CN111439537A - Foamed ceramic composite board mould box conveying system - Google Patents

Abstract

The invention discloses a foamed ceramic composite board mold box conveying system which comprises mold box conveying rails and composite board mold boxes arranged on the mold box conveying rails, wherein the composite board mold boxes can slide along the mold box conveying rails under the driving of a rail power device, a plurality of mold box conveying rails are arranged in parallel at intervals, two ends of each mold box conveying rail are respectively provided with a ferry vehicle slide way perpendicular to the mold box conveying rails, two ferry vehicle slide ways are respectively provided with a ferry vehicle capable of sliding along the ferry vehicle slide way, two ferry vehicles are respectively provided with a mold box driving device and a mold box rail capable of being connected with the mold box conveying rails, and the mold box driving device can drive the composite board mold boxes to move back and forth on the mold box conveying rails and the mold box rails. According to the invention, a plurality of parallel mould box conveying rails are connected into an integral conveying system through the ferry vehicle, so that the space is effectively saved, and the labor and production cost is reduced; the utilization rate of the mould box conveying track is improved, the number of the composite board mould boxes is increased, and the productivity is improved.

Description

Foamed ceramic composite board mould box conveying system

Technical Field

The invention belongs to the field of conveying systems, and particularly relates to a foamed ceramic composite board mold box conveying system.

Background

The foamed ceramic composite board is composed of two foamed ceramic plates and polyphenyl granule concrete between the two foamed ceramic plates, and the foamed ceramic composite board mould box is used for casting and forming the foamed ceramic composite board, namely, the polyphenyl granule concrete is filled between the two foamed ceramic plates, and finally, the complete foamed ceramic composite board is formed.

Because the forming process needs the waiting of longer time, in order to improve production efficiency, increase the productivity, and avoid production facility to wait for a long time, can adopt a plurality of foamed ceramic composite board mold boxes to recycle usually, avoid appearing all foamed ceramic composite board mold boxes and all being in the user state and leading to the condition that no mold box is available to take place, and foamed ceramic composite board mold box volume and quality are great, need carry out rational arrangement under the limited condition of factory building area, current mode sets up many parallel mold box delivery tracks between two driving, with foamed ceramic composite board mold box between the mold box delivery track of difference through the driving, round trip movement between mold box delivery track and the pouring position, this kind of mode has following problem: 1. the travelling crane needs to be manually controlled, the operation error is large, the mould box is easy to damage, and meanwhile, the labor cost is high; 2. a mould box conveying track is required to be specially used for conveying empty mould boxes, so that the utilization rate of the mould box conveying track is low, and the number of the mould boxes is limited; 3. the travelling crane consumes energy greatly, and the foamed ceramic composite board mould box poured at the pouring position needs to be transported to different mould box conveying rails for waiting for forming, so that the production efficiency is reduced, and the energy conservation and environmental protection are not facilitated.

Disclosure of Invention

In view of the above technical problems, the present invention aims to provide a foamed ceramic composite board mold box conveying system for a foamed ceramic composite board, which has a high mold box conveying track utilization rate, can shorten the circulation route of a composite board mold box, has a high automation degree, effectively improves the production efficiency, and reduces the production cost.

Therefore, the technical scheme adopted by the invention is as follows: a mould box conveying system for foamed ceramic composite boards comprises a mould box conveying track and a composite board mould box arranged on the mould box conveying track, the composite board mould box can slide along the mould box conveying track under the driving of the track power device, a plurality of mould box conveying tracks are arranged in parallel at intervals, the two ends of each mould box conveying track are respectively provided with a ferry vehicle slideway vertical to the mould box conveying track, the two ferry vehicle slideways are respectively provided with a ferry vehicle capable of sliding along the ferry vehicle slideway, the two ferry cars are respectively provided with a mould box driving device and a mould box track which can be connected with the mould box conveying track, the mould box driving device can drive the composite plate mould box to move back and forth on the mould box conveying track and the mould box track, thereby enabling the ferry vehicle to move the composite plate mould box on the mould box conveying track to the other mould box conveying track.

Preferably, the mould box driving device comprises a fixed base in the same extending direction as the mould box track, a sliding installation seat is arranged on the fixed base, and the motor can drive the sliding installation seat to slide along a sliding groove on the fixed base through a gear rack mechanism;

and the sliding installation seat is provided with a pushing mechanism for pushing the composite plate mould box and a pulling mechanism for pulling the composite plate mould box. By adopting the structure, the mould box driving device has stable and reliable structure, sufficient power and stable operation.

Preferably, the pulling mechanism comprises a hinged base and a driving block hinged on the base, when the driving block is located at an initial position, the upper part of the driving block protrudes upwards out of the hinged base, a support lug matched with the driving block is arranged at the bottom of the composite plate mold box, and when the sliding mounting seat slides along the sliding groove, so that the protruding part of the driving block is in contact with the support lug, the driving block can rotate under the driving of the support lug to realize abdication and can return to the initial position after being separated from the support lug, so that the composite plate mold box can be pulled through the support lug;

the lower part of the driving block is provided with a horizontally extending tripping rod, two ends of the mould box conveying track are respectively provided with a tripping device, and when the driving block is close to the tripping devices, the tripping devices can force the tripping rod to lift up, so that the driving block rotates, and the tripping of the driving block and the support lug is realized. By adopting the structure, the pulling mechanism is ingenious in design, simple and reliable in structure, and the working process is completely free of manual intervention.

Preferably, the upper end surface of the tripping device is an arc-shaped surface, and the height of the arc-shaped surface is gradually reduced towards the direction close to the ferry slide way. By adopting the structure, the tripping mode is simple and reliable.

Preferably, auxiliary supporting devices for assisting in supporting the composite board mold box are symmetrically arranged on two sides of the mold box conveying rail, each auxiliary supporting device is provided with an elastic supporting portion, each elastic supporting portion is of a symmetrical arc structure, the height of each elastic supporting portion gradually decreases from the middle to two ends, and the extending directions of the elastic supporting portions and the mold box conveying rail are the same. By adopting the structure, the auxiliary supporting device is used for supporting the composite plate mould box in an auxiliary mode, the deformation of the mould box conveying track is effectively avoided, the structure is simple and reliable, and the resistance generated on the conveying of the composite plate mould box is avoided.

Preferably, the number of the mould box conveying tracks is double, and the conveying directions of two adjacent mould box conveying tracks are opposite. Structure more than adopting does benefit to and arranges the composite sheet mould case according to pouring time, and the drawing of patterns in order avoids the foamed ceramic composite sheet not enough at composite sheet mould incasement shaping time, and simultaneously, the circulation route of composite sheet mould case is smooth orderly.

Preferably, the composite board mold box is a mold box body enclosed by a bottom plate, a front side plate, a rear side plate, a left side plate and a right side plate, a plurality of vertical clamping grooves which vertically extend and are distributed at even intervals are arranged on the inner side walls of the left side plate and the right side plate, and the vertical clamping grooves of the left side plate and the right side plate are arranged in a bilateral symmetry mode. By adopting the structure, the composite board mould box is not required to be provided with the partition board, so that the phenomenon that the surface of the foamed ceramic composite board is uneven and the quality is influenced due to the separation of the foamed ceramic composite board and the partition board is avoided.

As preferred, the left side board is articulated with the bottom plate set up the horizontal draw-in groove that extends around two at least on the bottom plate, in the horizontal draw-in groove of right side board embedding both ends are provided with ability forward and backward rotation's screw rod respectively around left side board and the right side board top the corresponding position of preceding curb plate and posterior lateral plate upper end is provided with the screw rod fixing base respectively be provided with the scarce groove that supplies the screw rod to pass on the screw rod fixing base, the screw rod passes behind the scarce groove that corresponds with fastening handle threaded connection, can take-up the screw rod that corresponds through rotating fastening handle to fixed left side board and right side board. By adopting the structure, the position of the right side plate can be adjusted, so that the composite plate mould box can be suitable for foamed ceramic composite plates with different lengths, and the application range is wide; the composite plate mould box is easy to operate when opened, and demoulding is convenient; the side plate and the right side plate are fixed from the upper side and the lower side respectively, and the structure is stable and reliable.

Preferably, the width of the vertical card slot on the frontmost side and the width of the vertical card slot on the rearmost side are half of the width of the remaining vertical card slots. Structure more than adopting, the thickness of the foamed ceramic plate of putting into in the vertical draw-in groove of both sides around just is half of the foamed ceramic plate thickness in the vertical draw-in groove of centre for need not the foamed ceramic plate of both sides around the secondary cutting when the cutting, improve production efficiency, avoid the material extravagant.

The invention has the beneficial effects that: 1. a plurality of parallel mould box conveying rails are connected into an integral conveying system through a ferry vehicle, compared with a travelling crane, the space is effectively saved, the automation degree is high, and the labor and production cost is reduced; 2. a mould box conveying track is not required to be specially used for conveying empty composite plate mould boxes, so that the utilization rate of the mould box conveying track is improved, the number of the composite plate mould boxes is increased, and the productivity is improved; 3. the poured foaming ceramic composite board mould boxes do not need to be transported to different mould box conveying rails for waiting for forming, so that the production efficiency is improved, and the energy consumption is reduced; 4. the damage of the plywood mold box caused by manual operation errors is avoided.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the present invention (except for the composite plate mold box);

FIG. 3 is an enlarged view of section C of FIG. 2;

FIG. 4 is a schematic view of the driving device of the mold box;

fig. 5 is a schematic structural diagram of the trip device;

FIG. 6 is a schematic structural view of the auxiliary supporting device;

FIG. 7 is a schematic structural view of a composite plate mold box;

FIG. 8 is an enlarged view of section D of FIG. 7;

FIG. 9 is a bottom view of FIG. 7;

fig. 10 is a left side view of fig. 7.

Detailed Description

The invention will be further illustrated by the following examples in conjunction with the accompanying drawings:

as shown in fig. 1 and 2, a foamed ceramic composite board mold box conveying system comprises a mold box conveying rail 1, a composite board mold box 2, a rail power device 3, a ferry slide 4, a ferry 5, a mold box rail 6, a mold box driving device 7, a tripping device 8 and an auxiliary supporting device 9.

As shown in fig. 1, fig. 2 and fig. 6, a plurality of mold box conveying rails 1 are arranged in parallel at intervals, each mold box conveying rail 1 comprises two symmetrically arranged slide rails, a rail power device 3 is arranged between the two slide rails, and the rail power device 3 adopts a common driving mode: the motor drives the sliding installation part 302 to reciprocate through a chain wheel and chain mechanism, so that the composite plate mold boxes 2 on the mold box conveying track 1 are pushed through the pushing mechanisms 704 arranged above the sliding installation part 302, and the distance between two adjacent pushing mechanisms 704 on the same mold box conveying track 1 is greater than the width of each composite plate mold box 2, so that the distance between two adjacent composite plate mold boxes 2 is kept. The auxiliary supporting devices 9 for supporting the composite board mould boxes 2 are symmetrically arranged on two sides of the mould box conveying track 1, the elastic supporting portions 901 are arranged on the upper portions of the auxiliary supporting devices 9, see fig. 6, the elastic supporting portions 901 are symmetrical arc-shaped structures which are gradually reduced from the middle to two ends, the extending directions of the elastic supporting portions 901 and the mould box conveying track 1 are the same, the elastic supporting portions 901 are arc-shaped structures and have elasticity, supporting effect is achieved, and meanwhile the influence on the movement of the composite board mould boxes 2 can be avoided.

As shown in fig. 1 to 5, two ends of each mold box conveying track 1 are respectively provided with a ferry car slide 4 perpendicular to the mold box conveying track 1, two ferry cars 5 capable of sliding along the ferry car slide 4 are respectively arranged on the two ferry car slides 4, each ferry car slide 4 comprises a mounting groove 401 and two ferry car slide rails 402 arranged in the mounting groove 401, and each ferry car 5 is mounted on the corresponding ferry car slide rail 402 through a pulley and slides along the ferry car slide rail 402 under the driving of a motor. The two ferry cars 5 are respectively provided with a mould box driving device 7 and two mould box rails 6, and the two mould box rails 6 can be butted with the mould box conveying rails 1, so that the mould box driving device 7 can drive the composite plate mould box 2 to smoothly move back and forth on the mould box conveying rails 1 and the mould box rails 6, and the composite plate mould box 2 on one mould box conveying rail 1 is moved to the other mould box conveying rail 1 through the ferry cars 5. Proximity switches 10 are arranged at two ends of each mould box conveying track 1 and at the ferry vehicle 5, so that the position of the composite plate mould box 2 can be accurately controlled conveniently.

Further, the mold box driving device 7 includes a fixed base 701, a sliding installation seat 702 and a rack and pinion mechanism 703, the fixed base 701 and the mold box rail 6 extend in the same direction, sliding grooves 701a are respectively provided on both sides of the fixed base 701, the sliding installation seat 702 is slidably installed on the fixed base 701, a motor 706 is installed on the sliding installation seat 702, and the motor 706 drives the sliding installation seat 702 to slide along the fixed base 701 through the rack and pinion mechanism 703. Push mechanism 704 and pulling mechanism 705 are installed on sliding mount 702, push mechanism 704 is used for pushing composite slab mold box 2 on ferry car 5 to mold box conveying track 1, and pulling mechanism 705 is used for pulling composite slab mold box 2 on mold box conveying track 1 to ferry car 5.

Further, the pulling mechanism 705 comprises a hinged base 705a and a driving block 705b hinged to the base 705a, the lower end of the driving block 705b is limited by the hinged base 705a, when the driving block 705b is located at the initial position, the upper part of the driving block 705b protrudes upwards out of the hinged base 705a, a support lug 210 matched with the driving block 705b is arranged at the bottom of the composite plate mould box 2, when the sliding installation seat 702 slides along the sliding groove 701a, so that the convex part of the driving block 705b is contacted with the support lug 210, the driving block 705b can rotate to make way under the driving of the support lug 210, so as to avoid the driving block 705b blocking the composite plate mold box 2 from passing through, after the driving block 705b is separated from the lug 210, the driving block 705b returns to the original position by the gravity, then the slide mount 702 slides in the opposite direction and the driving block 705b can pull the composite plate mold box 2 through the lug 210, so that the composite plate mold box 2 moves to the ferry car 5. A horizontally extending trip rod 705c is arranged at the lower part of the driving block 705b, two ends of the mold box conveying track 1 are respectively provided with a trip device 8, referring to fig. 5, the upper end surface of the trip device 8 is an arc surface, the height of the arc surface is gradually reduced towards the direction close to the ferry slide 4, when the driving block 705b is close to the trip device 8, the trip rod 705c is in contact with the arc surface of the trip device 8, the trip rod 705c is forced to be lifted upwards, and therefore the driving block 705b is rotated, and tripping of the driving block 705b and the support lug 210 is realized.

Further, push mechanism 704 is located on the side of pull mechanism 705 remote from box conveyor track 1, and lug 210 of composite plate box 2 is located between push mechanism 704 and pull mechanism 705 when composite plate box 2 is moved onto ferry 5. The pushing mechanism 704 above the sliding installation member 302 has the same structure as the pulling mechanism 705, but does not need to be provided with a tripping rod 705c, and the pushing mechanism 704 on the ferry car 5 can be a fixed block extending vertically, and also has the same structure as the pulling mechanism 705, and does not need to be provided with the tripping rod 705c and is opposite to the installation direction of the pulling mechanism 705.

Further, the quantity of mould case delivery track 1 is the dual, and two adjacent mould case delivery track 1' S direction of delivery is opposite, in this embodiment, E department is the pouring position, F department is the drawing of patterns position, composite sheet mould case 2 is after E department pouring, carry to F department through the delivery route of "S" shape and carry out the drawing of patterns back, return to E department through ferry car slide 4 directly by left ferry car 5 again, composite sheet mould case 2 is according to the orderly drawing of patterns of pouring time, the route is smooth simultaneously, need not round trip movement, whole process composite sheet mould case 2 all need not leave conveying system, greatly improved production efficiency, and production cost is reduced. In the off-season of sales, flexible adjustment can also be made by suspending the use of the middle section mold box conveying rails 1.

As shown in fig. 1 and 7 to 10, the composite plate mold box 2 is slidably disposed on the composite plate mold box 2 conveying rail 1 through the bottom pulley 209, the rail power device 3 drives the composite plate mold box 2 to slide along the composite plate mold box 2 conveying rail 1 through the support lug 210, the composite plate mold box 2 is enclosed by the bottom plate 201, the front side plate 202, the rear side plate 203, the left side plate 204 and the right side plate 205, the front side plate 202 and the rear side plate 203 extend in the length direction of the composite plate mold box 2 body, and the left side plate 204 and the right side plate 205 extend in the width direction of the composite plate mold box 2 body.

Further, preceding curb plate 202 and the equal welded fastening of posterior lateral plate 203 are on bottom plate 201, be provided with the hinge between left curb plate 204 and bottom plate 201, make left curb plate 204 can outwards open, be provided with two at least horizontal draw-in grooves B that extend around bottom plate 201 right side, in this embodiment, be provided with two horizontal draw-in grooves B on bottom plate 201, right curb plate 205 imbeds horizontal draw-in groove B, realize the location of lower part, through the position of adjustment right curb plate 205, make composite sheet mould case 2 can be applicable to the foamed ceramic composite sheet of two kinds of lengths, application scope is wider. Referring to fig. 7 and 8, screw rod mounting seats 200 are respectively arranged at the front end and the rear end of the top of a left side plate 204 and a right side plate 205, each screw rod mounting seat 200 comprises two mounting shaft fixing seats oppositely arranged left and right, a mounting shaft extending left and right is arranged between the two mounting shaft fixing seats, a screw rod 206 is hinged on the mounting shaft, the other end of the screw rod 206 is in threaded connection with a fastening handle 208, screw rod fixing seats 207 are respectively arranged at corresponding positions of the top of the front side plate 202 and the top of the rear side plate 203, the screw rod fixing seats 207 are in n-shaped structures and comprise supporting sections extending left and right and fixing sections extending forward from the left end and the right end of the supporting sections, the screw rods are fixed, a slot with an upper opening is arranged on the supporting section of the screw rod 207, the bottom of the slot is in an arc-shaped structure matched with the screw rod 206, the screw, the left side plate 204 and the right side plate 205 can be tightened and fixed, and the structure is stable and reliable. When the foaming ceramic composite board needs to be demoulded after being sintered and formed, the fastening handle 208 is rotated, the corresponding screw 206 is loosened, the left side plate 204 is opened outwards, and the right side plate 205 is taken out, so that the foaming ceramic composite board can be clamped out from the composite board mold box 2.

Further, be provided with a plurality of vertical extensions and even interval distribution's vertical draw-in groove A on the inside wall of left side board 204 and right side board 205, and left and right symmetry of vertical draw-in groove A of left side board 204 and right side board 205, in this embodiment, be provided with 9 vertical draw-in grooves A on left side board 204 and right side board 205 respectively, the width of the vertical draw-in groove A of foremost side and the vertical draw-in groove A of rearmost side is half of all the other vertical draw-in groove A widths, the foamed ceramic board is fixed in vertical draw-in groove A, fill polyphenyl granule concrete between the adjacent foamed ceramic board, the vertical degree of foamed ceramic board has both been guaranteed, follow-up separately the foamed ceramic composite sheet through the cutting, the roughness on foamed ceramic composite sheet surface has been guaranteed again.

Further, all be provided with the strengthening rib on the outer wall of bottom plate 201, preceding curb plate 202, posterior lateral plate 203, left side board 204 and right side board 205, improved bottom plate 201, preceding curb plate 202, posterior lateral plate 203, left side board 204 and right side board 205's intensity, effectively avoid composite sheet mould case 2 body to warp.

In the production process of foamed ceramic composite board, in order to separate two adjacent foamed ceramic composite boards, all be provided with a plurality of vertical baffles that extend about in the foamed ceramic composite board mold box of current, after the foamed ceramic composite board pouring takes shape, need part vertical baffle and foamed ceramic composite board, because bond each other between the two, lead to the unsmooth surface of foamed ceramic composite board after parteing, seriously influence the quality of foamed ceramic composite board. And adopt composite sheet mould case 2 in this embodiment, no longer set up the baffle, adopt the thick foaming ceramic plate of twice to replace vertical baffle, then the later stage is cut again, separately two adjacent foaming ceramic composite boards, has guaranteed the roughness on foaming ceramic composite board surface, improves foaming ceramic composite board's quality greatly.

Claims (9)

1. The utility model provides a foamed ceramic composite plate mould case conveying system, includes mould case delivery track (1) and sets up composite plate mould case (2) on mould case delivery track (1), composite plate mould case (2) can slide along mould case delivery track (1) under the drive of track power device (3), a plurality of mould case delivery track (1) parallel interval arrangement, its characterized in that: the two ends of each mould box conveying track (1) are respectively provided with a ferry vehicle slide way (4) which is perpendicular to the mould box conveying track (1), two ferry vehicle slide ways (4) are respectively provided with a ferry vehicle (5) which can slide along the ferry vehicle slide way (4), the two ferry vehicles (5) are respectively provided with a mould box driving device (7) and a mould box track (6) which can be connected with the mould box conveying track (1), and the mould box driving device (7) can drive the composite plate mould box (2) to move back and forth on the mould box conveying track (1) and the mould box track (6), so that the ferry vehicles (5) can move the composite plate mould box (2) on the mould box conveying track (1) to the other mould box conveying track (1).

2. The foamed ceramic composite board mold box conveying system according to claim 1, wherein: the mould box driving device (7) comprises a fixed base (701) which is the same as the extending direction of the mould box track (6), a sliding installation seat (702) is arranged on the fixed base (701), and a motor (706) can drive the sliding installation seat (702) to slide along a sliding groove (701a) on the fixed base (701) through a gear rack mechanism (703);

and a pushing mechanism (704) for pushing the composite plate mould box (2) and a pulling mechanism (705) for pulling the composite plate mould box (2) are arranged on the sliding mounting seat (702).

3. The foamed ceramic composite board mold box conveying system according to claim 2, wherein: the pulling mechanism (705) comprises a hinged base (705a) and a driving block (705b) hinged to the base (705a), when the driving block (705b) is located at an initial position, the upper portion of the driving block (705b) protrudes upwards out of the hinged base (705a), a support lug (210) matched with the driving block (705b) is arranged at the bottom of the composite plate mold box (2), when the sliding mounting seat (702) slides along the sliding groove (701a) to enable the protruding portion of the driving block (705b) to be in contact with the support lug (210), the driving block (705b) can rotate under the driving of the support lug (210) to achieve abdication and can return to the initial position after being separated from the support lug (210), and therefore the composite plate mold box (2) can be pulled through the support lug (210);

a horizontally extending tripping rod (705c) is arranged at the lower part of the driving block (705b), tripping devices (8) are respectively arranged at two ends of the mould box conveying track (1), and when the driving block (705b) is close to the tripping devices (8), the tripping devices (8) can force the tripping rod (705c) to be lifted, so that the driving block (705b) rotates, and the tripping of the driving block (705b) and the support lug (210) is realized.

4. The foamed ceramic composite board mold box conveying system of claim, wherein: the upper end surface of the tripping device (8) is an arc-shaped surface, and the height of the arc-shaped surface is gradually reduced towards the direction close to the ferry slide way (4).

5. The foamed ceramic composite board mold box conveying system according to claim 1, wherein: auxiliary supporting devices (9) for supporting the composite plate mould boxes (2) in an auxiliary mode are symmetrically arranged on two sides of the mould box conveying track (1), each auxiliary supporting device (9) is provided with an elastic supporting portion (901), each elastic supporting portion (901) is of a symmetrical arc structure, the height of each elastic supporting portion is gradually reduced from the middle to two ends, and the extending directions of the elastic supporting portions (901) and the mould box conveying track (1) are the same.

6. The foamed ceramic composite board mold box conveying system according to claim 1, wherein: the number of the mould box conveying tracks (1) is even, and the conveying directions of two adjacent mould box conveying tracks (1) are opposite.

7. The foamed ceramic composite board mold box conveying system according to claim 1, wherein: the composite plate mould box (2) is a mould box body formed by enclosing a bottom plate (201), a front side plate (202), a rear side plate (203), a left side plate (204) and a right side plate (205), a plurality of vertical clamping grooves (A) which vertically extend and are uniformly distributed at intervals are formed in the inner side walls of the left side plate (204) and the right side plate (205), and the vertical clamping grooves (A) of the left side plate (204) and the right side plate (205) are arranged in a bilateral symmetry mode.

8. The foamed ceramic composite board mold box conveying system according to claim 7, wherein: left side board (204) are articulated with bottom plate (201) set up horizontal draw-in groove (B) that extends around two at least on bottom plate (201), in right side board (205) embedding horizontal draw-in groove (B) the preceding back both ends of left side board (204) and right side board (205) top are provided with screw rod (206) that can fore-and-aft rotation respectively preceding curb plate (202) and the corresponding position of posterior lateral plate (203) upper end are provided with screw rod fixing base (207) respectively be provided with the scarce groove that supplies screw rod (206) to pass on screw rod fixing base (207), screw rod (206) pass behind the scarce groove that corresponds with fastening handle (208) threaded connection, can strain screw rod (206) that correspond through rotating fastening handle (208) to fixed left side board (204) and right side board (205).

9. The foamed ceramic composite board mold box conveying system according to claim 7, wherein: the width of the vertical clamping groove (A) at the forefront side and the vertical clamping groove (A) at the rearmost side is half of that of the rest vertical clamping grooves (A).

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