CN113070185A - Integrative device of aerated concrete block production line mould spraying - Google Patents

Abstract

The invention relates to the technical field of spraying and processing of a demolding agent of an aerated concrete block pouring mold, in particular to a mold spraying integrated device for an aerated concrete block production line.

Description

Integrative device of aerated concrete block production line mould spraying

Technical Field

The invention relates to the technical field of spraying and processing of a release agent of an aerated concrete block pouring mold, in particular to a mold spraying integrated device for an aerated concrete block production line.

Background

The aerated concrete block is a novel building material which is light, porous, heat-insulating, good in fireproof performance, nailable, sawable, planeable and has certain shock resistance. As early as the thirty years, China began to produce this product and was widely used.

In the production process of the aerated concrete building block, in order to better demould a poured aerated concrete building material and a mould, the mould can be cleaned and oiled before the mould is poured with a concrete raw material, the existing treatment mode generally adopts manual cleaning oiling and mechanical automatic spraying, the manual oiling efficiency is low, the working strength is high, the production cost is high, the management is not convenient, and the mechanical automatic spraying is realized.

An automatic oiling machine for an aerated concrete production mold disclosed in patent No. CN201720004836.8 is mainly composed of a frame, a brushing system, an oil supply system, a positioning system and an electrical control system, wherein a mold frame is placed in the frame under the positioning action of the positioning system, and the brushing system performs oiling action on the mold frame placed in the frame under the oil supply action of the oil supply system and the electrical control of the electrical control system.

However, in the actual oil brushing process, the above technical solutions may cause that each sidewall of the casting cavity inside the mold cannot be completely brushed in place.

Disclosure of Invention

Aiming at the problems, the invention provides the mold spraying integrated device for the aerated concrete block production line, which is characterized in that the inner wall of a casting mold is sprayed by utilizing the mutual matching of the side wall spraying component and the bottom plate spraying component in the spraying mechanism, so that the problem of dead angles existing in the spraying process of the existing spraying equipment is thoroughly solved, the spraying is more uniform, and the corner breakage caused by the uneven stress of the block in the demoulding process is effectively avoided.

In order to achieve the purpose, the invention provides the following technical scheme:

aerated concrete block production line mould spraying integrated device comprises a casting mould

Along the track transportation setting, still include:

the bracket is fixedly arranged on a transfer path of the casting mold;

the movable telescopic arm mechanism is arranged on the bracket; and

spraying mechanism, spraying mechanism by remove flexible arm mechanism and drive and stretch into casting mold carries out the release agent and paints work, and this spraying mechanism includes backup pad, lateral wall spraying component, bottom plate spraying component and supplies liquid subassembly, backup pad horizontal installation in remove flexible arm mechanism is last, the lateral wall paints the subassembly center on the lateral wall setting of backup pad, this lateral wall paint the subassembly be used for right casting mold's lateral wall carries out the release agent and paints, bottom plate spraying component set up in on the bottom terminal surface of backup pad, this bottom plate spraying component be used for right casting mold's bottom plate carries out the release agent and paints, supply liquid subassembly install in on the top terminal surface of backup pad, it is right respectively to supply liquid subassembly lateral wall spraying component and bottom plate spraying component supply release agent.

As an improvement, the movable telescopic arm mechanism comprises a moving assembly and a telescopic arm assembly, the moving assembly is installed on the support, the telescopic arm assembly is installed on the moving assembly, the moving assembly drives the telescopic arm assembly to reciprocate along the transfer direction of the casting mold, and the telescopic arm assembly drives the supporting plate to lift and fall along the vertical direction.

As an improvement, the moving assembly comprises:

the sliding rails are symmetrically arranged at the top of the bracket and are arranged along the transfer direction of the casting mold;

the sliding block is slidably mounted on the sliding rail;

the sliding plate is arranged on the sliding block and is arranged along with the sliding block in a sliding manner;

the rack is arranged in parallel with the sliding rail and is arranged on the bracket; and

and the moving motor is arranged on the sliding plate and drives a gear to rotate, and the gear is meshed with the rack.

As an improvement, the telescopic arm assembly comprises:

the mounting seat is driven by the moving assembly to slide;

the telescopic arm is mounted on the mounting seat in a sliding mode along the vertical direction, and the lower end portion of the telescopic arm is fixedly connected with the supporting plate;

the lifting rack is arranged on the telescopic arm along the vertical direction; and

the lifting motor is arranged on the mounting seat, the lifting motor drives the lifting gear to rotate, and the lifting gear is meshed with the lifting rack.

As a refinement, the sidewall spray assembly comprises:

the support shafts are vertically arranged at four corners of the end surface of the bottom of the support plate, and the support shafts are sleeved with rotatably arranged synchronous belt pulleys;

the synchronous belt is tensioned and wound on the synchronous belt wheel in a rotating way, and the synchronous belt is wound on the side edge of the bottom end surface of the supporting plate;

the sponge smearing belt is arranged on the outer side of the synchronous belt, rotates along with the synchronous belt and smears the side wall of the casting mold;

the smearing motor is arranged on the top end face of the supporting plate and drives any synchronous belt pulley to rotate; and

and the smearing brushes are arranged at four corners of the end surface of the bottom of the supporting plate and smear four included angles of the casting mold.

As an improvement, the floor spray assembly comprises:

the smearing plates are symmetrically arranged on the end face of the bottom of the supporting plate in a sliding mode and are used for smearing the bottom plate of the casting mold;

the suspender is arranged on the smearing plate, penetrates through the supporting plate and suspends the smearing plate below the supporting plate; and

and the rotary driving unit is arranged on the top end surface of the supporting plate and drives the smearing plate to slide.

As an improvement, the length L of the hanging rod is greater than the thickness H of the supporting plate, and a sliding groove for the hanging rod to slide is arranged on the supporting plate.

As an improvement, the rotation driving unit includes:

a rotating motor mounted on the support plate;

the swing arm is arranged on a rotating shaft of the rotating motor, and the rotating motor drives the swing arm to rotate and swing in a reciprocating manner; and

and the two ends of the connecting arm are respectively hinged with the swing arm and the corresponding suspender.

As a refinement, the liquid supply assembly comprises:

the liquid supply box is arranged on the supporting plate, and a release agent is contained in the liquid supply box;

the side liquid supply pipe is arranged along the side edge of the supporting plate, the side liquid supply pipe is communicated with the liquid supply box, and an outlet of the side liquid supply pipe is arranged above the sponge smearing belt and the smearing brush;

the bottom liquid supply pipe is communicated with the liquid supply box, an outlet formed in the side wall of the bottom liquid supply pipe is arranged on the smearing plate, and the bottom liquid supply pipe is arranged as a telescopic pipe;

the one-way valve is arranged at the communication position of the side liquid supply pipe and the liquid supply tank and prevents the release agent in the side liquid supply pipe from flowing back to the liquid supply tank;

the piston pipe is arranged on the supporting plate and is communicated with the side liquid supply pipe; and

and the piston push rod is inserted in the piston pipe and is hinged with the connecting arm.

As an improvement, a gravity valve is arranged at the connecting position of the bottom liquid supply pipe and the smearing plate, and comprises:

the communicating head is arranged on the smearing plate, the inner diameter of the communicating head is larger than the outer diameter of the bottom liquid supply pipe, and the opening of the bottom liquid supply pipe is formed in the side wall of the bottom liquid supply pipe; and

and the shielding ring is arranged at the top of the communication head, and the inner diameter of the shielding ring is equal to the outer diameter of the bottom liquid supply pipe.

The invention has the beneficial effects that:

(1) according to the invention, the inner wall of the casting mold is sprayed by utilizing the mutual matching of the side wall spraying component and the bottom plate spraying component in the spraying mechanism, so that the problem of dead angles existing in the spraying process of the existing spraying equipment is thoroughly solved, the spraying is more uniform, and the corner breakage caused by the non-uniform demoulding stress of the building block in the demoulding process of the building block is effectively avoided;

(2) according to the invention, the sponge smearing belt is matched with the smearing brush to smear the release agent on the inner side wall of the casting mold, the smearing belt rotates to smear the inner side wall of the casting mold back and forth, and the smearing brush smears the release agent on four corners of the casting mold, so that smearing processing of the inner side wall of the casting mold without dead angles is realized;

(3) according to the invention, the bottom plate of the casting mold is coated with the release agent by utilizing the reciprocating sliding of the coating plate, and after the supporting plate for mounting the coating plate is lifted upwards, the release agent supply of the bottom liquid supply pipe to the coating plate can be closed by means of the gravity of the coating plate and the arrangement of the gravity valve, so that the effects of automation, rapidness and effectiveness are achieved;

(4) according to the invention, the rotary driving unit which drives the smearing plate to slide drives the piston push rod to push the release agent in the side liquid supply pipe to pressurize in a reciprocating manner, so that the release agent is quickly conveyed to the sponge smearing belt and the smearing brush from the side liquid supply pipe, and the liquid supply of the sponge smearing belt and the smearing brush is ensured.

In conclusion, the invention has the advantages of uniform coating, high automation degree and the like, and is particularly suitable for the technical field of spraying and processing of the release agent of the aerated concrete block pouring mould.

Drawings

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

FIG. 2 is an enlarged view of the structure at A in FIG. 1;

FIG. 3 is a schematic perspective view of the mobile telescopic arm mechanism of the present invention;

FIG. 4 is a schematic perspective view of the spraying mechanism of the present invention;

FIG. 5 is a perspective view of a sidewall spray assembly of the present invention;

FIG. 6 is a schematic view of a portion of a sidewall spray assembly in accordance with the present invention;

FIG. 7 is a schematic perspective view of a rotary driving unit according to the present invention;

FIG. 8 is a first schematic cross-sectional view of a base plate spray assembly according to the present invention;

FIG. 9 is a schematic cross-sectional view of a second spraying assembly of the base plate of the present invention;

fig. 10 is an enlarged view of the structure at B in fig. 9.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Example (b):

as shown in fig. 1 to 10, an aerated concrete block production line mold spraying integrated device includes a casting mold 1, the casting mold 1 is disposed along a track, and further includes:

the bracket 2 is fixedly arranged on a transfer path of the casting mold 1;

the movable telescopic arm mechanism 3 is arranged on the bracket 2; and

the spraying mechanism 4 is driven by the movable telescopic arm mechanism 3 to extend into the casting mold 1 to coat the release agent, the spray mechanism 4 includes a support plate 41, a sidewall spray assembly 42, a floor spray assembly 43, and a liquid supply assembly 44, the supporting plate 41 is horizontally installed on the moving telescopic arm mechanism 3, the side wall smearing assembly 42 is arranged around the side wall of the supporting plate 41, the side wall smearing component 42 is used for smearing the release agent on the side wall of the casting mold 1, the bottom plate spraying component 43 is arranged on the bottom end face of the supporting plate 41, the bottom plate spraying component 43 is used for coating a release agent on the bottom plate of the casting mold 1, the liquid supply component 44 is arranged on the top end surface of the supporting plate 41, the liquid supply assembly 44 supplies the release agent to the sidewall spray assembly 42 and the floor spray assembly 43, respectively.

The movable telescopic arm mechanism 3 comprises a moving assembly 31 installed on the support 2 and a telescopic arm assembly 32 installed on the moving assembly 31, the moving assembly 31 drives the telescopic arm assembly 32 to reciprocate along the transfer direction of the casting mold 1, and the telescopic arm assembly 32 drives the support plate 41 to lift and fall along the vertical direction.

Further, the moving assembly 31 includes:

the slide rails 311 are symmetrically arranged on the top of the bracket 2, and the slide rails 311 are arranged along the transfer direction of the casting mold 1;

the sliding block 312 is slidably mounted on the sliding rail 311;

a sliding plate 313, wherein the sliding plate 313 is mounted on the sliding block 312, and the sliding plate 313 is arranged with the sliding block 312 in a sliding manner;

the rack 314 is arranged in parallel with the sliding rail 311, and the rack 314 is installed on the bracket 2; and

a moving motor 315, wherein the moving motor 315 is installed on the sliding plate 313, the moving motor 315 drives a gear 316 to rotate, and the gear 316 is engaged with the rack 314.

Further, the telescopic arm assembly 32 includes:

the mounting seat 321 is driven by the moving assembly 31 to slide;

the telescopic arm 322 is installed on the installation seat 321 in a sliding manner along the vertical direction, and the lower end part of the telescopic arm 322 is fixedly connected with the supporting plate 41;

the lifting rack 323 is installed on the telescopic arm 322 along the vertical direction; and

and the lifting motor 324 is mounted on the mounting base 321, the lifting motor 324 drives a lifting gear 325 to rotate, and the lifting gear 325 is meshed with the lifting rack 323.

Further, the sidewall spray assembly 42 includes:

the supporting shafts 421 are vertically installed at four corners of the end face of the bottom of the supporting plate 41, and the supporting shafts 421 are sleeved with rotatably arranged synchronous belt pulleys 422;

the synchronous belt 423 is tensioned and wound on the synchronous belt wheel 422, and the synchronous belt 423 is wound on the side edge of the bottom end face of the supporting plate 41;

the sponge smearing belt 424, the sponge smearing belt 424 is installed outside the synchronous belt 423, the sponge smearing belt 424 rotates with the synchronous belt 423, and the sponge smearing belt 424 smears the side wall of the casting mold 1;

an applying motor 425, wherein the applying motor 425 is installed on the top end surface of the supporting plate 41, and the applying motor 425 drives any synchronous belt wheel 422 to rotate; and

the smearing brushes 426 are arranged at four corners of the end face of the bottom of the supporting plate 41, and the smearing brushes 426 smear four included angles of the casting mold 1.

It should be noted that the smearing motor 425 rotates to drive the synchronous belt 423 to rotate, and then drives the sponge smearing belt 424 to adsorb the release agent and then rotate to smear the release agent on the side wall of the casting mold 1.

As a preferred option, the base plate spray assembly 43 comprises:

the smearing plates 431 are symmetrically arranged on the bottom end face of the supporting plate 41 in a sliding mode, the smearing plates 431 are used for smearing the bottom plate of the casting mold 1, and the smearing plates 431 are formed by combining sponge on the surface layer and a framework on the inner layer;

a hanger rod 432, wherein the hanger rod 432 is attached to the applying plate 431, and the hanger rod 432 penetrates the support plate 41 to hang the applying plate 431 below the support plate 41; and

a rotation driving unit 433, wherein the rotation driving unit 433 is installed on a top end surface of the supporting plate 41, and the rotation driving unit 433 drives the applying plate 431 to be slidably disposed.

The length L of the suspension rod 432 is greater than the thickness H of the support plate 41, and a sliding slot 411 for the suspension rod 432 to slide is disposed on the support plate 41.

Further, the rotation driving unit 433 includes:

a rotary motor 4331, the rotary motor 4331 being mounted on the support plate 41;

a swing arm 4332, wherein the swing arm 4332 is installed on a rotating shaft of the rotating motor 4331, and the rotating motor 4331 drives the swing arm 4332 to perform reciprocating rotation and swing; and

the connecting arm 4333, and both ends of the connecting arm 4333 are respectively hinged to the swing arm 4332 and the corresponding suspension rod 432.

It should be noted that, initially, the smearing plate 431 is hung on the supporting plate 41 through the hanging rod 432, and only when the spraying mechanism 4 extends to the bottom of the casting mold 1, the smearing plate 431 overlaps and collides with the supporting plate 41, and the smearing plate 431 starts to smear the release agent on the bottom plate of the casting mold 1.

Further, the rotating motor 4331 in the rotating driving unit 433 rotates repeatedly in forward and reverse directions to drive the applying plate 431 to slide along the sliding slot 411.

Preferably, the liquid supply assembly 44 includes:

a liquid supply tank 441, wherein the liquid supply tank 441 is mounted on the support plate 41, and a release agent is contained in the liquid supply tank 441;

a side supply pipe 442, the side supply pipe 442 being disposed along a side of the support plate 41, the side supply pipe 442 being communicated with the supply tank 441, and an outlet of the side supply pipe 442 being disposed above the sponge coating band 424 and the coating brush 426;

a bottom liquid supply pipe 443, the bottom liquid supply pipe 443 being communicated with the liquid supply tank 441, an outlet 4431 formed in a side wall of the bottom liquid supply pipe 443 is disposed on the applying plate 431, and the bottom liquid supply pipe 443 is a telescopic pipe;

a check valve 444 disposed at a position where the side liquid supply tube 442 communicates with the liquid supply tank 441, the check valve 444 preventing the release agent in the side liquid supply tube 442 from flowing backward to the liquid supply tank 441;

a piston tube 445, the piston tube 445 being mounted on the support plate 41, the piston tube 445 being provided to communicate with the side liquid supply tube 442; and

the piston push rod 446, the piston push rod 446 is inserted in the piston pipe 445, and the piston push rod 446 is connected with the connecting arm 4333 in a hinged mode.

Wherein, a gravity valve 447 is arranged at the connection position of the bottom liquid supply pipe 443 and the daubing plate 431, and the gravity valve 447 comprises:

a communication head 4471, the communication head 4471 being attached to the applying plate 431, the communication head 4471 having an inner diameter larger than an outer diameter of the bottom liquid supply pipe 443, the bottom liquid supply pipe 443 having an opening opened in a side wall of the bottom liquid supply pipe 443; and

a shielding ring 4472, the shielding ring 4472 being mounted on the top of the communication head 4471, the shielding ring 4472 having an inner diameter equal to the outer diameter of the bottom liquid supply pipe 443.

It should be noted that the outlet diameter of the side liquid supply tube 442 is small, when the piston push rod 446 does not work, the release agent output by the side liquid supply tube 442 just meets the adsorption of the sponge smearing tape 424 and the smearing brush 426, and prepares for the smearing of the next casting mold 1, and when the piston push rod 446 works, the output of the release agent is accelerated, the supply of the release agent by the sponge smearing tape 424 and the smearing brush 426 is ensured, and the waste of the release agent is avoided.

Further, when the application plate 431 and the support plate 41 are overlapped and abutted, the outlet of the bottom liquid supply pipe 443 is positioned in the communication head 4471, the release agent output from the bottom liquid supply pipe 443 is input to the application plate 431, and when the application plate 431 is separated from the support plate 41, the outlet of the bottom liquid supply pipe 443 is covered with the shielding ring 4472, and the release agent cannot be supplied to the application plate 431 by the bottom liquid supply pipe 443.

The working process is as follows:

the working process comprises the following steps:

firstly, inputting a mould, wherein a casting mould 1 is transferred to the position right below a bracket 2 along a track;

step two, the smearing mechanism extends, and the movable telescopic arm mechanism 3 arranged on the bracket 2 drives the spraying mechanism 4 to descend and extend into the bottom of the casting mold 1;

step three, bottom coating, namely, a coating plate 431 in a bottom plate spraying assembly 43 arranged on the spraying mechanism 4 is overlapped with a support plate 41, so that a gravity valve 447 is opened, the liquid supply assembly 44 starts to supply liquid to the coating plate 431, and a rotary driving unit 443 in the bottom plate spraying assembly 43 drives the coating plate 431 to slide back and forth along the length direction of the casting mold 1, so as to coat a release agent on the bottom plate of the casting mold 1;

step four, side wall coating, which is synchronous with the step three, when the rotary driving unit 443 is started, the piston push rod 446 in the liquid supply assembly 44 is driven to push, the release agent in the side liquid supply pipe 442 in the liquid supply assembly 44 is pushed to the sponge coating belt 424 and the coating brush 426 in the side wall spraying assembly 42, and the release agent is coated on the inner side wall of the casting mold 1;

lifting, wherein the movable telescopic arm mechanism 3 drives the spraying mechanism 4 to ascend, the smearing plate 431 is separated from the supporting plate 41, the gravity valve 447 is closed, and the sponge smearing belt 424 and the smearing brush 426 are synchronously lifted to smear the side wall of the casting mold 1 from bottom to top;

and step six, resetting and outputting, wherein after the movable telescopic arm mechanism 3 drives the smearing mechanism 4 to separate from the casting mold 1, the smearing mechanism 4 finishes smearing work on the casting mold 1, and the casting mold 1 is output and transferred.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides an integrative device of aerated concrete block production line mould spraying, includes casting mold (1), this casting mold (1) transports the setting along the track, its characterized in that still includes:

the support (2), the said support (2) is fixedly mounted on the transfer path of the said casting mould (1);

the movable telescopic arm mechanism (3), the movable telescopic arm mechanism (3) is arranged on the bracket (2); and

the spraying mechanism (4), the spraying mechanism (4) by remove flexible arm mechanism (3) and drive and stretch into casting die (1) carries out the release agent and paints work, this spraying mechanism (4) include backup pad (41), lateral wall spraying component (42), bottom plate spraying component (43) and supply liquid subassembly (44), backup pad (41) horizontal installation in remove on the flexible arm mechanism (3), lateral wall is paintd subassembly (42) and is around the lateral wall setting of backup pad (41), and this lateral wall is paintd subassembly (42) and is used for right the lateral wall of casting die (1) carries out the release agent and paints, bottom plate spraying component (43) set up in on the bottom terminal surface of backup pad (41), and this bottom plate spraying component (43) are used for right the bottom plate of casting die (1) carries out the release agent and paints, supply liquid subassembly (44) install in on the top terminal surface of backup pad (41), the liquid supply assembly (44) supplies a release agent to the sidewall spray assembly (42) and the floor spray assembly (43), respectively.

2. The aerated concrete block production line mold spraying integrated device according to claim 1, wherein the movable telescopic arm mechanism (3) comprises a movable assembly (31) mounted on the support (2) and a telescopic arm assembly (32) mounted on the movable assembly (31), the movable assembly (31) drives the telescopic arm assembly (32) to reciprocate along the transfer direction of the casting mold (1), and the telescopic arm assembly (32) drives the support plate (41) to be arranged in a lifting mode along the vertical direction.

3. An aerated concrete block production line mold spraying integrated device according to claim 2, wherein the moving assembly (31) comprises:

the sliding rails (311) are symmetrically arranged at the top of the bracket (2), and the sliding rails (311) are arranged along the transfer direction of the casting mold (1);

the sliding block (312) is mounted on the sliding rail (311) in a sliding mode;

a sliding plate (313), wherein the sliding plate (313) is arranged on the sliding block (312), and the sliding plate (313) is arranged along with the sliding block (312) in a sliding way;

the rack (314) is arranged in parallel with the sliding rail (311), and the rack (314) is arranged on the bracket (2); and

the moving motor (315), the moving motor (315) is installed on the sliding plate (313), the moving motor (315) drives the gear (316) to rotate, and the gear (316) is meshed with the rack (314).

4. An aerated concrete block production line mold spray integrated unit according to claim 2, wherein the telescopic arm assembly (32) comprises:

the mounting seat (321) is driven by the moving assembly (31) to slide;

the telescopic arm (322) is installed on the installation seat (321) in a sliding mode along the vertical direction, and the lower end portion of the telescopic arm (322) is fixedly connected with the supporting plate (41);

the lifting rack (323) is installed on the telescopic arm (322) along the vertical direction; and

the lifting motor (324) is installed on the installation base (321), the lifting motor (324) drives a lifting gear (325) to rotate, and the lifting gear (325) is meshed with the lifting rack (323).

5. An aerated concrete block production line mold spraying integrated device according to claim 1, wherein the side wall spraying assembly (42) comprises:

the supporting shafts (421), the supporting shafts (421) are vertically arranged at four corners of the end face of the bottom of the supporting plate (41), and the supporting shafts (421) are sleeved with rotatably arranged synchronous belt wheels (422);

the synchronous belt (423) is tensioned and wound on the synchronous belt wheel (422), and the synchronous belt (423) is wound on the side edge of the bottom end face of the supporting plate (41);

the sponge smearing belt (424), the sponge smearing belt (424) is installed on the outer side of the synchronous belt (423), the sponge smearing belt (424) rotates along with the synchronous belt (423), and the sponge smearing belt (424) smears the side wall of the casting mold (1);

the smearing motor (425), the smearing motor (425) is installed on the top end face of the supporting plate (41), and the smearing motor (425) drives any synchronous belt wheel (422) to rotate; and

the smearing brushes (426) are installed at four corners of the end face of the bottom of the supporting plate (41), and the smearing brushes (426) smear four included angles of the casting mold (1).

6. An aerated concrete block production line mold spraying integrated device according to claim 5, wherein the bottom plate spraying assembly (43) comprises:

the smearing plates (431) are symmetrically arranged on the bottom end face of the supporting plate (41) in a sliding mode, and the smearing plates (431) are used for smearing the bottom plate of the casting mold (1);

a hanger bar (432), wherein the hanger bar (432) is attached to the application plate (431), and the hanger bar (432) penetrates the support plate (41) to hang the application plate (431) below the support plate (41); and

the rotary driving unit (433), the rotary driving unit (433) is installed on the top end face of the supporting plate (41), and the rotary driving unit (433) drives the smearing plate (431) to be arranged in a sliding mode.

7. The aerated concrete block production line mold spraying integrated device according to claim 6, wherein the length L of the suspension rod (432) is larger than the thickness H of the support plate (41), and the support plate (41) is provided with a sliding groove (411) for the suspension rod (432) to slide.

8. An aerated concrete block production line mold spraying integrated device according to claim 6, wherein the rotary driving unit (433) comprises:

a rotary motor (4331), the rotary motor (4331) being mounted on the support plate (41);

the swing arm (4332), the swing arm (4332) is installed on a rotating shaft of the rotating motor (4331), and the rotating motor (4331) drives the swing arm (4332) to rotate and swing in a reciprocating manner; and

the two ends of the connecting arm (4333) are respectively hinged with the swing arm (4332) and the corresponding hanging rod (432).

9. An aerated concrete block production line mold spraying integrated device according to claim 8, wherein the liquid supply assembly (44) comprises:

a liquid supply tank (441), wherein the liquid supply tank (441) is installed on the support plate (41), and a release agent is contained in the liquid supply tank (441);

a side liquid supply pipe (442), the side liquid supply pipe (442) being disposed along a side of the support plate (41), the side liquid supply pipe (442) being communicated with the liquid supply tank (441), and an outlet of the side liquid supply pipe (442) being disposed above the sponge application tape (424) and the application brush (426);

the bottom liquid supply pipe (443), the bottom liquid supply pipe (443) is communicated with the liquid supply tank (441), an outlet (4431) formed in the side wall of the bottom liquid supply pipe (443) is arranged on the smearing plate (431), and the bottom liquid supply pipe (443) is arranged as a telescopic pipe;

a check valve (444) provided at a position where the side liquid supply pipe (442) communicates with the liquid supply tank (441), the check valve (444) preventing the release agent in the side liquid supply pipe (442) from flowing back to the liquid supply tank (441);

a piston tube (445), the piston tube (445) being mounted on the support plate (41), the piston tube (445) being provided in communication with the side liquid supply tube (442); and

the piston push rod (446), piston push rod (446) insert locate in the piston pipe (445), this piston push rod (446) with link arm (4333) even articulated.

10. An aerated concrete block production line mold spraying integrated device according to claim 9, wherein a gravity valve (447) is arranged at the connecting position of the bottom liquid supply pipe (443) and the coating plate (431), and the gravity valve (447) comprises:

a communication head (4471), the communication head (4471) being attached to the applying plate (431), the communication head (4471) having an inner diameter larger than an outer diameter of the bottom liquid supply pipe (443), and the bottom liquid supply pipe (443) having an opening opened in a side wall of the bottom liquid supply pipe (443); and

a shielding ring (4472), the shielding ring (4472) being installed on the top of the communication head (4471), the shielding ring (4472) having an inner diameter equal to the outer diameter of the bottom liquid supply pipe (443).

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