CN114571835B

CN114571835B - Coating oxford apparatus for producing

Info

Publication number: CN114571835B
Application number: CN202210124618.3A
Authority: CN
Inventors: 袁伟
Original assignee: Liyang Chengyi Cloth Industry Co ltd
Current assignee: Liyang Chengyi Cloth Industry Co ltd
Priority date: 2022-02-10
Filing date: 2022-02-10
Publication date: 2024-03-26
Anticipated expiration: 2042-02-10
Also published as: CN114571835A

Abstract

The invention relates to the technical field of oxford production equipment, in particular to a coated oxford production device which comprises a wave coating machine and a plane coating machine which are positioned on an oxford production line, wherein the wave coating machine comprises a heating pressing plate, a power mechanism and a feeding device, the heating pressing plate is connected with the power mechanism and comprises an upper pressing plate and a lower pressing plate, a plurality of heating plates which are perpendicular to a horizontal plane and perpendicular to the feeding direction of the feeding device are fixedly connected to the upper pressing plate and the lower pressing plate respectively, the heating plates of the upper pressing plate face downwards, the heating plates of the lower pressing plate face upwards, and the heating plates of the upper pressing plate and the heating plates of the lower pressing plate are arranged at equal intervals in a staggered mode.

Description

Coating oxford apparatus for producing

Technical Field

The invention relates to the technical field of oxford production equipment, in particular to a coated oxford production device.

Background

When the wear-resistant and tear-resistant coating oxford cloth is researched and developed by the company, the middle base cloth layer is required to be set to be wavy, so that the coating oxford cloth has a certain tearing allowance, and when being torn, the wavy base cloth layer can be unfolded and absorb energy under the action of external force, and further breakage of the base cloth layer is avoided.

The existing film coating equipment or film pressing equipment cannot extrude the base cloth layer into a wave shape, cannot coat the coating on the upper and lower surfaces of the base cloth layer, and cannot shape the wave-shaped base cloth layer.

Therefore, there is an urgent need to develop a novel production device for coating oxford fabric to solve the three technical problems.

Disclosure of Invention

The purpose of the invention is that: overcomes the defects in the prior art and provides a coating oxford production device.

In order to solve the technical problems, the invention adopts the following technical scheme:

the utility model provides a coating oxford apparatus for producing, including the wave coating machine and the plane coating machine that are located oxford production line, wave coating machine includes heating clamp plate, power unit and feeding mechanism, heating clamp plate and power unit are connected, heating clamp plate includes upper clamp plate and holding down plate, fixedly connected with a plurality of perpendicular to horizontal planes and with feeding mechanism pay-off direction vertically heating plate on upper clamp plate and the holding down plate respectively, the heating plate of upper clamp plate is down, the heating plate of holding down plate is up, the heating plate of upper clamp plate and the staggered equidistance setting of holding down plate, feeding mechanism includes roller one that is located wave coating machine downstream and roller two that are located wave coating machine upstream, upper clamp plate and roller two pass through unidirectional transmission mechanism and are connected, unidirectional transmission mechanism includes the ratchet mechanism who is connected in roller two one end, inner circle and outer lane can only rotate relatively in one direction, the inner circle is locked with the outer lane and is kept static relatively in another direction, roller two one end of roller two is provided with the spliced pole, with roller two fixedly connected with roller two, the upper clamp plate and upper clamp plate are connected with the rack, two are connected with the rack and pinion, and are connected with the connecting plate on the upper side of roller, the upper clamp plate is connected with the rack respectively, the rack is fixed connection, the upper side is connected with the upper side of the rack respectively; the working direction of the ratchet mechanism is as follows: when the upper pressing plate descends, the rack drives the outer ring to rotate, and at the moment, the outer ring and the inner ring lock up to drive the second roller to feed; when the upper pressing plate ascends, the inner ring and the outer ring relatively rotate, the second roller does not rotate, namely, when the outer ring rotates, the pawl does not lock the inner ring and the outer ring; the length of the cloth section fed by the driving roller II of the unidirectional transmission mechanism is L1, the length of the cloth section processed by the wave coating machine at one time is L3, and the length of the base cloth required by the cloth section processed at one time is L2, wherein: l1=l2-L3; the clamping device is arranged between the first roller and the wave coating machine and comprises an upper clamping block and a lower clamping block, the upper clamping block and the lower clamping block are respectively connected with a first clamping block power device and a second clamping block power device, and the first clamping block power device and the second clamping block power device can respectively enable the upper clamping block and the lower clamping block to realize opposite movement and separation movement.

Further, the power mechanism comprises a first cylinder and a second cylinder, the first cylinder is fixedly connected with the upper pressing plate, so that the upper pressing plate can move up and down, and the second cylinder is fixedly connected with the lower pressing plate, so that the lower pressing plate can move up and down.

Further, the first clamping block power device, the second clamping block power device, the first cylinder and the second cylinder are connected with a control unit.

Further, the heating plate is externally coated with a release coating.

Further, the movement sequence of the first clamping block power device, the second clamping block power device, the first cylinder and the second cylinder is as follows:

s1, a first clamping block power device and a second clamping block power device control an upper clamping block and a lower clamping block to move oppositely at the same time;

s2, controlling the upper pressing plate to descend by the first air cylinder, and controlling the upper pressing plate to ascend by the second air cylinder;

s3, the first air cylinder controls the upper pressing plate to ascend, and the second air cylinder controls the lower pressing plate to descend;

s4, the first clamping block power device and the second clamping block power device control the upper clamping block and the lower clamping block to simultaneously do separation movement.

The technical scheme of the invention has the beneficial effects that:

1. the invention has reasonable structure, can rapidly and efficiently extrude the base cloth layer into a wave shape, coat the base cloth layer up and down and shape the wave-shaped base cloth layer.

2. Because the length of the base cloth layer after the wavy extrusion is shortened compared with that of the flat base cloth layer, the base cloth layer is pulled during extrusion, and the base cloth layers at two ends are pulled inwards.

3. The clamping device can ensure that the processed oxford is not pulled into the wave coating machine during the back-end processing, thereby avoiding secondary error processing.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. Wherein the method comprises the steps of

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic diagram of a unidirectional transmission mechanism according to the present invention.

11. An upper press plate; 112. a connecting plate; 113. a rack; 12. a lower pressing plate; 13. a heating plate; 14. a first cylinder; 21. a second roller; 211. a connecting column; 212. an inner ring; 213. an outer ring; 214. a pawl; 22. a first roller; 31. an upper clamping block; 32. a lower clamping block; 33. a first power device; 34. a second power device; 41. a base cloth; 42. coating an adhesive film; 43. and (5) lower adhesive film.

Detailed Description

The invention will now be described in further detail with reference to the accompanying drawings. The drawings are simplified schematic representations which merely illustrate the basic structure of the invention and therefore show only the structures which are relevant to the invention. The present invention will be described in detail by means of a schematic structural diagram, etc., which is only an example, and should not limit the scope of the present invention. In addition, the three-dimensional space of length, width and depth should be included in actual fabrication.

Referring to fig. 1-2, a coated oxford production device comprises a wave coating machine and a plane coating machine which are positioned on an oxford production line, wherein the wave coating machine comprises a heating pressing plate, a power mechanism and a feeding mechanism, the heating pressing plate is connected with the power mechanism and comprises an upper pressing plate 11 and a lower pressing plate 12, heating plates 13 which are perpendicular to a horizontal plane and are perpendicular to the feeding direction of the feeding mechanism are fixedly connected to the upper pressing plate 11 and the lower pressing plate 12 respectively, the heating plates 13 of the upper pressing plate 11 face downwards, the heating plates 13 of the lower pressing plate 12 face upwards, and the heating plates 13 of the upper pressing plate 11 and the heating plates 13 of the lower pressing plate 12 are arranged at staggered equal intervals.

The feeding mechanism further comprises a feeding roller set positioned at the downstream of the second roller 21, the feeding roller set comprises an upper adhesive film 42 roller, a base cloth 41 roller and a lower adhesive film 43 roller which are sequentially arranged from top to bottom, so that the upper adhesive film 42, the base cloth 41 and the lower adhesive film 43 are sequentially fed into the wave coating machine, and a tensioning roller is arranged between the feeding roller set to ensure that the second roller 21 has a larger included angle.

Referring to fig. 1, an air cylinder one 14 is fixedly connected to an upper platen 11, so that the upper platen 11 can move up and down, and an air cylinder two is fixedly connected to a lower platen 12, so that the lower platen 12 can move up and down.

Referring to fig. 1, the feeding mechanism includes a first roller 22 located at the downstream of the wave coating machine and a second roller 21 located at the upstream of the wave coating machine, the upper platen 11 is connected with the second roller 21 through a unidirectional transmission mechanism, the unidirectional transmission mechanism includes a ratchet mechanism connected to one end of the second roller 21, the ratchet mechanism includes an inner ring 212 and an outer ring 213, the inner ring 212 can only rotate relative to the outer ring 213 in one direction, the inner ring 212 and the outer ring 213 are locked and kept relatively stationary in the other direction, a connecting column 211 is disposed at one end of the second roller 21, the inner ring 212 is fixedly connected with the second roller 21, a fixed connecting sleeve of the inner ring 212 is disposed outside the connecting column 211 of the second roller 21, the outer ring 213 is a gear, the gear is meshed with a rack 113 disposed vertically, the rack 113 is fixedly connected with the upper platen 11, the downstream side of the upper platen 11 is fixedly connected with a connecting plate 112, the connecting plate 112 is disposed perpendicular to a horizontal plane, preferably, the number of the connecting plates 112 is 2,2 connecting plates 112 are respectively connected with the two racks 113, and the two ends of the two rollers 21 can be respectively connected with the two ratchet mechanisms, and the two ends of the two rollers 11 can be respectively driven by two power.

Referring to fig. 2, the ratchet mechanism has the following working directions: when the upper pressing plate 11 descends, the rack 113 drives the outer ring 213 to rotate, and at this time, the outer ring 213 and the inner ring 212 lock the second driving roller 21 to feed, that is, when the outer ring 213 rotates, the pawl 214 can lock the outer ring 213 and the inner ring 212; when the upper platen 11 is lifted, the inner ring 212 and the outer ring 213 rotate relatively, and the second roller 21 does not rotate, i.e., when the outer ring 213 rotates, the pawls 214 do not lock the inner ring 212 and the outer ring 213.

Referring to fig. 1, a clamping device is disposed between the first roller 22 and the wave coater to avoid secondary extrusion caused by the product pressed by the front section being pulled between the upper and lower press plates 12 when the upper press plate 11 is pressed down.

The length of the cloth section fed by the driving roller II 21 of the unidirectional transmission mechanism is L1, the length of the cloth section processed by the wave coating machine at one time is L3, and the length of the base cloth 41 required by the cloth section processed at one time is L2, wherein: l1=l2-L3.

Referring to fig. 1, the clamping device includes an upper clamping block 31 and a lower clamping block 32, the upper clamping block 31 and the lower clamping block 32 are respectively connected with a first clamping block power device 33 and a second clamping block power device 34, the first clamping block power device 33 and the second clamping block power device 34 can respectively enable the upper clamping block 31 and the lower clamping block 32 to realize opposite movement and separation movement, and protruding patterns are arranged on the lower surface of the upper clamping block 31 and the upper surface of the lower clamping block 32, and are in a rectangular pyramid structure with a plurality of regular arrangement. The first power unit 33 and the second power unit 34 are preferably cylinders.

Referring to fig. 1, a first clamping block power device 33, a second clamping block power device 34, a first cylinder 14 and a second cylinder are connected with a control unit.

Referring to fig. 1, the heating plate 13 is coated with a release coating, so that the upper pressing plate 11 is lifted conveniently, and adhesion between the heating plate 13 and a product is avoided.

Referring to fig. 1, the sequence of actions of the first clamping block power device 33, the second clamping block power device 34, the first cylinder 14 and the second cylinder is as follows:

s1, a first clamping block power device 33 and a second clamping block power device 34 control an upper clamping block 31 and a lower clamping block 32 to move oppositely at the same time;

s2, controlling the upper pressing plate 11 to descend by the first air cylinder 14, and controlling the upper pressing plate 11 to ascend by the second air cylinder;

s3, controlling the upper pressing plate 11 to ascend by the first air cylinder 14, and controlling the lower pressing plate 12 to descend by the second air cylinder;

s4, the first clamping block power device 33 and the second clamping block power device 34 control the upper clamping block 31 and the lower clamping block 32 to simultaneously do separation movement.

The working process of the invention comprises the following steps:

s1, heating by a heating plate 13;

s2, the upper clamping block 31 and the lower clamping block 32 move oppositely to enable the processed cloth Duan Gajin to be prevented from being pulled back;

s2, the upper pressing plate 11 presses down and the lower pressing plate 12 rises, the base cloth 31, namely oxford, overlapped with the upper adhesive film 32 and the lower adhesive film 43 is extruded to form waves, and meanwhile the upper pressing plate 11 drives the rack 113 to drive the roller II 21 to continue feeding;

s3, performing S3; the upper pressing plate 11 rises, the lower pressing plate 12 descends, the feeding mechanism continues feeding, the extruded cloth sections are conveyed forwards, and the non-extruded cloth sections are brought into the wave coating machine.

With the above-described preferred embodiments according to the present invention as an illustration, the above-described descriptions can be used by persons skilled in the relevant art to make various changes and modifications without departing from the scope of the technical idea of the present invention. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention. The technical scope of the present invention is not limited to the description, but must be determined according to the scope of claims.

Claims

1. The utility model provides a coating oxford apparatus for producing which characterized in that: the device comprises a wave coating machine and a plane coating machine which are positioned on an oxford production line, wherein the wave coating machine comprises a heating pressing plate, a power mechanism and a feeding mechanism, the heating pressing plate is connected with the power mechanism, the heating pressing plate comprises an upper pressing plate and a lower pressing plate, a plurality of heating plates which are perpendicular to the horizontal plane and perpendicular to the feeding direction of the feeding mechanism are fixedly connected to the upper pressing plate and the lower pressing plate respectively, the heating plates of the upper pressing plate face downwards, the heating plates of the lower pressing plate face upwards, the heating plates of the upper pressing plate and the heating plates of the lower pressing plate are arranged at equal intervals in a staggered manner, the feeding mechanism comprises a first roller positioned at the downstream of the wave coating machine and a second roller positioned at the upstream of the wave coating machine, the upper pressing plate is connected with the second roller through a one-way transmission mechanism, the one-way transmission mechanism comprises a ratchet mechanism connected to one end of the second roller, the ratchet mechanism comprises an inner ring and an outer ring, the inner ring can rotate relatively to the outer ring in one direction, the inner ring is locked and kept relatively static with the outer ring in the other direction, one end of the second roller is provided with a connecting column, the inner ring is fixedly connected with the second roller, the connecting sleeve is fixedly connected with the second roller, the second roller is connected with the rack and the rack is fixedly connected with the two rack racks, the two end of the rack racks are respectively, and the rack racks are fixedly connected with the two racks respectively, and the rack racks are fixedly connected with the two upper racks and the two racks are connected with the upper rack and the rack;

the working direction of the ratchet mechanism is as follows: when the upper pressing plate descends, the rack drives the outer ring to rotate, and at the moment, the outer ring and the inner ring lock up to drive the second roller to feed; when the upper pressing plate ascends, the inner ring and the outer ring relatively rotate, the second roller does not rotate, namely, when the outer ring rotates, the pawl does not lock the inner ring and the outer ring;

the length of the cloth section fed by the driving roller II of the unidirectional transmission mechanism is L1, the length of the cloth section processed by the wave coating machine at one time is L3, and the length of the base cloth required by the cloth section processed at one time is L2, wherein: l1=l2-L3;

the clamping device is arranged between the first roller and the wave coating machine and comprises an upper clamping block and a lower clamping block, the upper clamping block and the lower clamping block are respectively connected with a first clamping block power device and a second clamping block power device, and the first clamping block power device and the second clamping block power device can respectively enable the upper clamping block and the lower clamping block to realize opposite movement and separation movement.

2. A coated oxford production device as claimed in claim 1, wherein: the power mechanism comprises a first cylinder and a second cylinder, the first cylinder is fixedly connected with the upper pressing plate, the upper pressing plate can move up and down, the second cylinder is fixedly connected with the lower pressing plate, and the lower pressing plate can move up and down.

3. A coated oxford production device as claimed in claim 2, wherein: the clamping block power device I, the clamping block power device II, the cylinder I and the cylinder II are connected with a control unit.

4. A coated oxford production device as claimed in claim 3, wherein: the heating plate is externally coated with a release coating.

5. A coated oxford production device as defined in claim 4, wherein: the action sequence of the clamping block power device I, the clamping block power device II, the cylinder I and the cylinder II is as follows: