CN213670240U - Tin printing coating device - Google Patents

Abstract

The utility model belongs to the technical field of the metal decorating equipment and specifically relates to a metal decorating coating device is related to, and it includes the frame, it has the coating roll to install the conveyer belt in the frame and rotate the support, the coating roll is located the top of conveyer belt, the coating clearance that supplies the material to pass through has between coating roll and the conveyer belt, the one end of conveyer belt sets up to unloading end, unloading end perpendicular to conveyer belt direction of transfer's both sides are provided with a set of mobilizable whole flitch respectively, and are two sets of the moving direction of whole flitch is all perpendicular with the direction of transfer of conveyer belt, rotate the support in the frame have drive screw and with drive screw parallel arrangement's guide arm, the length direction of drive screw and guide arm all is the same with the moving direction of whole flitch, whole flitch is worn to locate by the drive screw thread, whole. This application has the effect that can carry out automatic material all in one piece in order to save the labour to the iron sheet.

Description

Tin printing coating device

Technical Field

The application relates to the field of metal decorating equipment, in particular to a metal decorating coating device.

Background

At present, many canned products are packaged by using metal products, and in order to prevent the metal from rusting and protect the contents and printed patterns, the metal products are generally coated by using a metal decorating coater.

In the related tin printing coating production process, materials generally enter from a feed inlet of a tin printing coating machine one by one, after the coating operation is completed on the surfaces of the materials, the materials can come out from a discharge outlet of the tin printing coating machine, and then the materials are continuously conveyed to a drying room for drying and curing.

In actual processing production, in order to improve machining efficiency, the material comes out from the discharge gate, generally piles together polylith material, once only conveys the polylith material to next process again. Because every material can have the skew of position or direction etc. to lead to the problem of misalignment each other after coming out from the discharge gate, and the material that is uneven can not directly be used for carrying on next process feeding, therefore still needs the staff to carry out the material in a single piece, but the polylith material piles up together and is heavier again, consumes the labour.

SUMMERY OF THE UTILITY MODEL

In order to carry out automatic material all in one piece in order to save labour to the iron sheet, this application provides a tin printing coating device.

The application provides a tin printing coating device adopts following technical scheme:

the utility model provides a tin printing coating unit, includes the frame, it has the coating roll to install the conveyer belt and rotate the support in the frame, the coating roll is located the top of conveyer belt, the coating clearance that supplies the material to pass through has between coating roll and the conveyer belt, the one end of conveyer belt sets up to the unloading end, the both sides of unloading end perpendicular to conveyer belt direction of transfer are provided with a set of mobilizable whole flitch respectively, and are two sets of the moving direction of whole flitch is all perpendicular with the direction of transfer of conveyer belt, rotate the support in the frame and have drive screw and with drive screw parallel arrangement's guide arm, the length direction of drive screw and guide arm all is the same with the moving direction of whole flitch, whole flitch is worn to locate by the drive screw thread, whole flitch is.

Through adopting above-mentioned technical scheme, when the material was conveyed to the unloading end of conveyer belt, the manual work rotated drive screw, because whole flitch is all worn to locate by drive screw and guide arm, thereby restriction whole flitch along with drive screw forwards, then remove along the length direction of drive screw with whole flitch of drive screw thread fit this moment, thereby can let each material can both convey along the direction of whole flitch, carry out automatic material in order to save the labour to the material.

Preferably, the driving screw has a first thread portion and a second thread portion opposite to the thread direction of the first thread portion, and the two sets of the monolith plates are respectively sleeved on the first thread portion and the second thread portion in a threaded manner.

Through adopting above-mentioned technical scheme, two sets of material all in one piece boards are threaded sleeve respectively and are established at first screw thread portion and second screw thread portion, utilize first screw thread portion and the second screw thread portion that the screw thread opposite direction was gone up to the drive screw, when rotating the threaded rod, can drive two sets of material all in one piece boards simultaneously and be close to each other or keep away from each other, need not respectively to rotate two sets of material all in one piece boards and adjust, can also keep the material to be located the central point of conveyer belt and put, offer convenience for operating personnel.

Preferably, the guide rod is a screw rod with the same screw pitch as the driving screw rod, and the driving screw rod and the guide rod are respectively positioned at two ends of the material preparing plate.

Through adopting above-mentioned technical scheme, driving screw and guide arm homoenergetic and material all in one piece board screw-thread fit, and the screw pitch of guide arm and driving screw is the same, can control the displacement at whole flitch both ends better to keep the length direction of whole flitch unanimous.

Preferably, a synchronous transmission assembly for realizing synchronous movement of the driving screw and the guide rod is arranged on the driving screw.

Through adopting above-mentioned technical scheme, when rotating drive screw, can be under the drive of synchronous drive subassembly for drive screw and guide arm rotate in step, thereby make the both ends of material sorting plate can slide in step, be difficult to appear the problem that material sorting plate is stuck.

Preferably, the synchronous transmission assembly comprises a driving wheel, a driven wheel and a transmission belt, the driving wheel is fixedly arranged on the driving screw rod, the driven wheel is fixedly arranged on the guide rod, and the transmission belt is simultaneously coated on the driving wheel and the driven wheel.

Through adopting above-mentioned technical scheme, utilize the transmission of the rotation drive belt of action wheel, drive the rotation from the driving wheel again, can realize that drive screw and guide arm rotate in step to the both ends that enable whole flitch slide in step.

Preferably, a plurality of cylinders are arranged on one surface of the monolith plate close to the central position of the conveyor belt, and the cylinders are arranged at intervals along the conveying direction of the conveyor belt.

Through adopting above-mentioned technical scheme, set up the drum of arranging at a distance from, can reduce the area of contact between material edge and the material arranging plate to reduce the friction to the material, can also reduce the transfer resistance to the conveyer belt simultaneously.

Preferably, a plurality of said cylinders are rotatably disposed with the monolith plate.

By adopting the technical scheme, when the materials are contacted with the cylinder, the cylinder can be driven to synchronously rotate, so that the friction force between the materials and the material arranging plate can be further reduced.

Preferably, the cylinder is a smooth metal tube or a smooth plastic tube.

Through adopting above-mentioned technical scheme, smooth metal pipe or smooth plastic tubing homoenergetic reduce with the frictional resistance of material, and metal pipe and plastic tubing are common spare part, easily purchase.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the materials are conveyed to the discharging end of the conveying belt, the driving screw is manually rotated, and the material finishing plate in threaded fit with the driving screw can move along the length direction of the driving screw, so that each material can be conveyed along the direction of the material finishing plate, and the materials are automatically finished to save labor;

2. the two groups of material arranging plates are respectively sleeved on the first thread part and the second thread part in a threaded manner, when the threaded rod is rotated, the two groups of material arranging plates can be simultaneously driven to be close to or away from each other, the two groups of material arranging plates do not need to be respectively adjusted in a rotating manner, materials can be kept in the center of the conveying belt, and convenience is brought to operators;

3. the material contacts with the rotating cylinder, and the cylinder can be driven to rotate synchronously, so that the friction force between the material and the material arranging plate is reduced, the material is protected, and the conveying resistance of the conveying belt is reduced.

Drawings

FIG. 1 is a schematic structural diagram of embodiment 1 of the present application;

FIG. 2 is a schematic structural diagram of a synchronous transfer module in embodiment 1 of the present application;

fig. 3 is a schematic structural diagram of a material shaping plate in embodiment 2 of the present application.

Description of reference numerals: 1. a frame; 2. a conveyor belt; 3. a coating roll; 4. coating the gap; 5. a discharging end; 6. material preparation plates; 7. a drive screw; 8. a guide bar; 9. a bump; 11. a hand wheel; 71. a first threaded portion; 72. a second threaded portion; 12. a synchronous drive assembly; 121. a driving wheel; 122. a driven wheel; 123. a transmission belt; 13. a cylinder.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses tin printing coating device.

Example 1

Referring to fig. 1, the tin printing coating device comprises a frame 1, wherein a conveyor belt 2 and a coating roller 3 are rotatably supported on the frame 1, the coating roller 3 is positioned above the conveyor belt 2, a coating gap 4 for materials to pass through is arranged between the coating roller 3 and the conveyor belt 2, and one end of the conveyor belt 2 is a blanking end 5. The material is placed on the conveyor belt 2, passes through the coating gap 4 and is coated by the coating roller 3, and then continues to be fed on the conveyor belt 2 to the feed end 5.

With continued reference to fig. 1, since it is difficult to avoid the occurrence of direction deviation or position deviation during the material conveying process on the conveyor belt 2, the material should be trimmed before the material discharging process, so that the stacked material can be kept orderly. Therefore, in this embodiment, a set of movable material distributing plates 6 are respectively arranged on two sides of the discharging end 5 perpendicular to the conveying direction of the conveyor belt 2, the moving directions of the two sets of material distributing plates 6 are both perpendicular to the conveying direction of the conveyor belt 2, and by moving the material distributing plates 6, the movement of the material along the direction of the material distributing plates 6 is limited, so that the material is automatically distributed to save labor. The specific way to drive the whole material plate 6 to move can be as follows: a driving screw 7 and a guide rod 8 parallel to the driving screw 7 are rotatably supported on the frame 1, and the length directions of the driving screw 7 and the guide rod 8 are the same as the moving direction of the material arranging plate 6. Each group of material preparing plates 6 is provided with two lugs 9 on one side close to the conveyor belt 2, the two lugs 9 are provided with through holes, one of the lugs 9 of each group of material preparing plates 6 is provided with a threaded hole, the thread of the driving screw 7 is arranged in the threaded hole, and the guide rod 8 is arranged in the guide rod 8. The end part of the driving screw 7 is fixedly provided with a hand wheel 11, when the hand wheel 11 is manually rotated and drives the driving screw 7 to rotate, the driving screw 7 and the guide rod 8 are both arranged on the material distributing plate 6 in a penetrating manner, so that the material distributing plate 6 is limited to be transferred along with the driving screw 7, and the material distributing plate 6 in threaded fit with the driving screw 7 can move along the length direction of the driving screw 7.

Referring to fig. 2, in order to improve the convenience of moving and adjusting the material-adjusting plates 6, in this embodiment, the driving screw 7 and the guide rod 8 are both inserted into the two material-adjusting plates 6, the driving screw 7 has a first thread portion 71 and a second thread portion 72, the threads of the first thread portion 71 and the second thread portion 72 are opposite, when the driving screw 7 is rotated, the two material-adjusting plates 6 can be driven to approach or separate from each other, the two material-adjusting plates 6 do not need to be rotated and adjusted respectively, the material can be kept at the center of the conveyor belt 2, and convenience is provided for an operator.

With continued reference to fig. 2, in order to improve the stability of the moving process of the material shaping plate 6, in the present embodiment, the guide rod 8 is a screw rod with the same pitch as the driving screw 7, and the driving screw 7 and the guide rod 8 are respectively located at two ends of the material shaping plate 6. The synchronous transmission assembly 12 used for realizing synchronous movement of the driving screw 7 and the guide rod 8 is arranged on the driving screw 7, and the two driving screws 7 can synchronously rotate under the driving of the synchronous transmission assembly 12 when one driving screw 7 is rotated, so that the two ends of the material arranging plate 6 can synchronously slide, and the problem that the material arranging plate 6 is blocked is not easy to occur. Specifically, the synchronous transmission assembly 12 includes a driving wheel 121, a driven wheel 122 and a transmission belt 123, the driving wheel 121 is fixedly disposed on the driving screw 7, the driven wheel 122 is fixedly disposed on the guide rod 8, and the transmission belt 123 is simultaneously wrapped on the driving wheel 121 and the driven wheel 122. The rotation of the driving wheel 121 is used for driving the transmission belt 123 to transmit, and then the driven wheel 122 is driven to rotate, so that the driving screw 7 and the guide rod 8 can synchronously rotate, the two ends of the material arranging plate 6 can synchronously slide, and the problem that the material arranging plate 6 is blocked in the moving process is easily solved.

The implementation principle of the embodiment 1 is as follows: firstly, adjusting the material arranging plates 6 according to the size of the material, manually rotating the hand wheel 11 and driving the driving screw 7 to rotate, at the moment, rotating the driving wheel 121 to drive the transmission belt 123 to transmit, further driving the driven wheel 122 to rotate and driving the guide rod 8 to rotate synchronously with the driving screw 7, and enabling the two ends of each group of material arranging plates 6 to move synchronously; meanwhile, the driving screw 7 and the guide rod 8 are provided with a first thread part 71 and a second thread part 72 with opposite threads, so that the two material shaping plates 6 can be close to or far away from each other, and the two material shaping plates 6 can be moved synchronously; after the position of the material arranging plate 6 is adjusted, the conveyor belt 2 is started, materials are coated by the coating roller 3 through the coating gap 4 under the conveying of the conveyor belt 2, and then are continuously discharged along the length direction of the material arranging plate 6 at the position where the materials are conveyed to the discharging end 5 on the conveyor belt 2, so that each material can be aligned.

Example 2

Referring to fig. 3, the present embodiment is different from embodiment 1 in that: a plurality of cylinders 13 are rotatably arranged on one surface of the material preparing plate 6 close to the center of the conveying platform, the cylinders 13 are arranged at intervals along the conveying direction of the conveying platform, and when materials are in contact with the cylinders 13, the cylinders 13 can be driven to rotate synchronously, so that the friction force between the materials and the material preparing plate 6 can be reduced. In addition, the cylinder 13 is a smooth metal tube or a smooth plastic tube, and the friction resistance with the material can be further reduced by the smooth metal tube or the smooth plastic tube.

The implementation principle of the embodiment 2 is as follows: firstly, adjusting the material arranging plates 6 according to the size of the material, manually rotating the hand wheel 11 and driving the driving screw 7 to rotate, at the moment, rotating the driving wheel 121 to drive the transmission belt 123 to transmit, further driving the driven wheel 122 to rotate and driving the guide rod 8 to rotate synchronously with the driving screw 7, and enabling the two ends of each group of material arranging plates 6 to move synchronously; meanwhile, the driving screw 7 and the guide rod 8 are provided with a first thread part 71 and a second thread part 72 with opposite threads, so that the two material shaping plates 6 can be close to or far away from each other, and the two material shaping plates 6 can be moved synchronously; after the position of the material sheet 6 is adjusted, the conveyor belt 2 is started, the material is coated by the coating roller 3 through the coating gap 4 under the conveying of the conveyor belt 2, and then the material is conveyed to the position of the blanking end 5 on the conveyor belt 2 to pass through the cylinders 13 on two sides and drive the cylinders 13 to roll, so that the friction between the material and the cylinders 13 is reduced.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a tin printing coating unit, includes frame (1), it has coating roller (3) to install conveyer belt (2) and rotate to support on frame (1), coating roller (3) are located the top of conveyer belt (2), have between coating roller (3) and conveyer belt (2) and supply the material to pass through coating clearance (4), the one end of conveyer belt (2) sets up to unloading end (5), its characterized in that: the blanking end (5) perpendicular to conveyer belt (2) direction of transfer's both sides are provided with a set of mobilizable whole flitch (6) respectively, and are two sets of the moving direction of whole flitch (6) is all perpendicular with the direction of transfer of conveyer belt (2), rotate on frame (1) and support and be equipped with drive screw (7) and with drive screw (7) parallel arrangement's guide arm (8), the length direction of drive screw (7) and guide arm (8) all is the same with the moving direction of whole flitch (6), whole flitch (6) are worn to locate by drive screw (7) screw thread, whole flitch (6) are worn to locate by guide arm (8).

2. The tinplate coating apparatus of claim 1, wherein: the driving screw (7) is provided with a first thread part (71) and a second thread part (72) opposite to the thread direction of the first thread part (71), and the two material trimming plates (6) are respectively sleeved on the first thread part (71) and the second thread part (72) in a threaded manner.

3. The tinplate coating apparatus of claim 1, wherein: the guide rod (8) is a screw rod with the same screw pitch as the driving screw rod (7), and the driving screw rod (7) and the guide rod (8) are respectively positioned at two ends of the material shaping plate (6).

4. A tinplate coating apparatus according to claim 3, wherein: the driving screw rod (7) is provided with a synchronous transmission assembly (12) for realizing synchronous movement of the driving screw rod (7) and the guide rod (8).

5. An iron printing coating apparatus according to claim 4, wherein: the synchronous transmission assembly (12) comprises a driving wheel (121), a driven wheel (122) and a transmission belt (123), the driving wheel (121) is fixedly arranged on the driving screw rod (7), the driven wheel (122) is fixedly arranged on the guide rod (8), and the transmission belt (123) is simultaneously coated on the driving wheel (121) and the driven wheel (122).

6. An iron printing coating apparatus according to any one of claims 1-5, wherein: a plurality of cylinders (13) are arranged on one surface, close to the center of the conveyor belt (2), of the material preparation plate (6), and the cylinders (13) are arranged at intervals along the conveying direction of the conveyor belt (2).

7. An iron printing coating apparatus according to claim 6, wherein: and a plurality of cylinders (13) are rotatably arranged with the material distributing plate (6).

8. An iron printing coating apparatus according to claim 7, wherein: the cylinder (13) is a smooth metal tube or a smooth plastic tube.

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