CN112353057A

CN112353057A - Shoe fabric combined sticking device

Info

Publication number: CN112353057A
Application number: CN202011209894.7A
Authority: CN
Inventors: 兰如林
Original assignee: Individual
Current assignee: Zhejiang Yangguang Technology Co ltd
Priority date: 2020-11-03
Filing date: 2020-11-03
Publication date: 2021-02-12
Anticipated expiration: 2040-11-03
Also published as: CN112353057B

Abstract

A shoe fabric combined sticking device comprises a rack, wherein two first conveyor belt mechanisms are mounted on one side of the rack through a first support arm, two roller shafts of the lower first conveyor belt mechanism are in transmission connection with a first motor, and the upper first conveyor belt mechanism is elastically pressed on the lower first conveyor belt mechanism through an elastic pressing piece; a first cylinder is mounted on the first support arm through a cantilever, a glue box is arranged at the upper end of a cylinder rod of the first cylinder, and a glue spreading wheel is mounted at the lower end of a glue discharging square pipe of the glue box; two second conveyor belt mechanisms are arranged on the other side of the rack through a second support arm, and two roll shafts of the lower second conveyor belt mechanism are in transmission connection with a second motor; the upper first conveying belt mechanism is pressed on the lower second conveying belt mechanism through an elastic pressing piece; a lower supporting roller and an upper pressing roller are arranged in front of the frame, and one end of the lower supporting roller is in transmission connection with a first motor. The device can realize the overlapping continuous bonding of two leathers, and the rubber coating is even, the bonding is firm, the follow-up sewing of being convenient for.

Description

Shoe fabric combined sticking device

Technical Field

The invention relates to the technical field of shoemaking processing, in particular to a shoe fabric combined sticking device.

Background

In the existing shoemaking processing process, two pieces of shoe fabrics such as leather and the like are often required to be combined and spliced, and the fabrics are required to be bonded and then sewn during splicing so as to improve the connection strength between the fabrics.

The traditional leather bonding method comprises the following steps: the handheld roller directly coats glue on the leather bonding surface, and because the roller is directly coated with glue, the thickness of the glue layer attached to the roller is different, so that the glue layer coated on the leather is not uniform, and the bonding effect is directly influenced.

Disclosure of Invention

The invention aims to solve the technical problem of providing a shoe fabric combined sticking device which is uniform in gluing, firm in sticking and convenient for subsequent sewing.

In order to achieve the purpose, the invention adopts the following technical scheme:

a shoe fabric combined sticking device comprises a rack, wherein two first support arms which are arranged front and back are arranged on one side of the rack, two first conveyor belt mechanisms which are arranged up and down are arranged between the two first support arms, two roller shafts of the first conveyor belt mechanism positioned below are in transmission connection with a first motor arranged on the rack, and the first conveyor belt mechanism positioned above is elastically pressed on the first conveyor belt mechanism positioned below through an elastic pressing piece arranged on the two first support arms and is used for clamping and feeding a piece of leather positioned below;

a first cylinder is arranged on a first support arm close to the rear end of the rack through a cantilever, a glue box is arranged at the upper end of a cylinder rod of the first cylinder, a glue outlet square pipe is arranged at the bottom of the glue box, and the lower end of the glue outlet square pipe corresponds to the outer side of the inner edge of a conveyor belt of a first conveyor belt mechanism below the glue outlet square pipe; the lower end of the glue outlet square pipe is provided with a rotatable glue coating wheel which is used for coating the glue discharged from the glue outlet square pipe on the edge of a piece of leather positioned below the glue outlet square pipe;

two second support arms which are arranged in the front and back are arranged on the other side of the rack, two second conveyor belt mechanisms which are arranged up and down are arranged between the two second support arms, and two roll shafts of the second conveyor belt mechanism positioned below are in transmission connection with a second motor arranged on the rack; the second conveyor belt mechanism positioned above is elastically pressed on the second conveyor belt mechanism positioned below through elastic pressing pieces arranged on the two second support arms, so that the other piece of leather positioned above is clamped and fed and is partially overlapped with the edge of the leather positioned below;

a rotatable lower carrier roller is arranged on the frame in front of the first and second conveyor belt mechanisms through two third support arms, and one end of the lower carrier roller is in transmission connection with a first motor; and a rotatable upper press roller is arranged on the upper cantilever of one of the third support arms and is pressed on the lower carrier roller through a second cylinder arranged at the upper end of one of the third support arms so as to realize the adhesion of the overlapped parts of the two strips of leather.

Preferably, two rollers of the first conveyor belt mechanism located below are mounted on the first support arm through a copper sleeve cantilever, and one ends of the two rollers respectively penetrate through the first support arm and are connected with the first motor through a chain transmission mechanism.

Preferably, the upper parts of the two first support arms are provided with longitudinal slideways along the vertical direction, first sliding blocks are respectively arranged in the longitudinal slideways in a sliding clearance fit manner, and one ends of two roll shafts of the first conveyor belt mechanism positioned above are respectively rotatably arranged in the corresponding first sliding blocks.

Preferably, the elastic pressing member is composed of an adjusting bolt and a pressure spring, wherein the pressure spring in the elastic pressing member provided on the first arm is provided in the longitudinal slide and presses against the first slider, and the adjusting bolt is mounted on the upper end of the first arm by a thread and presses against the upper end of the pressure spring.

Preferably, the two pairs of roller shafts of the two first conveyor belt mechanisms arranged up and down are in transmission connection through a pair of gear pairs respectively.

Preferably, the inner sides of the two roll shafts of the first conveyor belt mechanism positioned above are respectively provided with a pressing roll, and one end of each pressing roll is rotatably arranged in the corresponding first sliding block in a cantilever mode and used for pressing the conveyor belt.

Preferably, the second support arms are respectively provided with a guide rail on the frame along the transverse direction, and the two second support arms are connected into a whole through a cross beam between the two second support arms and are arranged on the two guide rails through sliding fit; the second motor is arranged on the cross beam; and a screw rod transmission mechanism is arranged between the middle part of the cross beam and the rack and is used for adjusting the positions of the second support arm and the second conveyor belt mechanism so as to adjust the overlapping width of the two strips of leather.

Preferably, the upper parts of the two second support arms are provided with longitudinal slideways along the vertical direction, second sliding blocks are respectively arranged in the longitudinal slideways in a sliding clearance fit manner, and one ends of two roll shafts of the second conveyor belt mechanism positioned above are respectively rotatably arranged in the corresponding second sliding blocks.

Preferably, a longitudinal slide way is arranged on the upper portion of one of the third support arms in the vertical direction, a third slide block is arranged in the longitudinal slide way in a sliding clearance fit mode, one end of a roller shaft of the upper pressure roller is rotatably installed in the corresponding third slide block, and the lower end of a cylinder rod of the second air cylinder is inserted into the longitudinal slide way of the third support arm and connected with the third slide block to drive the upper pressure roller to lift.

Preferably, the machine frame is provided with a rotatable supporting wheel through a vertical column corresponding to the position of the gluing wheel, the supporting wheel is supported below the inner edge of the leather between the conveyor belts of the two first conveyor belt mechanisms and is used for matching the gluing wheel to glue the edge of the leather positioned below, and the gluing is ensured to be uniform.

Preferably, the middle part of the rear end of the frame is provided with a support, the support is provided with two transverse shafts which are horizontally arranged up and down, the upper edges of the two transverse shafts respectively correspond to the conveying belts of the two first conveying belt mechanisms and the two second conveying belt mechanisms, and the two transverse shafts are respectively provided with a pair of feeding baffles which are used for limiting the feeding positions of the two pieces of leather so that the leather horizontally enters the first conveying belt mechanism and the second conveying belt mechanism when being bonded.

Compared with the prior art, the invention provides a shoe fabric combined sticking device which has the following beneficial effects:

1. the first motor drives the first conveyor belt mechanism positioned below to rotate and elastically presses the first conveyor belt mechanism positioned below through the first conveyor belt mechanism positioned above, so that a leather plane positioned below can be unfolded and clamped between the two first conveyor belt mechanisms to realize clamping and feeding; the glue box is driven to fall through the first cylinder, so that the glue spreading wheel at the lower end of the glue discharging square pipe can be driven to press on the entering leather, the glue discharged from the glue discharging square pipe is spread on the edge of the leather below along with the forward movement of the leather, the glue spreading is uniform, and the firm bonding is ensured.

2. Because two second support arms which are arranged back and forth are arranged on the other side of the machine frame, two second conveyor belt mechanisms which are arranged up and down are arranged between the two second support arms, the second conveyor belt mechanism positioned above is elastically pressed on the second conveyor belt mechanism positioned below through an elastic pressing piece arranged on the two second support arms, and the second conveyor belt mechanism positioned below is driven to rotate through a second motor, so that the clamping and feeding of the other piece of leather positioned above can be realized, and the other piece of leather positioned above is arranged in parallel with and partially overlapped with the piece of leather positioned below; through the lower carrier roller and the upper compression roller which are arranged in front of the first and second conveyor belt mechanisms on the machine frame, the upper compression roller is pressed on the lower carrier roller through the second cylinder, so that the two strips of leather can be overlapped and continuously bonded, the bonding is firm, and the subsequent sewing is convenient.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a top view of fig. 1.

Fig. 3 is a left side view of fig. 1.

Fig. 4 is a right side view of fig. 1.

FIG. 5 is a perspective view of the present invention.

FIG. 6 is a perspective view of the present invention II.

Fig. 7 is a partially enlarged view of fig. 6.

In the figure: the automatic feeding device comprises a rack 1, a third support arm 2, an elastic pressing piece 3, an adjusting bolt 301, a pressure spring 302, a second conveyor belt mechanism 4, a roll shaft 5, a rubber box 6, a first air cylinder 7, a first sliding block 8, a roll shaft 9, a first support arm 10, a first conveyor belt mechanism 11, a chain transmission mechanism 12, a first motor 13, leather 14, a second sliding block 15, a gear pair 16, a pressing roll 17, a gear pair 18, a pressing roll 19, a second air cylinder 20, an upper pressing roll 21, a lower supporting roll 22, a rubber discharging square tube 23, a second support arm 24, a support column 25, a transverse shaft 26, a feeding baffle 27, a rubber coating wheel 28, an upright column 29, a supporting wheel 30, a third sliding block 31, a lead screw transmission mechanism 32, a transverse beam 33, a guide rail 34, an optoelectronic switch 35 and a second motor 36.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of this patent, it is noted that unless otherwise specifically stated or limited, the terms "mounted," "connected," and "disposed" are to be construed broadly and can include, for example, fixedly connected, disposed, detachably connected, disposed, or integrally connected and disposed. The specific meaning of the above terms in this patent may be understood by those of ordinary skill in the art as appropriate.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1-7, the shoe fabric combined sticking device according to the present invention includes a frame 1, two first support arms 10 arranged back and forth are installed on one side of the frame 1, two first belt conveying mechanisms 11 arranged up and down are installed between the two first support arms 10 along the longitudinal direction of the frame 1, wherein two roller shafts 9 of the first belt conveying mechanisms 11 located below are installed on the first support arms 10 through copper sleeve cantilevers, and one end of each of the two roller shafts 9 respectively penetrates through the first support arms 10 and is connected with a first motor 13 installed on the frame 1 through a chain transmission mechanism 12. Two first conveyer belt mechanism 11 is high back low and is the low inclined arrangement of small angle, is located the roller that is located the front end slightly higher than the roller that is located the rear end promptly.

The upper parts of the two first supporting arms 10 are provided with longitudinal slideways along the vertical direction, I-shaped first sliding blocks 8 are arranged in the longitudinal slideways in a sliding clearance fit mode respectively, one ends of two roll shafts of the first conveying belt mechanism 11 positioned above are rotatably arranged in the corresponding first sliding blocks 8 through copper sleeves respectively, and are elastically pressed on the first conveying belt mechanism 11 positioned below through elastic pressing pieces 3 arranged on the two first supporting arms 10 to clamp and feed a piece of leather 14 positioned below.

The elastic pressing piece 3 is composed of an adjusting bolt 301 and a pressure spring 302, wherein the pressure spring 302 is arranged in the longitudinal slideway and presses on the first sliding block 8, and the adjusting bolt 301 is installed at the upper end of the first supporting arm 10 in the vertical direction through threads and is screwed into the longitudinal slideway and presses on the upper end of the pressure spring 302.

Two pairs of roll shafts of two first belt conveying mechanisms 11 which are arranged up and down are respectively in transmission connection through a pair of gear pairs 18. And pressing rollers 19 are respectively arranged on the inner sides of the two roller shafts of the first conveying belt mechanism 11 positioned above, and one ends of the pressing rollers 19 are rotatably arranged in the corresponding first sliding blocks 8 through copper sleeve cantilevers and are used for pressing the conveying belts.

The conveyer belt width that is located the first conveyer belt mechanism 11 of top slightly is less than the conveyer belt width of the first conveyer belt mechanism 11 of below, install first cylinder 7 through the cantilever on the first support arm 10 that is close to frame 1 rear end, first cylinder 7 is vertical to be arranged and the jar pole upwards, install gluey box 6 in the jar pole upper end of first cylinder 7, be equipped with electric heater (not shown in the figure) in gluey box 6, be connected with L type play gluey side pipe 23 bottom gluey box 6, it corresponds the conveyer belt inward flange outside that is located the first conveyer belt mechanism 11 of below to go out gluey side pipe 23 lower extreme. The lower end of the glue outlet square pipe 23 is provided with a rotatable glue coating wheel 28 for coating the glue discharged from the glue outlet square pipe on the edge of a piece of leather 14 positioned below. A photoelectric switch 35 is arranged on the glue outlet square tube 23 at one side in front of the glue spreading wheel 28 and used for detecting whether leather enters between the conveyor belts of the two first conveyor belt mechanisms 11 or not, so that the first air cylinder 7 is controlled to be started.

A rotatable supporting wheel 30 is arranged on the machine frame 1 corresponding to the glue spreading wheel 28 through an upright post 29, the supporting wheel 30 is supported below the inner edge of the leather between the conveyor belts entering the two first conveyor belt mechanisms 11 and is used for matching the glue spreading wheel 28 to spread glue on the edge of a piece of leather 14 positioned below, and the uniform glue spreading is ensured.

Two second support arms 24 which are arranged back and forth are arranged on the other side of the rack 1, two second conveyor belt mechanisms 4 which are arranged up and down are arranged between the two second support arms 24 along the longitudinal direction of the rack 1, and the two second conveyor belt mechanisms 4 are arranged in a manner of inclining back and forth. Two roll shafts 5 of the second conveyor belt mechanism 4 positioned below are in transmission connection with a second motor 36 arranged on the rack 1 through chains; the second conveyor belt means 4 located above is elastically pressed against the second conveyor belt means 4 located below by means of the elastic pressing elements 3 provided on the second arms 24 for the purpose of holding and feeding the other leather 14 located above and partially overlapping the edge of the leather located below.

Two guide rails 34 are transversely and parallelly arranged at the positions of the two second support arms 24 on the machine frame 1, and the two second support arms 24 are connected into a whole through a cross beam 33 arranged between the two support arms and are arranged on the two guide rails 34 through sliding fit; the second motor 36 is mounted on the cross beam 33. A screw drive 32 is arranged between the middle of the beam and the frame 1 for adjusting the position of the second arm 24 and the second conveyor belt 4, and thus the overlapping width of the two strips of leather.

The upper parts of the two second support arms 24 are also provided with longitudinal slideways along the vertical direction, I-shaped second sliding blocks 15 are respectively arranged in the longitudinal slideways in a sliding clearance fit manner, and one ends of two roll shafts 5 of the second conveyor belt mechanism 4 positioned above are respectively rotatably arranged in the corresponding second sliding blocks 15; the elastic pressing piece 3 on the second support arm 24 has the same structure as the elastic pressing piece 3 on the first support arm 10. And pressing rollers 17 are respectively arranged on the inner sides of the two roller shafts of the second conveyor belt mechanism 4 positioned above, and one end of each pressing roller 17 is rotatably arranged in the corresponding second sliding block 15 through a copper sleeve cantilever and is used for pressing the conveyor belts. And two pairs of roll shafts of the two second conveyor belt mechanisms 4 which are arranged up and down are in transmission connection through a pair of gear pairs 16 respectively and are used for driving the second conveyor belt mechanisms 4 above to synchronously operate.

The longitudinal length of the first conveyor belt mechanism 11 is larger than that of the second conveyor belt mechanism 4, and the first support arm 10 close to the front end of the machine frame 1 corresponds to the second support arm 24.

A supporting column 25 is fixed in the middle of the rear end of the frame 1, two transverse shafts 26 which are horizontally arranged up and down are fixed on the supporting column 25, the upper edges of the two transverse shafts 26 respectively correspond to the conveying belts of the two first conveying belt mechanisms 11 and the two second conveying belt mechanisms 4, and a pair of feeding baffles 27 are respectively sleeved on the two transverse shafts and fixed through jackscrews and used for limiting the feeding positions of the two pieces of leather so that the leather horizontally enters the first conveying belt mechanisms and the second conveying belt mechanisms when being bonded.

A rotatable lower carrier roller 22 is arranged on the frame 1 in front of the first and second conveyor belt mechanisms through two third support arms 2 which are corresponding to each other and have different heights, two ends of the lower carrier roller 22 are respectively arranged on the third support arms 2 through copper sleeves, wherein one end of the lower carrier roller 22 passes through the third support arm 2 and is in transmission connection with a roller shaft of the adjacent lower first conveyor belt mechanism 11 through a chain; a rotatable upper pressure roller 21 is mounted on the upper arm of one of the third arms 2, and the upper pressure roller 21 is pressed on the lower supporting roller 22 through a second air cylinder 20 arranged at the upper end of one of the third arms 2 for realizing the adhesion of the overlapped parts of the two strips of leather.

A longitudinal slide way is arranged on the upper portion of one of the third support arms 2 along the vertical direction, an I-shaped third slide block 31 is arranged in the longitudinal slide way in a sliding clearance fit mode, one end of a roller shaft of the upper press roller 21 is rotatably arranged in the corresponding third slide block 31 through a copper bush, and the lower end of a cylinder rod of the second air cylinder 20 is inserted into the longitudinal slide way of the third support arm 2 and is connected with the third slide block to drive the upper press roller 21 to lift.

During operation, a pair of feeding baffles 27 on the two transverse shafts are respectively adjusted, so that the distance between the feeding baffles is matched with the width of the leather to be bonded. Starting the first motor 13 and the second motor 36 to respectively drive the two first conveyor belt mechanisms 11 and the second conveyor belt mechanism 4 to synchronously operate; starting an electric heater in the rubber box 6, heating the bonding material in the rubber box, enabling two pieces of leather to be bonded to enter between the two conveyor belts of the first conveyor belt mechanism 11 and the second conveyor belt mechanism 4 through the feeding baffles on the two transverse shafts respectively, and enabling the two pieces of leather to partially overlap and enter between the upper press roller 21 and the lower carrier roller 22 along with the operation of the first conveyor belt mechanism and the second conveyor belt mechanism; the second cylinder 20 is started to drive the upper press roller 21 to press the two strips of leather onto the lower carrier roller 22.

When leather enters between the two conveyor belts of the first conveyor belt mechanism 11 and passes below the photoelectric switch 35, the photoelectric switch 35 is switched on, the first air cylinder 7 is started to drive the glue box to move downwards, the glue spreading wheel 28 at the lower end of the glue discharging square pipe is pressed on the edge of the leather below, and the glue discharged from the glue discharging square pipe is continuously spread on the edge of the leather below along with the rolling of the glue spreading wheel 28. The glued leather can be bonded with the edge of the leather overlapped above the glued leather by the pressing of the upper press roller 21 and the lower carrier roller 22 along with the operation of the first conveying belt mechanism 11.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides a device is pasted in shoes surface fabric combination, includes the frame, characterized by: two first support arms which are arranged in front and back are arranged on one side of the machine frame, two first conveyor belt mechanisms which are arranged up and down are arranged between the two first support arms, two roll shafts of the first conveyor belt mechanism positioned below are in transmission connection with a first motor arranged on the machine frame, and the first conveyor belt mechanism positioned above is elastically pressed on the first conveyor belt mechanism below through an elastic pressing piece arranged on the two first support arms so as to clamp and feed a piece of leather positioned below;

2. The shoe fabric combined sticking device as claimed in claim 1, which is characterized in that: two roller shaft cantilevers of the first conveying belt mechanism positioned below can be rotatably arranged on the first support arm, and one ends of the two roller shafts respectively penetrate through the first support arm and are connected with the first motor through a chain transmission mechanism.

3. The shoe fabric combined sticking device as claimed in claim 2, which is characterized in that: and the upper parts of the two first supporting arms are provided with longitudinal slideways along the vertical direction, first sliding blocks are respectively arranged in the longitudinal slideways in a sliding clearance fit manner, and one ends of two roll shafts of the first conveying belt mechanism positioned above the longitudinal slideways are respectively and rotatably arranged in the corresponding first sliding blocks.

4. The shoe fabric combined sticking device as claimed in claim 3, which is characterized in that: the elastic pressing piece is composed of an adjusting bolt and a pressure spring, wherein the pressure spring in the elastic pressing piece arranged on the first support arm is arranged in the longitudinal slide way and pressed on the first slide block, and the adjusting bolt is arranged at the upper end of the first support arm through threads and pressed on the upper end of the pressure spring.

5. A shoe fabric combination attaching device according to any one of claims 1 to 3, characterized in that: and the two pairs of roll shafts of the two first conveyor belt mechanisms which are arranged up and down are in transmission connection through a pair of gear pairs respectively.

6. The shoe fabric combined sticking device as claimed in claim 5, which is characterized in that: and the inner sides of the two roll shafts of the first conveyor belt mechanism positioned above are respectively provided with a pressing roll, and a cantilever at one end of each pressing roll is rotatably arranged in the corresponding first sliding block and is used for pressing the conveyor belt.

7. The shoe fabric combined sticking device as claimed in claim 1, which is characterized in that: guide rails are respectively arranged on the machine frame at the positions of the second support arms along the transverse direction, and the two second support arms are connected into a whole through a cross beam between the two second support arms and are arranged on the two guide rails in a sliding fit manner; the second motor is arranged on the cross beam; and a screw rod transmission mechanism is arranged between the middle part of the cross beam and the rack and is used for adjusting the positions of the second support arm and the second conveyor belt mechanism so as to adjust the overlapping width of the two strips of leather.

8. The shoe fabric combined sticking device as claimed in claim 1 or 7, wherein: and the upper parts of the two second support arms are provided with longitudinal slideways along the vertical direction, second slide blocks are respectively arranged in the longitudinal slideways in a sliding clearance fit manner, and one ends of two roll shafts of the second conveyor belt mechanism positioned above the longitudinal slideways are respectively and rotatably arranged in the corresponding second slide blocks.

9. The shoe fabric combined sticking device as claimed in claim 1, which is characterized in that: the upper portion of one of the third support arms is provided with a longitudinal slide way along the vertical direction, a third slide block is arranged in the longitudinal slide way in a sliding clearance fit mode, one end of a roller shaft of the upper compression roller is rotatably arranged in the corresponding third slide block, and the lower end of a cylinder rod of the second cylinder is inserted into the longitudinal slide way of the third support arm and is connected with the third slide block for driving the upper compression roller to lift.

10. The shoe fabric combined sticking device as claimed in claim 1 or 2, wherein: the rotary supporting wheel is arranged on the machine frame corresponding to the position of the gluing wheel through an upright post, and the supporting wheel is supported below the inner edge of the leather between the conveyor belts entering the two first conveyor belt mechanisms and is used for gluing one leather edge below the gluing wheel in a matching manner, so that the gluing is uniform.