CN219335534U - Cover plate production line - Google Patents

Abstract

The utility model relates to a cover plate production line which comprises a feeding mechanism, a liquid coating mechanism, a first material transferring mechanism, stamping mechanisms, a second material transferring mechanism, a third material transferring mechanism, a discharging mechanism and a fourth material transferring mechanism which are sequentially arranged; the coating liquid mechanism comprises a conveying part, wherein a coating liquid part is arranged on a conveying path of the conveying part, the coating liquid part comprises an A coating liquid roller and a B coating liquid roller which are rotatably arranged in a relative arrangement mode, a plate conveyed on the conveying part passes through coating oil liquid between the A coating liquid roller and the B coating liquid roller, the A coating liquid roller is arranged on a movable support, the movable support is arranged on a conveying frame in a connecting mode through a hinge shaft, the hinge shaft is parallel to the A coating liquid roller, the movable support is connected with a movable adjusting mechanism, and the movable adjusting mechanism adjusts the distance between the A coating liquid roller and the B coating liquid roller. According to the scheme provided by the utility model, the coating oil can be uniformly coated on the two sides of the plate, so that the coating uniformity is improved, and the subsequent forming treatment is ensured.

Description

Cover plate production line

Technical Field

The utility model relates to the field of production of cover plates of washing machines, in particular to a cover plate production line.

Background

The cover plate production line is to manufacture the round cover plate into a cover plate through a stamping forming device. The solutions adopted in the prior art are mostly operated according to the technical solutions described in the chinese patent literature of the applicant's prior application entitled "an automated production plant for inner covers" (application number 202010785758.6). Although the scheme can reliably produce the real cover plate, the oiling mechanism provided in the equipment still has the problem of uneven oiling in actual use, so that the problem needs to be solved.

Disclosure of Invention

The utility model aims to provide a cover plate production line which can be used for solving the technical problems.

The technical scheme adopted by the utility model is as follows.

A cover plate production line, comprising:

the feeding mechanism is used for feeding round plates;

the liquid coating mechanism is used for coating oil liquid on the surfaces of two sides of the plate;

the first material transferring mechanism is used for transferring the plate material on the material feeding mechanism to the liquid coating mechanism;

each stamping mechanism is sequentially arranged and respectively performs stamping forming treatment on the plate;

the second material transferring mechanism is used for transferring the plate material from the coating mechanism to the first stamping mechanism;

each third material transferring mechanism is arranged in sequence, each third material transferring mechanism is used for transferring the plate between two adjacent stamping mechanisms,

the unloading mechanism is used for unloading the cover plate obtained after molding;

the fourth material transferring mechanism is used for transferring the cover plate obtained after the molding treatment on the last molding mechanism to the discharging mechanism;

the coating liquid mechanism comprises a conveying part, wherein a coating liquid part is arranged on a conveying path of the conveying part, the coating liquid part comprises an A coating liquid roller and a B coating liquid roller which are rotatably arranged in a relative arrangement mode, a plate conveyed on the conveying part passes through coating oil liquid between the A coating liquid roller and the B coating liquid roller, the A coating liquid roller is arranged on a movable support, the movable support is arranged on a conveying frame in a connecting mode through a hinge shaft, the hinge shaft is parallel to the A coating liquid roller, the movable support is connected with a movable adjusting mechanism, and the movable adjusting mechanism adjusts the distance between the A coating liquid roller and the B coating liquid roller.

The specific scheme is as follows: the A coating liquid roller is positioned above the B coating liquid roller.

The conveying part is composed of a guide roller conveying line.

The side of scribbling liquid portion still is provided with the clearance portion that carries out the clearance to the face of sheet material.

The A coating liquid roller comprises an A roller body and an A oil absorption layer arranged on the outer surface of the A roller body, an oil cavity is formed in the A roller body, each oil outlet is formed in the roller wall of the A roller body, oil in the oil cavity is arranged on the A oil absorption layer through the oil outlet, and one end of the A roller body is communicated and connected with the liquid supply part through a rotary joint and an oil pipe.

The B coating liquid roller comprises a B roller body and a B oil absorption layer arranged on the outer surface of the B roller body.

The cleaning part cleans the plate surface of the plate material in a blowing mode.

The cleaning mechanism comprises an air outlet nozzle A and an air outlet nozzle B which are arranged on the upper side of the plate material in a relative mode, the blowing directions of the air outlet nozzle A and the air outlet nozzle B are inclined downwards and point to the middle of the conveying part, the air outlet nozzle A and the air outlet nozzle B are assembled on the movable frame through a shaping air pipe A and a shaping air pipe B respectively, and the shaping air pipe A and the shaping air pipe B are connected with the air supply mechanism.

The end of the conveying part is provided with a positioning piece for positioning the plate, the positioning piece is formed by an arc-shaped blocking rod, the shape of the blocking rod is consistent with the outer contour of the plate, the front side of the positioning piece is provided with a guide piece, the guide piece is formed by a plate body arranged in a vertical mode, the plate abuts against the edge of the circular plate body to adjust the position of the plate, the plate is movably mounted on a piston rod of a translation cylinder along the direction A, and the translation cylinder is fixedly mounted on the conveying frame.

The movable adjusting mechanism consists of adjusting cylinders which are arranged in an inverted mode, the cylinder bodies of the adjusting cylinders are hinged to the conveying frame, and the piston rods of the adjusting cylinders are hinged to the movable support.

According to the scheme provided by the utility model, the coating oil can be uniformly coated on the two sides of the plate, so that the coating uniformity is improved, and the subsequent forming treatment is ensured.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a side view of the applicator mechanism.

Fig. 3 is a plan view of the conveying section.

Fig. 4 is a top view of the feed mechanism.

Fig. 5 is a physical view of the liquid applying mechanism.

Fig. 6 is a physical diagram of the feeding mechanism.

The corresponding relationship between the reference numbers and the components is:

11-A liquid coating roller, 12-B liquid coating roller, 13-movable support, 14-hinge shaft, 15-cleaning part, 16-adjusting cylinder, 20-conveying part, 21-conveying roller, 22-positioning part, 23-material guiding part, 30-plate, 41-magnet device, 42-supporting plate and 43-supporting bar.

Description of the embodiments

The present utility model will be specifically described with reference to examples below in order to make the objects and advantages of the present utility model more apparent. It should be understood that the following text is intended to describe only one or more specific embodiments of the utility model and does not limit the scope of the utility model strictly as claimed. As used herein, the terms "parallel" and "perpendicular" are not limited to their strict geometric definition, but include tolerances for machining or human error to be reasonable and inconsistent.

As shown in fig. 1, 2 and 3, a cover plate production line includes: a feeding mechanism for feeding round plate material 30; the liquid coating mechanism is used for coating oil liquid on the two side surfaces of the plate 30; the first material transferring mechanism is used for transferring the plate material 30 on the material supplying mechanism to the liquid coating mechanism; each stamping mechanism is sequentially arranged and respectively performs stamping forming treatment on the plate 30; a second transfer mechanism for transferring the sheet material 30 from the coating mechanism to the first stamping mechanism; each third material transferring mechanism is sequentially arranged, and each third material transferring mechanism is used for transferring the plate material 30 between two adjacent stamping mechanisms, and the unloading mechanism is used for unloading the formed cover plate; the fourth material transferring mechanism is used for transferring the cover plate obtained after the molding treatment on the last molding mechanism to the discharging mechanism; the coating mechanism comprises a conveying part 20, a coating part is arranged on a conveying path of the conveying part 20, the coating part comprises an A coating liquid roller 11 and a B coating liquid roller 12 which are rotatably arranged in a relative arrangement mode, a sheet material 30 conveyed on the conveying part 20 passes through coating oil liquid between the A coating liquid roller 11 and the B coating liquid roller 12, the A coating liquid roller 11 is arranged on a movable support 13, the movable support 13 is arranged on the conveying frame in a connecting mode through a hinge shaft 14, the hinge shaft 14 is arranged parallel to the A coating liquid roller 11, the movable support 13 is connected with a movable adjusting mechanism, and the movable adjusting mechanism adjusts the distance between the A coating liquid roller 11 and the B coating liquid roller 12.

The specific implementation of the first, second, third and fourth material transferring mechanisms, the stamping mechanism and the unloading mechanism in the utility model are consistent with the implementation mode of the prior art, and are not repeated here. The utility model mainly improves the liquid coating mechanism and the feeding mechanism.

As shown in fig. 2, 3, 5, the a applicator roll 11 is positioned above the B applicator roll 12. The conveying section 20 is a guide roller conveying line, and is constituted by respective conveying rollers 21. A cleaning part 15 for cleaning the plate surface of the plate 30 is also provided beside the liquid coating part. The A coating liquid roller 11 comprises an A roller body and an A oil absorption layer arranged on the outer surface of the A roller body, an oil cavity is formed in the A roller body, oil outlet holes are formed in the roller wall of the A roller body, oil in the oil cavity is arranged on the A oil absorption layer through the oil outlet holes, and one end of the A roller body is communicated and connected with the liquid supply part through a rotary joint and an oil pipe. The B applicator roll 12 includes a B roll body and a B oil absorbing layer disposed on an outer surface of the B roll body. The cleaning part 15 cleans the plate surface of the plate 30 by blowing. The cleaning mechanism comprises an air outlet nozzle A and an air outlet nozzle B which are arranged on the upper side of the plate 30 in a relative mode, the blowing directions of the air outlet nozzle A and the air outlet nozzle B are inclined downwards and point to the middle of the conveying part 20, the air outlet nozzle A and the air outlet nozzle B are assembled on the movable frame through a shaping air pipe A and a shaping air pipe B (specifically, a pipe body capable of bending and shaping) respectively, and the shaping air pipe A and the shaping air pipe B are connected with the air supply mechanism. The end of the conveying part 20 is provided with a positioning piece 22 for positioning the plate 30, the positioning piece 22 is formed by an arc-shaped material blocking rod, the shape of the material blocking rod is consistent with the outline of the plate 30, the front side of the positioning piece 22 is provided with a material guiding piece 23, the material guiding piece 23 is formed by a vertically arranged plate body, the plate 30 abuts against the edge of the circular plate body to adjust the position of the plate 30, the plate 30 is movably mounted on a piston rod of a translation cylinder along the direction A, and the translation cylinder is fixedly mounted on the conveying rack. The movable adjusting mechanism consists of an adjusting cylinder 16 which is arranged in an inverted mode, the cylinder body of the adjusting cylinder 16 is hinged to the conveying frame, and the piston rod of the adjusting cylinder 16 is hinged to the movable support 13.

Through the mechanism, oil is immersed into the oil absorbing layer A firstly, and oil outlet holes are formed in the roller wall at intervals, so that the distribution of the oil is not uniform, and therefore, by means of the swinging installation, before the coating of the plate 30, the coating roller A11 and the coating roller B12 are extruded and rotated firstly, so that the oil can be well uniformly distributed and transferred onto the coating roller B12, and then the plate 30 passes through the coating roller A11 and the coating roller B12 for coating. The above steps are repeated, so that each plate 30 is uniformly coated, and the coating uniformity is improved. Meanwhile, the liquid supply structure is simplified, and the coating reliability is improved. The cleaning mechanism can clean the surface of the plate 30, and impurities are prevented from adhering to the surface of the plate 30 after the coating liquid is applied, so that the quality of a finished product is affected. The locating piece 22 and the material guide piece 23 can effectively solve the problem of deviation of the plate 30 in the liquid coating process, ensure that the plate 30 is reliably reset, ensure that the subsequent second material transferring mechanism can reliably take materials, and ensure the accuracy of the subsequent stamping operation.

The utility model also provides a feeding mechanism for producing cover plates, as shown in fig. 4 and 6, comprising: a feeding part for enabling the plates 30 to be arranged in a stacked manner and the uppermost plate 30 to be removed from the feeding part; and the cutting part is used for increasing the peripheral gap between the plate 30 of the second layer and the plate 30 at the lower side of the plate 30 after the plate 30 of the uppermost layer is taken away (one part is any one side part of the upper plate 30 and the lower plate 30, and comprises a local tilting state or a suspension state with small space in the whole).

The detailed scheme is as follows: the blanking portion includes each magnet device 41, and each magnet device 41 is arranged at intervals on the periphery of the plate 30, and the upper ends of the magnet devices 41 extend to the upper side of the uppermost plate 30. The magnet device 41 includes a box body and a magnet assembly disposed in the box body, wherein the magnet assembly can be a rubidium-iron-boron magnet, a permanent magnet or other magnets/electromagnets with similar functions, and the outer surface of the magnet device 41, which is close to one side of the plate 30, is arranged into an arc shape. The box body is provided with an operating handle. The plate 30 is made of stainless steel and is in a thin plate shape. Because of strong adsorption force between adjacent plates after stacking the plates 30, the plates are adsorbed and taken by the sucking disc or the magnet on the first material transferring mechanism, and the situation that the plates 30 cannot be taken due to overlarge adsorption force (namely, taking out) easily occurs. According to the utility model, a magnetic field is generated through the arranged magnet device 41, an upward acting force is generated on the stainless steel plate 30 positioned in the magnetic field, and the pressure born by the upper plate is reduced because the upper plate is removed, so that the plate 30 and the lower plate 30 can be separated more, the plate 30 presents a suspension or similar suspension state, the separation from the lower plate 30 is realized, the material taking reliability is ensured, and the frequency of idle material taking and stopping of equipment is reduced.

In a specific operation, the arc-shaped outer surface of the magnet device 41 and the periphery of the plate 30 are arranged in a clearance mode; alternatively, the part of the arc-shaped outer surface of the magnet device 41 and the periphery of the plate 30 of the middle section of the stacking plate 30 are arranged in an adsorption mode, and the distance between the arc-shaped outer surface of the upper section of the magnet device 41 and the center of the plate 30 is larger than the distance between the arc-shaped outer surface of the upper section of the magnet device 41 and the center of the plate 30. Preferably, 3 magnet devices 41 are arranged at intervals on the periphery of the plate 30, specifically, two magnet devices 41 are fixedly installed and separated from the plate 30 in a small gap, one magnet device 41 is adsorbed on the plate 30, and the adsorbed magnet device 41 can be taken down, so that the next feeding of the plate 30 is facilitated. More specifically, the feeding portion includes a supporting plate 42, the supporting plate 42 is mounted on the lifting mechanism, a wooden supporting bar 43 is disposed on the supporting plate 42, and the supporting bar 43 supports the plate 30.

In a word, the scheme provided by the utility model can effectively improve the uniformity of the coating liquid and the reliability of material taking during feeding, and ensure the reliable production of the cover plate.

The foregoing is merely a preferred embodiment of the present utility model and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present utility model, which are intended to be comprehended within the scope of the present utility model. Structures, mechanisms, and methods of operation not specifically described and illustrated in the present utility model are implemented by conventional means in the art unless specifically described and limited.

Claims (10)

1. A cover plate production line, comprising: the feeding mechanism is used for feeding round plates; the liquid coating mechanism is used for coating oil liquid on the surfaces of two sides of the plate; the first material transferring mechanism is used for transferring the plate material on the material feeding mechanism to the liquid coating mechanism; each stamping mechanism is sequentially arranged and respectively performs stamping forming treatment on the plate;

the second material transferring mechanism is used for transferring the plate material from the coating mechanism to the first stamping mechanism; each third material transferring mechanism is sequentially arranged, each third material transferring mechanism is used for transferring the plate between two adjacent stamping mechanisms, and the unloading mechanism is used for unloading the formed cover plate;

the fourth material transferring mechanism is used for transferring the cover plate obtained after the molding treatment on the last molding mechanism to the discharging mechanism; the coating liquid mechanism comprises a conveying part, wherein a coating liquid part is arranged on a conveying path of the conveying part, the coating liquid part comprises an A coating liquid roller and a B coating liquid roller which are rotatably arranged in a relative arrangement mode, a plate conveyed on the conveying part passes through coating oil liquid between the A coating liquid roller and the B coating liquid roller, the A coating liquid roller is arranged on a movable support, the movable support is arranged on a conveying frame in a connecting mode through a hinge shaft, the hinge shaft is parallel to the A coating liquid roller, the movable support is connected with a movable adjusting mechanism, and the movable adjusting mechanism adjusts the distance between the A coating liquid roller and the B coating liquid roller.

2. The cover plate production line according to claim 1, wherein: the A coating liquid roller is positioned above the B coating liquid roller.

3. The cover plate production line according to claim 1 or 2, characterized in that: the conveying part is composed of a guide roller conveying line.

4. The cover plate production line according to claim 1 or 2, characterized in that: the side of scribbling liquid portion still is provided with the clearance portion that carries out the clearance to the face of sheet material.

5. The cover plate production line according to claim 1 or 2, characterized in that: the A coating liquid roller comprises an A roller body and an A oil absorption layer arranged on the outer surface of the A roller body, an oil cavity is formed in the A roller body, each oil outlet is formed in the roller wall of the A roller body, oil in the oil cavity is arranged on the A oil absorption layer through the oil outlet, and one end of the A roller body is communicated and connected with the liquid supply part through a rotary joint and an oil pipe.

6. The cover plate production line according to claim 5, wherein: the B coating liquid roller comprises a B roller body and a B oil absorption layer arranged on the outer surface of the B roller body.

7. The cover plate production line according to claim 4, wherein: the cleaning part cleans the plate surface of the plate material in a blowing mode.

8. The cover plate production line according to claim 7, wherein: the cleaning mechanism comprises an air outlet nozzle A and an air outlet nozzle B which are arranged on the upper side of the plate material in a relative mode, the blowing directions of the air outlet nozzle A and the air outlet nozzle B are inclined downwards and point to the middle of the conveying part, the air outlet nozzle A and the air outlet nozzle B are assembled on the movable frame through a shaping air pipe A and a shaping air pipe B respectively, and the shaping air pipe A and the shaping air pipe B are connected with the air supply mechanism.

9. The cover plate production line according to claim 8, wherein: the end of the conveying part is provided with a positioning piece for positioning the plate, the positioning piece is formed by an arc-shaped blocking rod, the shape of the blocking rod is consistent with the outer contour of the plate, the front side of the positioning piece is provided with a guide piece, the guide piece is formed by a plate body arranged in a vertical mode, the plate abuts against the edge of the circular plate body to adjust the position of the plate, the plate is movably mounted on a piston rod of a translation cylinder along the direction A, and the translation cylinder is fixedly mounted on the conveying frame.

10. The cover plate production line according to claim 9, wherein: the movable adjusting mechanism consists of adjusting cylinders which are arranged in an inverted mode, the cylinder bodies of the adjusting cylinders are hinged to the conveying frame, and the piston rods of the adjusting cylinders are hinged to the movable support.

Images