CN114633012B - Processing equipment for metal fireproof composite board - Google Patents

Abstract

The invention relates to the technical field of metal compounding, and discloses processing equipment for a metal fireproof composite board, which comprises a rotating body, wherein the rotating body is rotationally arranged on a base, end covers are arranged at two ends of the rotating body, a plurality of auxiliary processing units which are uniformly distributed in an annular array manner are arranged on the periphery of the rotating body, and each auxiliary processing unit comprises a first fixed plate and a first movable plate; the base is also provided with a main processing unit, the main processing unit comprises a main processing seat, one surface of the main processing seat, which is close to the rotating body, is provided with a cambered surface parallel to the outer circular surface of the rotating body, and one surface of the main processing seat, which is close to the rotating body, is provided with a second fixed plate and a second movable plate; a processing cavity is formed among the main processing unit, the rotating body and the end cover; the invention can provide a sealed space for the explosive cladding of the metal composite plate through the main processing unit and the auxiliary processing unit, and can open the space in time after the explosive cladding, thereby avoiding the damage of the mechanism.

Description

Processing equipment for metal fireproof composite board

Technical Field

The invention relates to the field of metal compounding, in particular to processing equipment for a metal fireproof composite plate.

Background

The explosion composite board has excellent application performance, can be subjected to cold and hot processing without changing the thickness of the composite material, and has higher bonding strength than the composite material.

Disclosure of Invention

The invention provides a processing device of a metal fireproof composite board, which solves the technical problem that metal composite is not suitable for industrialization in the related technology.

According to one aspect of the invention, the processing equipment for the metal fireproof composite board comprises a rotating body, wherein the rotating body is rotatably arranged on a base, end covers are arranged at two ends of the rotating body, a plurality of auxiliary processing units which are uniformly distributed in an annular array are arranged on the periphery of the rotating body, each auxiliary processing unit comprises a first fixed plate and a first movable plate, the first fixed plate is fixedly connected with the rotating body, and the first movable plate is rotatably connected with the rotating body through a first movable rotating shaft; the included angle between the fixing plates of two adjacent secondary processing units is alpha, and alpha =360 °/n, wherein n is the number of the secondary processing units.

The base is also provided with a main processing unit, the main processing unit comprises a main processing seat, one surface of the main processing seat close to the rotating body is provided with a cambered surface parallel to the outer circular surface of the rotating body, one surface of the main processing seat close to the rotating body is provided with a second fixed plate and a second movable plate, the second fixed plate is fixedly connected with the main processing seat, the second movable plate is rotatably connected with the main processing seat through a second movable rotating shaft, and the axes of the first movable rotating shaft and the second movable rotating shaft are parallel to the rotating axis of the rotating body;

a processing cavity is formed among the main processing unit, the rotating body and the end cover;

one surface of the first movable plate, which is close to the rotating body, is provided with a first spring pin, the rotating body is provided with a first sliding cavity matched with the first spring pin, and a first channel communicated with the first sliding cavity and the processing cavity is arranged in the rotating body;

a second spring pin is arranged on one surface, close to the main processing seat, of the second movable plate, a second sliding cavity matched with the second spring pin is arranged on the main processing seat, and a second channel communicated with the second sliding cavity and the processing cavity is arranged in the main processing seat;

the center of the rotating body is provided with a main shaft which is a hollow shaft, the center of the rotating body is provided with a cylindrical cavity, two ends of the main shaft are sealed, and a third channel for communicating the cylindrical cavity of the main shaft with the processing cavity is arranged in the rotating body; the end cover or the main shaft is connected with the base through a bearing.

The base is provided with a first driving mechanism used for driving the rotating body to rotate, the first driving mechanism comprises a grooved wheel and a driving disk, the grooved wheel is fixedly arranged on the main shaft, the grooved wheel is provided with poking grooves with the number equal to that of the secondary processing units, the driving disk is connected with the base through a driving shaft, the driving shaft is connected with the output end of a first rotating power source, a driving gear is fixedly arranged on the driving shaft and meshed with a driven gear, the driven gear is connected with the output end of the first rotating power source, the driving shaft is also a hollow shaft, two ends of the driving shaft are sealed, the inner cavity of the driving shaft is connected with the cylindrical cavity of the main shaft through a pipeline, the driving disk is provided with a poking pin and a limiting block, the poking pin is in clearance fit with the poking grooves of the grooved wheel, the limiting block is integrally semicircular and is arranged concentrically with the driving shaft, the grooved wheel is provided with a semicircular groove matched with the limiting block, and the diameter of the limiting block is equal to that of the semicircular groove, the number of the semicircular grooves on the grooved wheel is the same as that of the shifting grooves of the grooved wheel, an arc-shaped plate is arranged in the limiting block, the arc-shaped plate is rotatably connected with the limiting block through a pin shaft, a first torsion spring for resetting the arc-shaped plate is arranged on the pin shaft, a containing groove for containing the arc-shaped plate is arranged on the limiting block, the arc-shaped plate can completely enter the containing groove, a third spring pin is arranged on the bottom surface of the arc-shaped plate, a third sliding cavity matched with the third spring pin is arranged at the bottom of the arc-shaped plate, a fourth sliding cavity matched with the third spring pin is arranged on the limiting block, and a fourth channel for communicating the fourth sliding cavity with the inner cavity of the driving shaft is arranged in the limiting block;

a second torsion spring is arranged on the first movable rotating shaft and the second movable rotating shaft, a resetting push block is arranged on the base and connected with the first linear driving mechanism, a first piston is arranged on one side, close to the second movable plate, of the resetting push block, and a second piston is arranged on one side, far away from the second movable plate, of the resetting push block; a piston cylinder matched with the first piston and the second piston is arranged in the resetting push block and is connected with an air supply pipe or a liquid supply pipe.

The second channel is provided with a connector, the connector is provided with a valve, and the connector can be connected with a high-pressure gas pipeline or a water pipe.

Furthermore, arc-shaped grooves concentric with the main shaft are formed in the front end face and the rear end face of the main processing seat, and circular protrusions matched with the arc-shaped grooves of the main processing seat are arranged on the end covers.

Furthermore, the first movable plate of the secondary processing unit and the second movable plate of the primary processing unit are reset through a reset mechanism, the reset mechanism comprises a second torsion spring arranged on the first movable rotating shaft and the second movable rotating shaft, a reset push block is arranged on the base, and the reset push block is connected with the first linear driving mechanism. The thickness of the reset push block at one end far away from the rotating body is larger than that of the reset push block at one end close to the rotating body.

Furthermore, the bottom of the main processing seat of the main processing unit is connected with the base through a sliding rail, and a second linear driving mechanism for driving the main processing seat to move along the sliding rail is arranged on the base.

The invention has the beneficial effects that:

the invention can provide a sealed space for the explosive cladding of the metal composite plate through the main processing unit and the auxiliary processing unit, is convenient for the industrialized processing of the arc-shaped composite plate, and can open the space in time after the explosive cladding, thereby avoiding the damage of the mechanism;

the invention can realize the automatic transposition of a plurality of auxiliary processing units and improve the processing speed.

Drawings

Fig. 1 is a front view of a processing apparatus for a metal fire-retardant composite panel according to a first embodiment of the present invention;

FIG. 2 is a rear view of a processing apparatus for fireproof composite metal panels according to a first embodiment of the present invention;

FIG. 3 is a schematic view of the present invention of FIG. 1 with the front end cap removed;

FIG. 4 is a front view of the rotator of the present invention;

FIG. 5 is an enlarged view at A of FIG. 4;

FIG. 6 is a schematic cross-sectional view of a rotating body and a main processing unit of the present invention;

FIG. 7 is an enlarged view at B of FIG. 6;

figure 8 is a schematic view of the drive plate and sheave configuration of the present invention;

FIG. 9 is a schematic view of the drive disc of the present invention;

FIG. 10 is a cross-sectional view A-A of the stop of the present invention;

FIG. 11 is a schematic cross-sectional view of a stop of the present invention;

FIG. 12 is a schematic view of the drive plate drive sheave rotation of the present invention;

fig. 13 is a schematic structural diagram of a processing device of a metal fireproof composite board according to a second embodiment of the invention;

FIG. 14 is a schematic view of a second processing sub-unit according to a second embodiment of the present invention before it is transposed;

fig. 15 is a schematic view during the exchange of the sub-processing unit according to the second embodiment of the present invention;

FIG. 16 is a schematic illustration of the extension of the first piston and the second piston of the second embodiment of the present invention;

fig. 17 is a schematic structural diagram of processing equipment for a metal fireproof composite board according to a third embodiment of the present invention.

In the figure: the machining device comprises a base 100, a rotating body 101, an end cover 102, a secondary machining unit 103, a first fixing plate 104, a first movable plate 105, a main shaft 106, a primary machining seat 201, a second fixing plate 202, a second movable plate 203, a machining cavity 301, a first spring pin 302, a first channel 303, a second spring pin 304, a second channel 305, a third channel 306, a grooved wheel 401, a driving disc 402, a driving shaft 403, a first rotating power source 404, a toggle pin 405, a limiting block 406, a semicircular groove 407, an arc-shaped plate 408, a receiving groove 409, a third spring pin 410, a third sliding cavity 411, a fourth sliding cavity 412, a fourth channel 413, a reset push block 501, a first linear driving mechanism 502, a first piston 503, a second piston 504 and a second linear driving mechanism 601.

Detailed Description

The subject matter described herein will now be discussed with reference to example embodiments. It should be understood that these embodiments are discussed only to enable those skilled in the art to better understand and thereby implement the subject matter described herein, and are not intended to limit the scope, applicability, or examples set forth in the claims. Changes may be made in the function and arrangement of elements discussed without departing from the scope of the disclosure. Various examples may omit, substitute, or add various procedures or components as necessary. In addition, features described with respect to some examples may also be combined in other examples.

Example one

As shown in fig. 1 to 12, a processing apparatus for a metal fireproof composite board includes a rotating body 101, the rotating body 101 is rotatably disposed on a base 100, two ends of the rotating body 101 are provided with end caps 102, a plurality of secondary processing units 103 are uniformly distributed in an annular array are disposed on the periphery of the rotating body 101, each secondary processing unit 103 includes a first fixing plate 104 and a first movable plate 105, the first fixing plate 104 is fixedly connected to the rotating body 101, and the first movable plate 105 is rotatably connected to the rotating body 101 through a first movable rotating shaft;

the base 100 is further provided with a main processing unit, the main processing unit comprises a main processing seat 201, one surface of the main processing seat 201, which is close to the rotating body 101, is provided with a cambered surface parallel to the excircle surface of the rotating body 101, one surface of the main processing seat 201, which is close to the rotating body 101, is provided with a second fixed plate 202 and a second movable plate 203, the second fixed plate 202 is fixedly connected with the main processing seat 201, the second movable plate 203 is rotatably connected with the main processing seat 201 through a second movable rotating shaft, and the axes of the first movable rotating shaft and the second movable rotating shaft are parallel to the rotating axis of the rotating body 101;

a processing cavity 301 is formed among the main processing unit, the rotating body 101 and the end cover 102;

a first spring pin 302 is arranged on one surface, close to the rotating body 101, of the first movable plate 105, a first sliding cavity matched with the first spring pin 302 is arranged on the rotating body 101, and a first channel 303 communicated with the first sliding cavity and the processing cavity 301 is arranged in the rotating body 101;

one surface of the second movable plate 203, which is close to the main processing seat 201, is provided with a second spring pin 304, a second sliding cavity matched with the second spring pin 304 is arranged on the main processing seat 201, and a second channel 305 communicating the second sliding cavity with the processing cavity 301 is arranged in the main processing seat 201;

a main shaft 106 is arranged at the center of the rotating body 101, the main shaft 106 is a hollow shaft, a cylindrical cavity is arranged at the center, two ends of the main shaft 106 are sealed, and a third channel 306 for communicating the cylindrical cavity of the main shaft 106 with the processing cavity 301 is arranged in the rotating body 101;

the base 100 is provided with a first driving mechanism for driving the rotating body 101 to rotate, the first driving mechanism comprises a sheave 401 and a driving disc 402, the sheave 401 is fixedly arranged on the main shaft 106, the sheave 401 is provided with dial grooves with the same number as that of the secondary processing units 103, the driving disc 402 is connected with the base 100 through a driving shaft 403, the driving shaft 403 is connected with an output end of a first rotating power source 404, the driving shaft 403 is also a hollow shaft with two sealed ends, an inner cavity of the driving shaft 403 is connected with a cylindrical cavity of the main shaft 106 through a pipeline, the driving disc 402 is provided with a dial pin 405 and a limit block 406, the dial pin 405 is in clearance fit with the dial groove of the sheave 401, the limit block 406 is integrally semicircular and is arranged concentrically with the driving shaft 403, the sheave 401 is provided with a semicircular groove 407 sheave matched with the limit block 406, the number of the semicircular grooves 407 on the sheave 401 is the same as that of the dial groove of the sheave 401, and the limit block 406 is provided with an arc-shaped plate 408, the arc-shaped plate 408 is rotatably connected with the limiting block 406 through a pin shaft, the pin shaft is provided with a first torsion spring for resetting the arc-shaped plate 408, the limiting block 406 is provided with an accommodating groove 409 for accommodating the arc-shaped plate 408, the arc-shaped plate 408 can completely enter the accommodating groove 409, the bottom surface of the arc-shaped plate 408 is provided with a third spring pin 410, the bottom of the arc-shaped plate 408 is provided with a third sliding cavity 411 matched with the third spring pin 410, the limiting block 406 is provided with a fourth sliding cavity 412 matched with the third spring pin 410, and a fourth channel 413 for communicating the fourth sliding cavity 412 with the inner cavity of the driving shaft 403 is arranged in the limiting block 406;

the included angle between the fixing plates of two adjacent sub-processing units 103 is α, α =360/n, where n is the number of sub-processing units 103.

Firstly, arranging a explosive layer on the surface of the rotating body 101 between the first fixed plate 104 and the first movable plate 105 of the secondary processing unit 103, and arranging a first metal plate on the explosive layer, and a second metal plate between the second fixed plate 202 and the second movable plate 203 of the primary processing unit;

in the above embodiment of the present invention, since the grooved wheel 401 is provided with the same number of dial grooves corresponding to the secondary processing units 103, the driving disc 402 rotates one cycle to drive the grooved wheel 401 to rotate a fixed angle, so that the next secondary processing unit 103 moves to a position matched with the primary processing unit;

after the secondary processing unit 103 is moved to the right position, as the driving pin 405 of the driving disc 402 is disengaged from the sheave 401, the stop block 406 of the driving disc 402 gradually enters the semi-circular groove 407 of the sheave 401, as the driving disc 402 continues to rotate, the arc-shaped plate 408 protruding out of the stop block 406 starts to contact the semi-circular groove 407 of the sheave 401, since the stop block 406 is of the same diameter as the semi-circular slot 407, the arc 408 will cause a portion of the torque of the drive plate 402 to be transmitted to the sheave 401, but the secondary processing unit 103 has moved to the position of cooperating with the primary processing unit, the first movable plate 105 is blocked by the second fixed plate 202, the first fixed plate 104 is blocked by the second movable plate 203, the sheave 401 can not rotate any more, this enables the torque exerted on the driving disc 402 to be converted into the pressure between the first movable plate 105 and the second fixed plate 202 and between the first fixed plate 104 and the second movable plate 203;

meanwhile, the front end and the rear end of the processing cavity 301 are sealed by the end covers 102, so that the processing cavity 301 is sealed more tightly;

igniting the explosive layer in the processing cavity 301, wherein the first metal plate and the second metal plate are explosively compounded with the ignition of the explosive, during the process, the air pressure inside the processing cavity 301 is greatly increased, high-pressure air enters the first sliding cavity and the second sliding cavity from the first channel 303 and the second channel 305, the first spring pin 302 of the first movable plate 105 and the second spring pin 304 on the second movable plate 203 are ejected, the first movable plate 105 and the second movable plate 203 are ejected and rotated due to the air pressure, the first movable plate 105 is separated from the second fixed plate 202, and the second movable plate 203 is separated from the second fixed plate 202; meanwhile, high-pressure gas enters the main shaft 106 from the third channel 306, then enters the driving shaft 403 and then enters the fourth sliding cavity 412 to jack up the third spring pin 410 of the arc-shaped plate 408, the arc-shaped plate 408 is pressed into the limiting block 406, the driving plate 402 can normally rotate, the driving plate 402 drives the auxiliary processing unit 103 to reset along with the continuous rotation of the driving plate 402, and the arc-shaped plate 408 resets due to the first torsion spring after the limiting block 406 is separated from the semi-circular groove 407.

The second channel 305 is provided with a connector, the connector is provided with a valve, and the connector can be connected with a high-pressure gas pipeline or a water pipe to clean the first channel 303, the second channel 305 and the third channel 306.

Further, a connection for connecting a high-pressure gas pipe or a water pipe may be provided in the first passage 303 and the third passage 306.

In one embodiment of the invention, the stop block 406 has the same diameter as the semi-circular slot 407.

In one embodiment of the present invention, the first movable plate 105 of the secondary processing unit 103 and the second movable plate 203 of the primary processing unit are manually reset.

In one embodiment of the invention, a gap is provided between the first metal plate and the second metal plate.

In an embodiment of the present invention, the front and rear end surfaces of the main processing seat 201 are provided with arc-shaped grooves concentric with the main shaft 106, and the end cover 102 is provided with a circular protrusion matching with the arc-shaped grooves of the main processing seat 201. The circular protrusion is matched with the arc-shaped groove, so that the sealing between the main processing seat 201 and the end cover 102 can be enhanced.

In one embodiment of the invention, the drive shaft 403 and the main shaft 106 are connected to the conduit by a rotary joint.

In one embodiment of the present invention, a driving gear is fixed to the driving shaft 403, and the driving gear is engaged with a driven gear connected to an output end of the first rotary power source 404.

In the above embodiments of the present invention, the first rotary power source 404 may be an electric motor, a hydraulic motor, or other devices capable of outputting torque, or a hand wheel may be used.

In the above embodiments of the present invention, the end cap 102 or the main shaft 106 is coupled to the base 100 through a bearing.

Example two

As shown in fig. 13 to 16, different from the first embodiment, the first movable plate 105 of the secondary processing unit 103 and the second movable plate 203 of the primary processing unit are reset by a resetting mechanism, the resetting mechanism includes a second torsion spring disposed on the first movable rotating shaft and the second movable rotating shaft, the base 100 is provided with a resetting push block 501, and the resetting push block 501 is connected to the first linear driving mechanism 502; a first piston 503 is arranged on one side of the reset push block 501 close to the second movable plate 203, a second piston 504 is arranged on one side far away from the second movable plate 203, a piston cylinder matched with the first piston 503 and the second piston 504 is arranged in the reset push block 501, the piston cylinder is connected with an air supply pipe or a liquid supply pipe, and the expansion and contraction of the first piston 503 and the second piston 504 are controlled through hydraulic pressure.

After the secondary processing unit 103 is disengaged from the primary processing unit, the first movable plate 105 and the second movable plate 203 are initially reset by the second torsion spring, but cannot be completely reset due to the restriction of the first spring pin 302 and the second spring pin 304, at this time, the reset push block 501 is driven by the first linear driving mechanism 502 to move towards the rotating body 101, and is inserted between the first movable plate 105 of the secondary processing unit 103 and the second movable plate 203 of the primary processing unit, the first piston 503 and the second piston 504 extend outwards, so as to push the first movable plate 105 of the secondary processing unit 103 and the second movable plate 203 of the primary processing unit to reset, then the first piston 503 and the second piston 504 retract, and the first linear driving mechanism 502 drives the reset push block 501 to reset.

EXAMPLE III

As shown in fig. 17, unlike the first and second embodiments, the bottom of the main processing base 201 of the main processing unit is connected to the base 100 by a sliding rail, the base 100 is provided with a second linear driving mechanism 601 for driving the main processing base 201 to move along the sliding rail, and the distance between the main processing base 201 and the rotating body 101 can be changed by moving along the sliding rail.

The second linear driving mechanism 601 can separate the main processing holder 201 from the rotating body 101, thereby facilitating the installation of the second metal plate on the main processing holder 201.

The embodiments of the present invention have been described with reference to the drawings, but the present invention is not limited to the above-mentioned specific embodiments, which are only illustrative and not restrictive, and those skilled in the art can make many forms without departing from the spirit and scope of the present invention and the protection scope of the claims.

Claims (10)

1. The processing equipment for the metal fireproof composite board is characterized by comprising a rotating body, wherein the rotating body is rotatably arranged on a base, end covers are arranged at two ends of the rotating body, a plurality of auxiliary processing units which are uniformly distributed in an annular array are arranged on the periphery of the rotating body, each auxiliary processing unit comprises a first fixed plate and a first movable plate, the first fixed plate is fixedly connected with the rotating body, and the first movable plate is rotatably connected with the rotating body through a first movable rotating shaft;

the base is also provided with a main processing unit, the main processing unit comprises a main processing seat, one surface of the main processing seat close to the rotating body is provided with a cambered surface parallel to the outer circular surface of the rotating body, one surface of the main processing seat close to the rotating body is provided with a second fixed plate and a second movable plate, the second fixed plate is fixedly connected with the main processing seat, the second movable plate is rotatably connected with the main processing seat through a second movable rotating shaft, and the axes of the first movable rotating shaft and the second movable rotating shaft are parallel to the rotating axis of the rotating body;

a processing cavity is formed among the main processing unit, the rotating body and the end cover;

a first spring pin is arranged on one surface, close to the rotating body, of the first movable plate, a first sliding cavity matched with the first spring pin is arranged on the rotating body, and a first channel communicated with the first sliding cavity and the processing cavity is arranged in the rotating body;

a second spring pin is arranged on one surface, close to the main processing seat, of the second movable plate, a second sliding cavity matched with the second spring pin is arranged on the main processing seat, and a second channel communicated with the second sliding cavity and the processing cavity is arranged in the main processing seat;

the center of the rotating body is provided with a main shaft which is a hollow shaft, the center of the rotating body is provided with a cylindrical cavity, two ends of the main shaft are sealed, and a third channel for communicating the cylindrical cavity of the main shaft with the processing cavity is arranged in the rotating body;

the base is provided with a first driving mechanism used for driving the rotating body to rotate, the first driving mechanism comprises a grooved wheel and a driving disc, the grooved wheel is fixedly arranged on the main shaft, the grooved wheel is provided with poking grooves with the number equal to that of the auxiliary processing units, the driving disc is connected with the base through a driving shaft, the driving shaft is connected with the output end of a first rotary power source, the driving shaft is also a hollow shaft, two ends of the driving shaft are sealed, the inner cavity of the driving shaft is connected with the cylindrical cavity of the main shaft through a pipeline, the driving disc is provided with a poking pin and a limiting block, the poking pin is in clearance fit with the poking grooves of the grooved wheel, the limiting block is integrally semicircular and is concentrically arranged with the driving shaft, the grooved wheel is provided with a semicircular groove matched with the limiting block, the number of the semicircular groove on the grooved wheel is equal to that of the poking grooves of the grooved wheel, an arc-shaped plate is arranged in the limiting block, the arc-shaped plate is rotatably connected with the limiting block through a pin shaft, and the first torsion spring used for resetting of the arc-shaped plate is arranged on the pin shaft, the limiting block is provided with a containing groove used for containing the arc-shaped plate, the arc-shaped plate can completely enter the containing groove, the bottom surface of the arc-shaped plate is provided with a third spring pin, the bottom of the arc-shaped plate is provided with a third sliding cavity matched with the third spring pin, the limiting block is provided with a fourth sliding cavity matched with the third spring pin, and a fourth channel communicated with the fourth sliding cavity and the inner cavity of the driving shaft is arranged in the limiting block;

the first movable rotating shaft and the second movable rotating shaft are provided with second torsional springs, the base is provided with a reset push block, the reset push block is connected with the first linear driving mechanism, one side of the reset push block, which is close to the second movable plate, is provided with a first piston, and one side of the reset push block, which is far away from the second movable plate, is provided with a second piston.

2. The processing equipment for the fireproof metal composite boards according to claim 1, wherein the included angle between the fixing plates of two adjacent secondary processing units is α, α =360 °/n, where n is the number of the secondary processing units.

3. The processing equipment for the fireproof metal composite plates according to claim 1, wherein the second channel is provided with a connector, the connector is provided with a valve, and the connector can be connected with a high-pressure gas pipeline or a water pipe.

4. The processing equipment for the metal fireproof composite board according to claim 1, wherein the diameter of the limiting block is the same as that of the semicircular groove.

5. The processing equipment of the metal fireproof composite boards according to claim 1, wherein the front and rear end surfaces of the main processing seat are provided with arc grooves concentric with the main shaft, and the end covers are provided with circular protrusions matched with the arc grooves of the main processing seat.

6. The apparatus as claimed in claim 1, wherein the driving shaft is fixed with a driving gear, the driving gear is engaged with a driven gear, and the driven gear is connected to an output end of the first rotary power source.

7. The processing equipment for the metal fireproof composite board according to claim 1 or 5, wherein the end cover or the main shaft is connected with the base through a bearing.

8. The processing equipment for the metal fireproof composite board according to claim 1, wherein a piston cylinder matched with the first piston and the second piston is arranged in the reset push block.

9. The apparatus of claim 8, wherein the piston cylinder is connected to a gas supply pipe or a liquid supply pipe.

10. The processing equipment for the metal fireproof composite boards according to claim 1, wherein the bottom of the main processing seat of the main processing unit is connected with a base through a sliding rail in a sliding manner, and a second linear driving mechanism for driving the main processing seat to move along the sliding rail is arranged on the base.

Images