CN210307972U

CN210307972U - PVC light film engraving device

Info

Publication number: CN210307972U
Application number: CN201921350955.4U
Authority: CN
Inventors: 尹亮; 杨荣杰; 张永挺
Original assignee: Guangdong Power Grid Co Ltd; Zhongshan Power Supply Bureau of Guangdong Power Grid Co Ltd
Current assignee: Guangdong Power Grid Co Ltd; Zhongshan Power Supply Bureau of Guangdong Power Grid Co Ltd
Priority date: 2019-08-19
Filing date: 2019-08-19
Publication date: 2020-04-14
Anticipated expiration: 2029-08-19

Abstract

The utility model relates to the technical field of processing equipment, a PVC optical film engraving device is provided, which comprises a frame main body, an engraving module, an optical axis module and a paper feeding module, wherein the engraving module, the optical axis module and the paper feeding module are arranged in the frame main body, the engraving module is connected with the optical axis module in a sliding way, and the paper feeding module is arranged below the optical axis module; the engraving module comprises an engraving knife and an engraving knife moving mechanism, the optical axis module comprises an optical axis and an optical axis support, the optical axis is fixedly arranged on the optical axis support, and the engraving knife moving mechanism is connected with the optical axis module in a sliding manner to control the movement of the engraving knife; the paper feeding module comprises a paper feeding conveying mechanism and a paper feeding motor, and the paper feeding motor is connected with the paper feeding conveying mechanism; the paper feeding module conveys PVC optical film materials to be engraved, the engraving knife moving mechanism controls the whole engraving module to move on the optical axis module, and the engraving is realized according to the moving path of the preset design path control engraving module.

Description

PVC light film engraving device

Technical Field

The utility model relates to a processing equipment technical field, more specifically relates to a PVC light membrane engraving device.

Background

At present, equipment signboard in transformer substation is because the wind blows the sun and is drenched easily vaguely by rain, seriously influences daily maintenance operation of patrolling, often need to be changed, and because equipment signboard needs plan the purchase according to the quarter in the transformer substation, when the signboard of this quarter purchase does not have the stock, can only use on original signboard through pasting after adopting A4 paper to print the interim signboard of paper and moulding. But the service life of above-mentioned interim signboard is very short, needs often to change, greatly increased the transformer substation routine maintenance work volume.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an overcome above-mentioned prior art paper cross the life of the interim signboard of moulding short, the defect that the daily maintenance work load of transformer substation is big provides a PVC membrane engraving device, through the PVC membrane of device stamp-out signboard pattern, treats the signboard of maintaining and pastes the cover, accomplishes the maintenance work of signboard promptly.

In order to solve the technical problem, the technical scheme of the utility model as follows:

a PVC light film engraving device comprises a frame main body, an engraving module, an optical axis module and a paper feeding module, wherein the engraving module, the optical axis module and the paper feeding module are arranged in the frame main body, the engraving module is connected with the optical axis module in a sliding manner, and the paper feeding module is arranged below the optical axis module; the engraving module comprises an engraving knife and an engraving knife moving mechanism, the optical axis module comprises an optical axis and an optical axis support, the optical axis is fixedly arranged on the optical axis support, and the engraving knife moving mechanism is connected with the optical axis module in a sliding manner to control the movement of the engraving knife; the paper feeding module comprises a paper feeding conveying mechanism and a paper feeding motor, and the paper feeding motor is connected with the paper feeding conveying mechanism; the paper feeding module conveys PVC optical film materials to be engraved, the engraving knife moving mechanism controls the whole engraving module to move on the optical axis module, and the engraving is realized according to the moving path of the preset design path control engraving module.

Among this technical scheme, the frame main part is used for fixed sculpture module, optical axis module, the position of the module of form advancing, and the module of form advancing is used for the transmission of PVC bright membrane, and the optical axis module is used for making the sculpture module rectilinear movement rather than being connected as slide bearing, and the sculpture module is used for engraving on driven PVC bright membrane material. In the use, carving tool moving mechanism and external device terminal connection, the staff of transformer substation inputs the signboard image of treating the sculpture in external device terminal, external device designs according to the removal route of waiting the image pair of carving the sculpture sword, and the function according to the removal route control carving tool moving mechanism of carving the sword, thereby control the whole removal in the optical axis module of sculpture module, the module of form advancing simultaneously conveys the PVC membrane material of waiting the sculpture, the realization is to the sculpture of PVC membrane material and is obtained the PVC membrane of accomplishing the sculpture, then directly paste this PVC membrane on reflection of light sticker, paste again and cover on the signboard of waiting to maintain, accomplish the maintenance work of signboard promptly.

Preferably, the graver moving mechanism comprises a graver blade holder, a sliding fixing plate, a moving slider and a transmission belt assembly, wherein the graver is arranged in a fixing groove formed below the sliding fixing plate through the graver blade holder, the moving slider is arranged on the upper surface of the sliding fixing plate, and the sliding fixing plate is connected with the transmission belt assembly for use; the movable sliding block is provided with a through hole and is in sliding connection with the optical axis through the through hole. The transmission band subassembly is through driving the slip fixed plate, control rather than the sculpture blade holder of connecting and set up the carving tool on the sculpture blade holder and realize controlling the removal, and the through-hole that removes the slider and set up through it slides on the optical axis, realizes the holistic rectilinear movement of carving tool moving mechanism.

Preferably, the transmission belt assembly comprises a synchronous belt, a transmission main wheel and a transmission motor, the transmission main wheel is connected with the transmission motor, and the transmission main wheel is arranged in the synchronous belt to drive the synchronous belt.

Preferably, the graver moving mechanism further comprises a graver housing for protecting the graver, and the graver housing is arranged below the graver holder and on the periphery of the graver, so that the graver is prevented from being damaged.

Preferably, the device comprises 2 optical axis modules, and the 2 optical axis modules are symmetrically arranged on two sides of the carving module.

Preferably, the paper feeding conveying mechanism comprises a paper feeding motor, a paper feeding synchronous belt, a paper feeding main wheel, a paper feeding auxiliary wheel, a paper feeding side wheel and a roller, wherein the paper feeding motor is connected with the paper feeding main wheel for use, the paper feeding main wheel and the paper feeding auxiliary wheel are arranged in the paper feeding synchronous belt, and the paper feeding synchronous belt and the paper feeding auxiliary wheel are driven by the paper feeding main wheel; one end of the roller is fixedly connected with a connecting hole arranged in the middle of the paper feeding main wheel, and the other end of the roller is fixedly connected with a connecting hole arranged in the middle of the paper feeding side wheel.

Preferably, the paper feeding conveying mechanism further comprises a paper feeding pinch roller, a paper feeding pressing plate and a side fixing plate, wherein two ends of the paper feeding pinch roller are fixedly arranged through a through hole formed in the side fixing plate; the paper feeding pressing plate is arranged below the paper feeding pressing wheel, and two ends of the paper feeding pressing plate are fixedly arranged on the side fixing plates; the roller is arranged below the paper feeding pressing plate, and two ends of the roller are respectively connected and fixed with the paper feeding main wheel and the paper feeding side wheel through holes formed in the side fixing plates.

Preferably, the stand body includes a foot stand, a connection bottom plate, a connection top plate, and a stand case, wherein the connection bottom plate is disposed at a lower side of the foot stand, the connection top plate is disposed at an upper side of the foot stand, and the stand case is disposed at an outer side of the foot stand.

Preferably, the optical axis in the optical axis module comprises a rectilinear optical axis, with a guiding action of a sliding bearing.

Compared with the prior art, the utility model discloses technical scheme's beneficial effect is: through the combination of sculpture module, optical axis module, the module of form advancing, the PVC light membrane that can carve seal signboard pattern fast pastes the cover on the signboard that is obscure or need to be changed, can accomplish the maintenance work of signboard to can effectively reduce transformer substation's staff's daily maintenance work load, improve the maintenance efficiency of transformer substation's signboard, increase transformer substation's signboard life.

Drawings

Fig. 1 is a schematic view of the structure of the components of the PVC optical film engraving device of embodiment 1.

Fig. 2 is a schematic view of the overall structure of the PVC optical film engraving device of embodiment 1.

Detailed Description

The drawings are for illustrative purposes only and are not to be construed as limiting the patent;

for the purpose of better illustrating the embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product;

it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

The technical solution of the present invention will be further explained with reference to the accompanying drawings and examples.

Example 1

Fig. 1 is a schematic view of a part structure of a PVC optical film engraving device of this embodiment.

This embodiment provides a PVC bright membrane engraving device, including frame main part 1, sculpture module 2, optical axis module 3, the module 4 of form advancing, wherein, sculpture module 2, optical axis module 3, the module 4 setting of form advancing are in the frame main part 1, sculpture module 2 and optical axis module 3 sliding connection, the module 4 setting of form advancing is in the below of sculpture module 2, optical axis module 3.

In this embodiment, the engraving module 2 includes an engraving knife 21, an engraving knife holder 22, a sliding fixing plate 23, a movable slider 24, a synchronous belt 25, a transmission main wheel 26, a transmission motor 27, and an engraving knife housing 28, wherein the engraving knife 21 is disposed in a fixing groove formed below the sliding fixing plate 23 through the engraving knife holder 22, the engraving knife housing 28 is disposed below the engraving knife holder 22 and at the periphery of the engraving knife 21, the movable slider 24 is disposed on the upper surface of the sliding fixing plate 23, and the movable slider 24 is disposed with a through hole, and the movable slider 24 is slidably connected with an optical axis 31 in the optical axis module 3 through the through hole formed therein. The synchronous belt 25, the transmission main wheel 26 and the transmission motor 27 form a graver moving mechanism in the engraving module 2, wherein the transmission main wheel 26 is connected with the transmission motor 27, and the transmission main wheel 26 is arranged in the synchronous belt 25 to drive the synchronous belt 25.

In this embodiment, the optical axis module 3 includes an optical axis 31 and an optical axis support 32, where the optical axis 31 adopts a linear optical axis and has a guiding function of a sliding bearing, the optical axis support 32 is disposed at two ends of the optical axis 31, and the movable slider 24 in the engraving module 2 is slidably connected to the optical axis 31 through a through hole formed therein.

In this embodiment, the paper feeding module 4 includes a paper feeding and conveying mechanism and a paper feeding motor, wherein the paper feeding motor is connected to the paper feeding and conveying mechanism and is used for conveying the PVC optical film material to be engraved.

In this embodiment, the stand body 1 includes a foot rest 11, a connecting bottom plate 12, a connecting top plate 13, and a stand casing 14, wherein the connecting bottom plate 12 is disposed at a lower side of the foot rest 11, the connecting top plate 13 is disposed at an upper side of the foot rest 11, and the stand casing 14 is disposed at an outer side of the foot rest 11.

Fig. 2 is a schematic view of the overall structure of the PVC light film engraving device of this embodiment.

In the specific implementation process, the transmission motor 27 in the engraving module 2 is connected with an external device terminal, a substation worker inputs a signboard image to be engraved in the external device terminal, the external device designs a moving path of the engraving knife according to the image to be engraved, and controls the on-off of the motor 27 according to the moving path of the engraving knife, the transmission motor 27 is connected with the transmission main wheel 26, the on-off of the transmission motor 27 can control the rotation and the rotation direction of the transmission main wheel 26, so that the control of the moving path of the engraving knife is realized through the transmission and the transmission direction of the synchronous belt 25 connected with the transmission main wheel 26, the engraving of the PVC optical film material is realized by combining the transmission of the paper feeding module 4 to the PVC optical film material, the PVC optical film with finished engraving is obtained, the PVC optical film is applied to the maintenance of the signboard, specifically, the PVC optical film with finished engraving is directly adhered to the reflective sticker, and then the signboard to be maintained is stuck and covered, so that the maintenance work of the signboard is completed.

In this embodiment, through the combination of sculpture module, optical axis module, the module of form advancing, the PVC light membrane that can carve seal signboard pattern fast pastes the cover on the signboard that is fuzzy or need to be changed, can accomplish the maintenance work of signboard to can effectively reduce transformer substation's staff's daily maintenance work load, improve the maintenance efficiency of transformer substation's signboard, increase transformer substation's signboard life.

Example 2

The PVC light film engraving device provided by the embodiment comprises a frame body 1, an engraving module 2, an optical axis module 3 and a paper feeding module 4, wherein the engraving module 2, the optical axis module 3 and the paper feeding module 4 are arranged in the frame body 1, the engraving module 2 is in sliding connection with the optical axis module 3, and the paper feeding module 4 is arranged below the engraving module 2 and the optical axis module 3.

Carving module 2 includes carving tool 21, carving blade holder 22, sliding fixing plate 23, remove slider 24, hold-in range 25, transmission main wheel 26, drive motor 27, carving tool shell 28, wherein, carving tool 21 sets up in the fixed slot that sliding fixing plate 23 below was seted up through carving blade holder 22, carving tool shell 28 sets up in the periphery of carving blade holder 22 below and carving tool 21, remove slider 24 and set up the upper surface at sliding fixing plate 23, and remove slider 24 and seted up the through-hole, remove slider 24 through its through-hole of seting up and optical axis 31 sliding connection in the optical axis module 3. The synchronous belt 25, the transmission main wheel 26 and the transmission motor 27 form a graver moving mechanism in the engraving module 2, wherein the transmission main wheel 26 is connected with the transmission motor 27, and the transmission main wheel 26 is arranged in the synchronous belt 25 to drive the synchronous belt 25.

The optical axis module 3 includes an optical axis 31 and an optical axis support 32, wherein the optical axis 31 adopts a linear optical axis and has a guiding function of a sliding bearing, the optical axis support 32 is disposed at two ends of the optical axis 31, and the movable sliding block 24 in the engraving module 2 is slidably connected with the optical axis 31 through a through hole formed therein.

The stand body 1 includes a foot rest 11, a connecting bottom plate 12, a connecting top plate 13, and a stand casing 14, wherein the connecting bottom plate 12 is disposed at a lower side of the foot rest 11, the connecting top plate 13 is disposed at an upper side of the foot rest 11, and the stand casing 14 is disposed at an outer side of the foot rest 11.

In addition, the paper feeding module 4 in this embodiment includes a paper feeding motor 41, a paper feeding timing belt 42, a paper feeding main wheel 43, a paper feeding auxiliary wheel 44, a paper feeding side wheel 45, a roller 46, a paper feeding pinch roller 47, a paper feeding press plate 48 and a side fixing plate 49, wherein the side fixing plate 49 is disposed at the left and right sides of the paper feeding module 4, the paper feeding motor 41 is disposed at one side of the right side fixing plate 49, and is connected to the paper feeding main wheel 43 disposed at the other side of the right side fixing plate 49 through a through hole formed in the right side fixing plate 49; the paper feeding main wheel 43 and the paper feeding auxiliary wheel 44 are arranged in the paper feeding synchronous belt 42, the paper feeding motor 41 drives the paper feeding main wheel 43, and the paper feeding main wheel 43 drives the paper feeding synchronous belt 42 and the paper feeding auxiliary wheel 44 to operate in a transmission way; two ends of the paper feeding pinch roller 47 are fixedly arranged through holes formed in the side fixing plates 49 on the left side and the right side, the paper feeding press plate 48 is arranged below the paper feeding pinch roller 47, and two ends of the paper feeding press plate 48 are fixedly arranged on the side fixing plates 49 on the left side and the right side; the roller 46 is disposed below the paper feeding pressing plate 48, and one end of the roller 46 is fixedly connected to a connecting hole disposed in the middle of the paper feeding main wheel 43 through a through hole formed in the right side fixing plate 49, and the other end of the roller 46 is fixedly connected to a connecting hole disposed in the middle of the paper feeding side wheel 45 through a through hole formed in the left side fixing plate 49.

In the specific implementation process, the transmission motor 27 in the engraving module 2 is connected with an external device terminal, a substation worker inputs a signboard image to be engraved in the external device terminal, the external device designs a moving path of the engraving knife according to the image to be engraved, and controls the on-off of the motor 27 according to the moving path of the engraving knife, the transmission motor 27 is connected with the transmission main wheel 26, the on-off of the transmission motor 27 can control the rotation and the rotation direction of the transmission main wheel 26, so that the control of the moving path of the engraving knife is realized through the transmission and the transmission direction of the synchronous belt 25 connected with the transmission main wheel 26, the engraving of the PVC optical film material is realized by combining the transmission of the paper feeding module 4 to the PVC optical film material, and the engraved PVC optical film with completed engraving is obtained.

The same or similar reference numerals correspond to the same or similar parts;

the terms describing positional relationships in the drawings are for illustrative purposes only and are not to be construed as limiting the patent;

it is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not limitations to the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims

1. The utility model provides a PVC bright membrane engraving device which characterized in that: the paper feeding machine comprises a rack main body, a carving module, an optical axis module and a paper feeding module, wherein the carving module, the optical axis module and the paper feeding module are arranged in the rack main body, the carving module is connected with the optical axis module in a sliding mode, and the paper feeding module is arranged below the optical axis module; the engraving module comprises an engraving knife and an engraving knife moving mechanism, the optical axis module comprises an optical axis and an optical axis support, the optical axis is fixedly arranged on the optical axis support, and the engraving knife moving mechanism is connected with the optical axis module in a sliding mode to control the movement of the engraving knife; the paper feeding module comprises a paper feeding conveying mechanism and a paper feeding motor, and the paper feeding motor is connected with the paper feeding conveying mechanism.

2. The PVC optical film engraving apparatus of claim 1, wherein: the graver moving mechanism comprises a graver blade holder, a sliding fixing plate, a moving sliding block and a transmission belt assembly, wherein the graver is arranged in a fixing groove formed below the sliding fixing plate through the graver blade holder, the moving sliding block is arranged on the upper surface of the sliding fixing plate, and the sliding fixing plate is connected with the transmission belt assembly for use; the movable sliding block is provided with a through hole and is in sliding connection with the optical axis through the through hole.

3. The PVC optical film engraving apparatus of claim 2, wherein: the transmission belt assembly comprises a synchronous belt, a transmission main wheel and a transmission motor, the transmission main wheel is connected with the transmission motor and arranged, and the transmission main wheel is arranged in the synchronous belt to drive the synchronous belt.

4. The PVC optical film engraving apparatus of claim 3, wherein: the graver moving mechanism further comprises a graver shell, and the graver shell is arranged below the graver holder and on the periphery of the graver.

5. The PVC optical film engraving apparatus of claim 1, wherein: the device includes 2 optical axis modules, 2 optical axis modules symmetry sets up the both sides at the sculpture module.

6. The PVC optical film engraving apparatus of claim 1, wherein: the paper feeding conveying mechanism comprises a paper feeding motor, a paper feeding synchronous belt, a paper feeding main wheel, a paper feeding auxiliary wheel, a paper feeding side wheel and a roller, wherein the paper feeding motor is connected with the paper feeding main wheel for use, the paper feeding main wheel and the paper feeding auxiliary wheel are arranged in the paper feeding synchronous belt, and the paper feeding synchronous belt and the paper feeding auxiliary wheel are driven by the paper feeding main wheel; one end of the roller is fixedly connected with a connecting hole arranged in the middle of the paper feeding main wheel, and the other end of the roller is fixedly connected with a connecting hole arranged in the middle of the paper feeding side wheel.

7. The PVC optical film engraving apparatus of claim 6, wherein: the paper feeding conveying mechanism also comprises a paper feeding pinch roller, a paper feeding pressing plate and a side fixing plate, wherein two ends of the paper feeding pinch roller are fixedly arranged through a through hole formed in the side fixing plate; the paper feeding pressing plate is arranged below the paper feeding pressing wheel, and two ends of the paper feeding pressing plate are fixedly arranged on the side fixing plate; the roller is arranged below the paper feeding pressing plate, and two ends of the roller are respectively connected and fixed with the paper feeding main wheel and the paper feeding side wheel through holes formed in the side fixing plates.

8. The PVC optical film engraving device according to any one of claims 1 to 7, wherein: the rack main body comprises a foot stand, a connecting bottom plate, a connecting top plate and a rack shell, wherein the connecting bottom plate is arranged on the lower side of the foot stand, the connecting top plate is arranged on the upper side of the foot stand, and the rack shell is arranged on the outer side of the foot stand.

9. The PVC optical film engraving apparatus of claim 8, wherein: the optical axis in the optical axis module comprises a straight optical axis.