CN113731879A

CN113731879A - Basement membrane cleaning device for embossing equipment

Info

Publication number: CN113731879A
Application number: CN202110979163.9A
Authority: CN
Inventors: 傅国强
Original assignee: Asia Pacific Guangzhou Daily Necessities Co ltd
Current assignee: Asia Pacific Guangzhou Daily Necessities Co ltd
Priority date: 2021-08-25
Filing date: 2021-08-25
Publication date: 2021-12-03

Abstract

The invention relates to a bottom template cleaning device for embossing equipment, which comprises a fixed block, a connecting block, a cleaning mechanism and a vibration mechanism, wherein the connecting block is cylindrical, the connecting block is horizontally arranged, the connecting block is arranged in a hollow manner, the fixed block is arranged on one side of the connecting block, the cleaning mechanism is arranged on the fixed block, the vibration mechanism is arranged in the connecting block and comprises a driving component and a vibration component, the cleaning mechanism comprises a blade, a fixed component and a reciprocating component, the bottom template cleaning device for embossing equipment realizes the cleaning of a main body through the matching of the vibration mechanism and the cleaning mechanism, the front and back reciprocating movement of the blade and the left and right reciprocating movement of the blade are realized, the labor intensity of operators is reduced, the cleaning effect is also improved, the working efficiency is improved, the linkage of a plurality of mechanisms is realized through the same driving source, the practicability of use is improved.

Description

Basement membrane cleaning device for embossing equipment

Technical Field

The invention particularly relates to a bottom film plate cleaning device for an embossing device.

Background

The wallpaper is also called as wallpaper, is an interior decoration material for pasting wall surfaces, is widely applied to interior decoration of houses, offices, hotels, and the like, is not limited to paper in material, and also comprises other materials, the wallpaper needs to be produced before use, the wallpaper is usually embossed for aesthetic property in production, embossing equipment is needed in embossing, and the embossing equipment is generally formed by combining a raw material placing frame, embossing equipment and a winding device.

Present knurling equipment is being scribbled to the basement membrane on the board and is becoming when cleaning, generally all spray petrol on the basement membrane board, make and scribble into the softening, then strike off what scribbled into through the wall paper sword, thereby be convenient for the processing of next different flowers, though the softening of petrol has been passed through, but petrol can not be complete will scribble become including soaking, thereby still comparatively difficult at the in-process of cleaing away, the promotion wall paper sword that needs the operation workman to stop, intensity of labour is great, clean time is longer, and work efficiency is reduced.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to overcome the defects of the prior art, a bottom film plate cleaning device for an embossing device is provided.

The technical scheme adopted by the invention for solving the technical problems is as follows: a bottom membrane cleaning device for embossing equipment comprises a fixing block, a connecting block, a cleaning mechanism and a vibration mechanism, wherein the connecting block is cylindrical, the connecting block is horizontally arranged, the connecting block is hollow, the fixing block is arranged on one side of the connecting block, the cleaning mechanism is arranged on the fixing block, and the vibration mechanism is arranged in the connecting block;

the vibration mechanism comprises a driving assembly and a vibration assembly, the driving assembly is arranged in a connecting block, the driving assembly comprises a motor, a fixed rod and two driving units, the motor is a two-way motor, the motor is vertically arranged in the connecting block, the fixed rod is arranged on one side of the motor, one end of the fixed rod is connected with the motor, the other end of the fixed rod is connected with the inner wall of the connecting block far away from one end of the fixed block, the two driving units are respectively arranged at two ends of the motor, the driving unit comprises a first bearing seat, a rotating rod and a cam, the first bearing seat is arranged on the inner wall of the connecting block, the rotating rod is arranged between the motor and the first bearing seat, one end of the rotating rod is arranged on a rotating shaft of the motor, the other end of the rotating rod is connected with the first bearing seat, and the cam is sleeved on the rotating rod, the cam is connected with the rotating rod key;

the end, close to the connecting block, of the fixing block is provided with two cylindrical grooves, the two cylindrical grooves are symmetrically arranged relative to the axis of the connecting block, the number of the vibration assemblies is two, the two vibration assemblies are respectively arranged in the two grooves, the vibration assemblies are located between the connecting block and the fixing block, each vibration assembly comprises a sealing plate, a connecting ring, a first spring and a push rod, the sealing plates are arranged in the grooves, the sealing plates are in sliding connection with the grooves, the connecting rings are arranged on one sides, close to the connecting block, of the sealing plates, the connecting rings are located in the grooves, the outer rings of the connecting rings are connected with the inner walls of the grooves, the push rods are arranged between the cams and the sealing plates, one ends of the push rods penetrate through the connecting rings to be connected with the sealing plates, the other ends of the push rods extend into the connecting block to abut against the cams, and are in sliding connection with the connecting block, the first spring is arranged between the sealing plate and the connecting ring, the first spring is sleeved on the pushing rod, one end of the first spring is connected with the connecting ring, and the other end of the first spring is connected with the sealing plate;

the one end that the connecting block was kept away from to the fixed block is equipped with vertical bar constant head tank, clean mechanism sets up in the constant head tank, clean mechanism includes blade, fixed subassembly and reciprocal subassembly, the blade sets up in the constant head tank, blade and constant head tank sliding connection, fixed subassembly sets up on the fixed block, fixed subassembly is connected with the blade, reciprocal subassembly sets up in the inside bottom of constant head tank, reciprocal subassembly is connected with the blade.

In order to fix the blade and realize the movement of the blade while fixing, a plurality of fixing components are arranged, each fixing component is uniformly arranged on a fixing block and is positioned above the blade, each fixing component comprises a lead screw, a bearing and a handle, a strip-shaped sliding groove is arranged on the fixing block, the cross section of each sliding groove is T-shaped, the bearing is arranged in each sliding groove, the bearing is in rolling connection with the corresponding sliding groove, a through groove is formed in the bottom end of each sliding groove and is communicated with a positioning groove, the handle is arranged above the fixing block, the lead screw is arranged between the blade and the handle, one end of the lead screw is connected with the handle, the other end of the lead screw penetrates through the sliding grooves in sequence and is abutted against the blade, an internal thread matched with the lead screw is arranged on the inner ring of the bearing, and the lead screw penetrates through the bearing, the screw rod is in threaded connection with the bearing.

In order to realize the reciprocating movement of the blade, thereby improving the cleaning effect and the cleaning efficiency, the reciprocating assembly comprises a rack, a moving block and a driven unit, the bottom end inside the positioning groove is provided with a connecting groove, the section of the connecting groove is L-shaped, the connecting groove is positioned between two grooves, the moving block is arranged in the connecting groove, the rack is horizontally arranged in the positioning groove, the rack is positioned at one side of the sliding block, the rack is connected with the connecting groove in a sliding manner through the sliding block, the bottom end inside the cylindrical groove is provided with a communicating hole, one end of the communicating hole is communicated with the positioning groove, the other end of the communicating hole is communicated with the grooves, the driven unit is arranged in the communicating hole, the driven unit comprises a second bearing seat, a driven rod, a rotating plate and a gear, the number of the second bearings is two, and the two second bearing seats are both arranged on the inner wall of the communicating hole, two secondary shaft bearing are just to setting up, the driven lever sets up between two secondary shaft bearing, the both ends of driven lever are connected with a secondary shaft bearing respectively, the rotor plate is installed on the driven lever, the rotor plate is connected with the driven lever transmission, the gear box is established on the driven lever, gear and driven lever key-type connection, the gear is located the below of rotor plate, gear and rack toothing, the one end that the gear was kept away from to the rack supports with the blade and leans on.

In order to increase the contact area between the blade and the rack and enable the rack to drive the blade to move back and forth through friction force, anti-skidding grains are arranged at one end, away from the gear, of the rack, and the rack is abutted to the blade.

In order to realize shock absorption on the motor, simultaneously enable the fixed block to move more stably, prevent the pushing rod from deforming due to overlarge stress and protect the pushing rod, a shock absorption assembly is arranged between the connecting block and the fixed block and comprises an auxiliary rod, a second spring, a limiting plate and a propping plate, wherein the limiting plate and the propping plate are arranged in the connecting block, the limiting plate and the propping plate are arranged in a positive-to-positive mode, the second spring is arranged between the limiting plate and the propping plate, one end of the second spring is connected with the propping plate, the other end of the second spring is connected with the limiting plate, one end of the propping plate, far away from the second spring, is propped against the motor, the auxiliary rod is arranged between the fixed block and the connecting block, one end of the auxiliary rod is connected with the fixed block, and the other end of the auxiliary rod extends into the connecting block to be connected with the limiting block, the auxiliary rod is connected with the connecting block in a sliding mode, and the second spring is in a compressed state.

The bottom membrane cleaning device for the embossing equipment has the advantages that the cleaning of the main body is realized through the matching of the vibration mechanism and the cleaning mechanism, the movement of the push rod is realized through the motor, so that the reciprocating movement of the blade is realized, meanwhile, when the fixing block is pushed to move, the operation of the driven unit is realized through the air flow generated between the sealing plate and the groove, the reciprocating movement of the blade from side to side is realized through the driven unit, so that the labor intensity of operators is reduced, the cleaning effect can be improved, the working efficiency is improved, the linkage of a plurality of mechanisms is realized through the same driving source, and the use practicability is improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view showing the structure of a bottom film cleaning apparatus for an embossing apparatus according to the present invention;

FIG. 2 is a schematic view showing a connection structure of a fixed block, a sealing block, a connection ring, a first spring, a push rod and a cleaning mechanism of a bottom film cleaning device for an embossing apparatus according to the present invention;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is an enlarged view of portion B of FIG. 2;

in the figure: 1. the device comprises a fixed block, 2, a connecting block, 3, a motor, 4, a fixed rod, 5, a first bearing seat, 6, a rotating rod, 7, a cam, 8, a sealing plate, 9, a connecting ring, 10, a first spring, 11, a pushing rod, 12, a blade, 13, a screw rod, 14, a bearing, 15, a handle, 16, a rack, 17, a moving block, 18, a second bearing seat, 19, a driven rod, 20, a rotating plate, 21, a gear, 22, an auxiliary rod, 23, a second spring, 24, a limiting plate and 25, and an abutting plate.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

As shown in fig. 1-2, a bottom membrane cleaning device for an embossing apparatus comprises a fixed block 1, a connecting block 2, a cleaning mechanism and a vibration mechanism, wherein the connecting block 2 is cylindrical, the connecting block 2 is horizontally arranged, the connecting block 2 is hollow, the fixed block 1 is arranged on one side of the connecting block 2, the cleaning mechanism is arranged on the fixed block 1, and the vibration mechanism is arranged in the connecting block 2;

the vibration mechanism comprises a driving assembly and a vibration assembly, the driving assembly is arranged in a connecting block 2, the driving assembly comprises a motor 3, a fixing rod 4 and two driving units, the motor 3 is a two-way motor 3, the motor 3 is vertically arranged in the connecting block 2, the fixing rod 4 is arranged on one side of the motor 3, one end of the fixing rod 4 is connected with the motor 3, the other end of the fixing rod 4 is connected with the inner wall of the connecting block 2 far away from one end of the fixing block 1, the two driving units are respectively arranged at two ends of the motor 3, the driving unit comprises a first bearing seat 5, a rotating rod 6 and a cam 7, the first bearing seat 5 is arranged on the inner wall of the connecting block 2, the rotating rod 6 is arranged between the motor 3 and the first bearing seat 5, one end of the rotating rod 6 is arranged on a rotating shaft of the motor 3, and the other end of the rotating rod 6 is connected with the first bearing seat 5, the cam 7 is sleeved on the rotating rod 6, and the cam 7 is connected with the rotating rod 6 in a key mode;

the end, close to the connecting block 2, of the fixing block 1 is provided with two cylindrical grooves, the two cylindrical grooves are symmetrically arranged about the axis of the connecting block 2, the number of the vibration assemblies is two, the two vibration assemblies are respectively arranged in the two grooves, the vibration assemblies are located between the connecting block 2 and the fixing block 1, each vibration assembly comprises a sealing plate 8, a connecting ring 9, a first spring 10 and a push rod 11, the sealing plate 8 is arranged in each groove, the sealing plate 8 is slidably connected with the corresponding groove, the connecting ring 9 is arranged on one side, close to the connecting block 2, of the sealing plate 8, the connecting ring 9 is located in each groove, the outer ring of the connecting ring 9 is connected with the inner wall of each groove, the push rods 11 are arranged between the cams 7 and the sealing plate 8, one end of each push rod 11 penetrates through the connecting ring 9 to be connected with the corresponding sealing plate 8, and the other end of each push rod 11 extends into the connecting block 2 to be abutted against the corresponding cam 7, the push rod 11 is connected with the connecting block 2 in a sliding mode, the first spring 10 is arranged between the sealing plate 8 and the connecting ring 9, the first spring 10 is sleeved on the push rod 11, one end of the first spring 10 is connected with the connecting ring 9, and the other end of the first spring 10 is connected with the sealing plate 8.

When the main part on the basement membrane board needs to be cleaned, gasoline is sprayed on the main part, and the main part is softened through gasoline, so that the cleaning difficulty can be effectively reduced.

At this time, an operator holds the connecting block 2 with both hands and then moves the connecting block 2, so that the connecting block 2 moves towards the main body, the connecting block 2 drives the pushing rod 11 to move, the pushing rod 11 drives the sealing plate 8 to move, because the blade 12 does not receive pushing force, the fixed block 1 can be moved by the friction force between the sealing plate 8 and the groove, the fixed block 1 drives the cleaning mechanism to move, so that the cleaning mechanism is abutted against the main body, the motor 3 is operated, the motor 3 drives the rotating rod 6 to rotate, the rotating rod 6 drives the cam 7 to rotate, the cam 7 drives the pushing rod 11 to move, the pushing rod 11 drives the sealing plate 8 to move, the first spring 10 is in a stretching state, the fixed block 1 is abutted against the main body by the cleaning mechanism, so that the fixed block 1 can move back and forth, and back and forth movement of the fixed block 1 can be realized by the first spring 10, the reciprocating movement of the blade 12 is realized, so that the cleaning effect is improved, and the working efficiency is improved.

As shown in fig. 3-4, the one end of connecting block 2 is kept away from to fixed block 1 is equipped with vertical bar constant head tank, clean mechanism sets up in the constant head tank, clean mechanism includes blade 12, fixed subassembly and reciprocal subassembly, blade 12 sets up in the constant head tank, blade 12 and constant head tank sliding connection, fixed subassembly sets up on fixed block 1, fixed subassembly is connected with blade 12, reciprocal subassembly sets up the bottom in the constant head tank is inside, reciprocal subassembly is connected with blade 12.

In order to fix the blade 12 and realize the movement of the blade 12 while fixing, the fixing components are provided with a plurality of fixing components, each fixing component is uniformly arranged on the fixing block 1, the fixing component is positioned above the blade 12, the fixing component comprises a screw rod 13, a bearing 14 and a handle 15, the fixing block 1 is provided with a strip-shaped sliding groove, the cross section of the sliding groove is T-shaped, the bearing 14 is arranged in the sliding groove, the bearing 14 is in rolling connection with the sliding groove, the bottom end of the sliding groove is provided with a through groove, the through groove is communicated with a positioning groove, the handle 15 is arranged above the fixing block 1, the screw rod 13 is arranged between the blade 12 and the handle 15, one end of the screw rod 13 is connected with the handle 15, the other end of the screw rod 13 penetrates through the sliding groove and the through groove in sequence to abut against the blade 12, the inner ring of the bearing 14 is provided with an inner thread matched with the screw rod 13, the screw rod 13 penetrates through a bearing 14, and the screw rod 13 is in threaded connection with the bearing 14.

In order to realize the reciprocating movement of the blade 12, thereby improving the cleaning effect and the cleaning efficiency, the reciprocating assembly comprises a rack 16, a moving block 17 and a driven unit, the bottom end inside the positioning groove is provided with a connecting groove, the cross section of the connecting groove is L-shaped, the connecting groove is positioned between two grooves, the moving block 17 is arranged in the connecting groove, the rack 16 is horizontally arranged in the positioning groove, the rack 16 is positioned at one side of a sliding block, the rack 16 is connected with the connecting groove in a sliding manner through the sliding block, the bottom end inside the cylindrical groove is provided with a communicating hole, one end of the communicating hole is communicated with the positioning groove, the other end of the communicating hole is communicated with the grooves, the driven unit is arranged in the communicating hole, the driven unit comprises a second bearing seat 18, a driven rod 19, a rotating plate 20 and a gear 21, the number of the second bearing seats 18 is two, and the two second bearing seats 18 are both arranged on the inner wall of the communicating hole, the two second bearing seats 18 are arranged oppositely, the driven rod 19 is arranged between the two second bearing seats 18, two ends of the driven rod 19 are connected with one second bearing seat 18 respectively, the rotating plate 20 is installed on the driven rod 19, the rotating plate 20 is in transmission connection with the driven rod 19, the gear 21 is sleeved on the driven rod 19, the gear 21 is in key connection with the driven rod 19, the gear 21 is located below the rotating plate 20, the gear 21 is meshed with the rack 16, and one end, far away from the gear 21, of the rack 16 abuts against the blade 12.

In order to increase the contact area between the blade 12 and the rack 16, so that the rack 16 can better drive the blade 12 to reciprocate through friction force, the end of the rack 16 far away from the gear 21 is provided with an anti-slip thread, and the rack 16 is abutted against the blade 12.

In order to realize the shock absorption of the motor 3, and simultaneously, the fixed block 1 can be more stably moved, and the push rod 11 can be prevented from being deformed due to too large stress, so as to protect the push rod 11, a shock absorption assembly is arranged between the connecting block 2 and the fixed block 1, the shock absorption assembly comprises an auxiliary rod 22, a second spring 23, a limiting plate 24 and a supporting plate 25, the limiting plate 24 and the supporting plate 25 are both arranged in the connecting block 2, the limiting plate 24 and the supporting plate 25 are just opposite to each other, the second spring 23 is arranged between the limiting plate 24 and the supporting plate 25, one end of the second spring 23 is connected with the supporting plate 25, the other end of the second spring 23 is connected with the limiting plate 24, one end of the supporting plate 25, which is far away from the second spring 23, is abutted against the motor 3, the auxiliary rod 22 is arranged between the fixed block 1 and the connecting block 2, one end of the auxiliary rod 22 is connected with the fixed block 1, the other end of the auxiliary rod 22 extends into the connecting block 2 to be connected with the limiting block, the auxiliary rod 22 is connected with the connecting block 2 in a sliding mode, and the second spring 23 is in a compression state.

Here, when the sealing plate 8 moves towards the fixing block 1, since the sealing plate 8 is slidably and hermetically connected with the groove, air inside the groove enters the positioning groove through the communication hole by the pushing of the sealing plate 8, air inside the communication hole flows to realize the rotation of the rotating plate 20, the rotating plate 20 drives the driven rod 19 to rotate, the driven rod 19 drives the gear 21 to rotate, the gear 21 drives the rack 16 to move, the driven rod 19 is freely rotatable because the driven rod 19 is connected through the second bearing seat 18, the rack 16 drives the blade 12 to move by the friction force between the rack 16 and the blade 12, the reciprocating movement of the sealing plate 8 is realized by the matching of the first spring 10 and the cam 7, the reciprocating movement of the blade 12 to the left and the right is realized, and the labor intensity of an operator is reduced, and can also promote clean effect, improve work efficiency, here through the linkage of same driving source realization to a plurality of mechanisms, improved the practicality of using.

Here realize the shock attenuation to motor 3 through damper, can also make fixed block 1 remove more stable simultaneously to can also prevent that catch bar 11 atress is too big and lead to warping, realize the protection to catch bar 11, here support to lean on board 25 to support with motor 3 all the time, realize the shock attenuation to motor 3 through the restoring force of second spring 23.

Here, when the blade 12 moves, the lead screw 13 is driven to move simultaneously, the lead screw 13 drives the bearing 14 to roll in the sliding groove, and the handle 15 is driven to move simultaneously, here, when the blade 12 needs to be replaced, only the handle 15 needs to be rotated, the handle 15 drives the lead screw 13 to rotate, because the lead screw 13 and the bearing 14 are in threaded connection, here, when the lead screw 13 rotates, the lead screw 13 is separated from the blade 12, so that the blade 12 is detached, here, through the matching of the sliding groove and the through groove, the lead screw 13 can move along with the movement of the blade 12.

Compared with the prior art, this basement membrane cleaning device that knurling equipment used realizes the cleanness to the main part through the cooperation of vibrations mechanism and cleaning mechanism, realize the removal to catch bar 11 here through motor 3, thereby realize reciprocating motion to blade 12 front and back, simultaneously when promoting fixed block 1 and remove, through the air current that produces between closing plate 8 and the recess, realize the operation to driven unit, realize reciprocating motion to about blade 12 through driven unit, thereby reduce operation workman's intensity of labour, and can also promote clean effect, improve work efficiency, realize the linkage to a plurality of mechanisms through same driving source here, the practicality of use has been improved.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims

1. The bottom membrane plate cleaning device for the embossing equipment is characterized by comprising a fixing block (1), a connecting block (2), a cleaning mechanism and a vibration mechanism, wherein the connecting block (2) is cylindrical, the connecting block (2) is horizontally arranged, the connecting block (2) is arranged in a hollow mode, the fixing block (1) is arranged on one side of the connecting block (2), the cleaning mechanism is arranged on the fixing block (1), and the vibration mechanism is arranged in the connecting block (2);

the vibration mechanism comprises a driving assembly and a vibration assembly, the driving assembly is arranged in a connecting block (2), the driving assembly comprises a motor (3), a fixing rod (4) and driving units, the motor (3) is a two-way motor (3), the motor (3) is vertically arranged in the connecting block (2), the fixing rod (4) is arranged on one side of the motor (3), one end of the fixing rod (4) is connected with the motor (3), the other end of the fixing rod (4) is connected with the inner wall of the connecting block (2) far away from one end of the fixing block (1), the driving units are two, the two driving units are respectively arranged at two ends of the motor (3), each driving unit comprises a first bearing seat (5), a rotating rod (6) and a cam (7), the first bearing seats (5) are arranged on the inner wall of the connecting block (2), the rotating rods (6) are arranged between the motor (3) and the first bearing seats (5), one end of the rotating rod (6) is installed on a rotating shaft of the motor (3), the other end of the rotating rod (6) is connected with the first bearing seat (5), the cam (7) is sleeved on the rotating rod (6), and the cam (7) is connected with the rotating rod (6) in a key mode;

one end of the fixing block (1) close to the connecting block (2) is provided with two cylindrical grooves, the two cylindrical grooves are symmetrically arranged about the axis of the connecting block (2), the vibration assemblies are two, the two vibration assemblies are respectively arranged in the two grooves, the vibration assemblies are positioned between the connecting block (2) and the fixing block (1), each vibration assembly comprises a sealing plate (8), a connecting ring (9), a first spring (10) and a push rod (11), the sealing plate (8) is arranged in the groove, the sealing plate (8) is in sliding connection with the groove, the connecting ring (9) is arranged on one side, close to the connecting block (2), of the sealing plate (8), the connecting ring (9) is positioned in the groove, the outer ring of the connecting ring (9) is connected with the inner wall of the groove, and the push rod (11) is arranged between the cam (7) and the sealing plate (8), one end of the pushing rod (11) penetrates through the connecting ring (9) to be connected with the sealing plate (8), the other end of the pushing rod (11) extends into the connecting block (2) to be abutted against the cam (7), the pushing rod (11) is in sliding connection with the connecting block (2), the first spring (10) is arranged between the sealing plate (8) and the connecting ring (9), the first spring (10) is sleeved on the pushing rod (11), one end of the first spring (10) is connected with the connecting ring (9), and the other end of the first spring (10) is connected with the sealing plate (8);

the one end that connecting block (2) was kept away from in fixed block (1) is equipped with vertical bar constant head tank, clean mechanism sets up in the constant head tank, clean mechanism includes blade (12), fixed subassembly and reciprocal subassembly, blade (12) set up in the constant head tank, blade (12) and constant head tank sliding connection, fixed subassembly sets up on fixed block (1), fixed subassembly is connected with blade (12), reciprocal subassembly sets up the bottom in the constant head tank inside, reciprocal subassembly is connected with blade (12).

2. A bottom film cleaning device for an embossing apparatus according to claim 1, wherein the fixing assembly comprises a plurality of fixing assemblies, each fixing assembly is uniformly arranged on the fixing block (1), the fixing assembly is arranged above the blade (12), the fixing assembly comprises a screw rod (13), a bearing (14) and a handle (15), the fixing block (1) is provided with a strip-shaped sliding groove, the cross section of the sliding groove is T-shaped, the bearing (14) is arranged in the sliding groove, the bearing (14) is in rolling connection with the sliding groove, the bottom end of the sliding groove is provided with a through groove, the through groove is communicated with a positioning groove, the handle (15) is arranged above the fixing block (1), the screw rod (13) is arranged between the blade (12) and the handle (15), one end of the screw rod (13) is connected with the handle (15), the other end of the screw rod (13) passes through the sliding groove and the through groove in turn to abut against the blade (12), the inner ring of the bearing (14) is provided with an internal thread matched with the screw rod (13), the screw rod (13) penetrates through the bearing (14), and the screw rod (13) is in threaded connection with the bearing (14).

3. The bottom substrate cleaning device for an embossing apparatus as set forth in claim 2, wherein the reciprocating assembly comprises a rack bar (16), a moving block (17), and a driven unit, the bottom end inside the positioning groove is provided with a connecting groove having an L-shaped cross section, the connecting groove is located between two grooves, the moving block (17) is located inside the connecting groove, the rack bar (16) is horizontally located inside the positioning groove, the rack bar (16) is located at one side of the slider, the rack bar (16) is slidably connected with the connecting groove through the slider, the bottom end inside the cylindrical groove is provided with a communication hole, one end of the communication hole is communicated with the positioning groove, the other end of the communication hole is communicated with the groove, the driven unit is located inside the communication hole, the driven unit comprises a second bearing seat (18), a driven rod (19), a rotating plate (20), and a gear (21), the utility model discloses a cutting tool, including connecting rod, driven rod, gear (21), driven rod (19), gear (21), second bearing frame (18), two second bearing frame (18) have two, and two second bearing frame (18) all set up on the inner wall of intercommunicating pore, and two second bearing frame (18) are just to setting up, driven rod (19) set up between two second bearing frame (18), the both ends of driven rod (19) are connected with one second bearing frame (18) respectively, rotor plate (20) are installed on driven rod (19), rotor plate (20) are connected with driven rod (19) transmission, gear (21) cover is established on driven rod (19), gear (21) and driven rod (19) key-type connection, gear (21) are located the below of rotor plate (20), gear (21) and rack (16) meshing, the one end that gear (21) were kept away from in rack (16) supports with blade (12) and leans on.

4. A cleaning device for a bottom film plate for an embossing apparatus as claimed in claim 3, wherein the rack (16) is provided with an anti-slip pattern at an end thereof remote from the gear (21), the rack (16) abutting against the blade (12).

5. A bottom membrane cleaning device for an embossing apparatus according to claim 1, wherein a damping assembly is provided between the connecting block (2) and the fixing block (1), the damping assembly comprises an auxiliary rod (22), a second spring (23), a limiting plate (24) and a support plate (25), the limiting plate (24) and the support plate (25) are both disposed in the connecting block (2), the limiting plate (24) and the support plate (25) are disposed just opposite to each other, the second spring (23) is disposed between the limiting plate (24) and the support plate (25), one end of the second spring (23) is connected to the support plate (25), the other end of the second spring (23) is connected to the limiting plate (24), one end of the support plate (25) far away from the second spring (23) is supported to the motor (3), the auxiliary rod (22) is disposed between the fixing block (1) and the connecting block (2), the one end and the fixed block (1) of auxiliary rod (22) are connected, the other end of auxiliary rod (22) stretches into in connecting block (2) and is connected with the stopper, auxiliary rod (22) and connecting block (2) sliding connection, second spring (23) are in compression state.