according to claim 1, wherein a transmission rod is rotatably connected to the frame, the rotating frame is indirectly rotatably connected to the frame through a fixed connection to one end of the transmission rod, and one end of the transmission rod away from the rotating frame is in transmission connection with the first rotating motor through a belt mechanism.

3. The shoe sole film sticking machine according to claim 1 or 2, wherein a material placing component for placing a film roll and a film guiding component matched with the material placing component are further arranged on the frame.

4. The shoe sole film sticking machine according to claim 3, wherein the material placing component comprises a supporting rod fixedly connected or rotatably connected to the frame and two baffles respectively detachably and fixedly connected to the supporting rod.

5. The sole laminator of claim 3, wherein the film guide assembly includes a fixed guide roller mechanism located directly above the placement assembly and a movable guide roller mechanism located directly above the operating space;

the fixed guide roller mechanism comprises a receiving guide roller rotatably connected to the frame;

the movable guide roller mechanism comprises a lifting frame, an operating piece, a discharging guide roller, a pressing wheel and a heating air gun, wherein the lifting frame is vertically and slidably connected to the machine frame, the operating piece is used for controlling the sliding position of the lifting frame, the discharging guide roller is rotationally connected to the lifting frame, the pressing wheel is located below the discharging guide roller, the heating air gun is located on one side of the discharging guide roller, which is away from the material placing component, the pressing wheel is directly or indirectly rotationally connected to the lifting frame, and the heating air gun is installed on the lifting frame.

6. The machine of claim 5, wherein the operating member comprises a lifting air bar and a pressing bar, the lower end of the lifting air bar is rotatably connected to the frame, the upper end of the lifting air bar is rotatably connected to the lifting frame, one end of the pressing bar is rotatably connected to the frame, the other end of the pressing bar is provided with a handle, and the pressing bar is slidably inserted into the lifting frame.

7. The machine for laminating soles according to claim 5, wherein a link mechanism is provided on the lifting frame, the link mechanism comprises an upper link with one end rotatably connected to the lifting frame, a lower link below the upper link, a synchronizing rod fixedly connected to one end of the lower link and rotatably connected to the lifting frame, a rear link with one end fixedly connected to the synchronizing rod, a mounting seat simultaneously rotatably connected to the upper link and the lower link, and a lower air-compressing rod with the upper end rotatably connected to the lifting frame, the lower end of the lower air-compressing rod is rotatably connected to one end of the rear link not connected to the synchronizing rod, the heating air gun comprises an air nozzle with a blowing direction facing the discharging guide roller, and an air pipe connected to the air nozzle, and the air pipe is vertically and fixedly connected to the mounting seat.

8. The shoe sole film sticking machine according to claim 5, wherein an adjusting rod is fixedly connected to the lifting frame through an adjusting bolt, and the pressing wheel is rotatably connected to the adjusting rod.

9. The shoe sole film sticking machine according to claim 5, wherein a film pressing guide roller is arranged above the material receiving guide roller and/or the material discharging guide roller, the film pressing guide roller is rotatably connected with a swing frame, and the swing frame is rotatably connected to the frame or the lifting frame.

10. The shoe sole film sticking machine according to claim 5, wherein guide members are respectively arranged beside the material receiving guide roller and the material discharging guide roller, the two guide members are positioned between the material receiving guide roller and the material discharging guide roller, the guide members comprise two guide rods which are arranged in parallel, and a film penetrating gap is formed between the two guide rods.