阅读说明：本技术 一种水泥发泡板打包处理设备及水泥发泡板打包方法 (Cement foaming board packaging processing equipment and cement foaming board packaging method ) 是由 唐苏超 于 2021-07-05 设计创作，主要内容包括：本发明公开了一种水泥发泡板打包处理设备及水泥发泡板打包方法,包括主机体,所述主机体内设有开口向上的存储分隔腔,本发明通过托举板对发泡水泥板进行托举的过程中,通过其左右移动实现发泡水泥板的掉落,进而实现将水泥发泡板分隔掉落的效果,通过本发明通过移动的移动滑块带动切换板移动,并自动将塑料包装膜移动至预包装腔内并打开,方便进行下一次的水泥发泡板预先包装,随后通过两侧自动复位的封闭转板,对移动至包装腔内的水泥发泡板提供一个封闭空间,方便包装腔内的水泥发泡板表面包装的塑料包装膜在温度较高的环境中收缩,并稳定的紧密的套设于水泥发泡板表面,进而方便水泥发泡板的分隔包装输出。(The invention discloses a cement foam board packing processing device and a cement foam board packing method, which comprises a main machine body, wherein a storage separation cavity with an upward opening is arranged in the main machine body, the cement foam board is lifted by a lifting plate and falls off by moving left and right, and the cement foam board is separated and falls off, a switching plate is driven to move by a moving sliding block, a plastic packaging film is automatically moved into a pre-packaging cavity and opened, the next cement foam board is conveniently pre-packaged, then a closed space is provided for the cement foam board moved into a packaging cavity by a closed rotating plate with two sides automatically reset, the plastic packaging film packaged on the surface of the cement foam board in the packaging cavity is conveniently contracted in a high-temperature environment and is stably and tightly sleeved on the surface of the cement foam board, thereby facilitating the separate packaging and output of the cement foaming board.)

1. The utility model provides a cement foaming board baling treatment equipment, includes the main engine body, its characterized in that: the main machine body is internally provided with a storage separation cavity with an upward opening, the inner wall of the storage separation cavity is fixedly provided with a friction plate with a rough surface, the lower sides of the left wall and the right wall of the storage separation cavity are communicated with supporting cavities which are symmetrical to the two sides of the storage separation cavity, the supporting cavities are internally provided with movable lifting plates, the lower sides of the storage separation cavity are communicated with a pre-packaging cavity, the left wall and the right wall of the pre-packaging cavity are communicated with a switching cavity, switching plates which are distributed in a matrix arrangement and can move left and right are arranged in the switching cavity, clamping plates are fixedly arranged on the lower end surfaces of all the switching plates, a plastic packaging film for packaging a foaming plate is fixedly arranged between every two adjacent clamping plates, the lower wall of the pre-packaging cavity is communicated with a moving cavity, the lower wall of the moving cavity is communicated with a transverse transmission cavity, and a transmission shaft with bilateral symmetry is rotatably arranged between the front wall and the rear wall of the left side and the right side of the transmission cavity, a transmission drum is fixedly connected with the outer circular surface of the transmission shaft, a transmission belt for transmission is wound between the transmission drums on the left side and the right side, the right wall of the moving cavity is communicated with a packaging cavity, the upper wall of the packaging cavity is fixedly provided with a heating plate, the upper wall of the packaging cavity is communicated with two closed cavities with the same size and specification, the sealing assembly is arranged in the sealing cavity and can cut off and seal the left side and the right side of the packaging cavity, the right wall of the packaging cavity is communicated with a guide cavity with an outward opening, the lower wall in the guide cavity is provided with an inclined guide inclined plane, the lower wall of the guide cavity is communicated with a detection cavity, a detection shaft is rotatably arranged at the upper side between the front wall and the rear wall in the detection cavity, the outer disc fixedly connected with of detection axle can overturn and detect the commentaries on classics board, the direction chamber upper wall intercommunication is equipped with the fan chamber, the fan intracavity rotates and is equipped with the rotation fan.

2. The cement foam board baling processing apparatus of claim 1, wherein: the fan cavity with the fixed fan safety cover that is equipped with in direction chamber junction, rotate fan up end rotation center fixedly connected with power shaft, fan cavity upper wall internal fixation is equipped with the rotation motor, power shaft upper end power connect in rotate the motor, fan cavity upper wall right side intercommunication is equipped with the ascending air pipe of opening.

3. The cement foam board baling processing apparatus of claim 2, wherein: the detection device is characterized in that a return spring is fixedly connected between the lower end face of the detection rotating plate and the lower wall of the detection cavity, a rotating speed detector is fixedly arranged in the front wall of the detection cavity, and the front end of the detection shaft is in contact connection with the rotating speed detector.

4. The cement foam board baling processing apparatus of claim 3, wherein: the seal assembly is located including rotating left seal shaft between the two walls around the closed chamber, seal the outer disc fixedly connected with of axle and can overturn and seal the commentaries on classics board, seal downward extension below the commentaries on classics board the packing intracavity and with the transmission band upper surface offsets, be equipped with the chamber that resets in the closed chamber antetheca, the terminal surface extends forward before the seal shaft to reset intracavity and fixedly connected with torsional spring that resets.

5. The cement foam board baling processing apparatus of claim 4, wherein: the conveying mechanism is characterized in that a conveying motor is fixedly arranged on the right side in the front wall of the conveying cavity, the front end of the conveying shaft on the right side is in power connection with the conveying motor, a reciprocating cavity is arranged in the front side wall of the conveying motor, a reciprocating rotating shaft is arranged between the front wall and the rear wall of the reciprocating cavity in a rotating mode, a reciprocating rotating drum is fixedly connected to the outer circular surface of the reciprocating rotating shaft, an annular clamping sliding groove is formed in the outer end surface of the reciprocating rotating drum, a moving sliding groove is formed in the right wall of the reciprocating cavity in a communicating mode, a moving pointer capable of moving back and forth is arranged in the moving sliding groove, the left end of the moving pointer is pointed, the left end face of the moving pointer extends to the inside of the reciprocating cavity leftwards and is clamped with the clamping sliding groove, and a connecting pull rope is fixedly connected to the rear end face of the moving pointer.

6. The cement foam board baling processing apparatus of claim 5, wherein: the lifting plate is far away from one side end face of the storage separation cavity and the supporting cavity is far away from a supporting spring fixedly connected between one side wall of the storage separation cavity, the lifting plate is far away from one side end face of the storage separation cavity and fixedly connected with a supporting pull rope, and the supporting pull rope is fixedly connected with the connecting pull rope and arranged on two sides of the supporting pull rope.

7. The cement foam board baling processing apparatus of claim 6, wherein: the switching cavity rear wall is communicated with and provided with a switching sliding groove, all the switching plate rear end faces are fixedly connected with movable sliding blocks, the rear end faces of the movable sliding blocks extend backwards into the switching sliding grooves and are clamped, and a movable pull rope with a certain length is fixedly connected between the movable sliding blocks on two adjacent sides.

8. The cement foam board baling processing apparatus of claim 7, wherein: switch spout back wall in-connection and be equipped with the sprocket chamber, rotate the support pivot that is equipped with bilateral symmetry between the upper and lower two walls of sprocket intracavity left and right sides, support the outer disc fixedly connected with drive sprocket of pivot, both sides around being equipped with same drive chain between the drive sprocket, two promotion connecting rods of drive chain outside end face fixedly connected with, the promotion connecting rod can remove to switching in the spout and promote to remove the slider along with the in-process that drive chain removed, sprocket chamber right side lower wall internal fixation is equipped with energy supply motor, right side support pivot lower extreme power connect in energy supply motor.

9. The cement foam board packing process according to claim 8, wherein the packing method comprises the following steps:

the first step, after the main box body is stably placed, cement foaming boards to be packaged are stored in a storage separation cavity in a stacking mode from top to bottom and are lifted through the lifting plates on the two sides, the cement foaming boards abut against the surfaces of the friction plates on the two sides, then a conveying motor is started to drive a reciprocating rotating shaft to rotate, the reciprocating rotating shaft rotates and drives a reciprocating rotating drum to rotate through fixed connection, the reciprocating rotating drum rotates and drives a moving pointer to move back and forth through a clamping sliding groove and a moving pointer clamping device which are arranged around the outer end face, the moving pointer moves back and forth and pulls a connecting pull rope to move back and forth through fixed connection, when the connecting pull rope moves forward in the process, the connecting pull rope moves through connecting and pulling the supporting pull ropes on the two sides, the supporting pull ropes on the two sides move and overcome the elastic force of a supporting spring to move into the supporting cavity through fixedly connecting and pulling the lifting plates on the two sides, the lifting plates are connected and loosened with the connecting pull ropes due to the supporting pull ropes, and are pushed by the supporting springs to move and reset again, the cement foaming plates stored in the storage separation cavities drop downwards under the action of gravity in the process that the lifting plates on the two sides move into the supporting cavities, and then the lifting plates reset to lift the cement foaming plates again, so that the effect of separating and dropping the cement foaming plates is achieved;

secondly, the cement foaming board that subsequently drops gets into to pack the intracavity in advance, and open the plastic packaging membrane in advance through packing the intracavity in advance and carry out the parcel to cement foaming board surface in advance after, along with cement foaming board plastic packaging membrane breaks away from the clamping of both sides splint, along with cement foaming board continues to drop downwards to the removal intracavity, after a prepackage work is accomplished, energy supply motor starts and drives right side support pivot and rotate, right side support pivot rotates and drives right side drive sprocket through fixed connection this moment, right and left sides drive sprocket passes through drive chain transmission and rotates this moment, along with drive chain's removal this moment, drive chain drives left side through fixed connection and promotes the outer end of connecting rod and remove in the stay cord and promote the removal slider that switches left side rightmost in the spout and remove right, the removal slider removes right and drives the switching board that switches left side rightmost in the intracavity and remove right through fixed connection this moment and gradually The movable sliding blocks move to the right side of the pre-packaging cavity, in the process, the movable sliding blocks move to pull the adjacent movable sliding blocks to move rightwards for a certain distance through connection of the movable pull ropes, the movable sliding blocks are pushed to the right side conveniently to be pushed by the connecting rods for the next time, the movable sliding blocks are pushed to the right side by the pushing connecting rods and then move back to the chain wheel cavity along the arc-shaped moving track, the plastic packaging films clamped between the adjacent switching plates on the two sides through the clamping plates are opened through movement of the switching plates, the effect that the new plastic packaging films are opened and move into the pre-packaging cavity is achieved, and the cement foaming plates are packaged in advance for the next time conveniently;

thirdly, the cement foaming board which is packaged in advance falls into the moving cavity and is lifted through the upper surface of the transmission belt, the transmission motor drives the right transmission shaft to rotate, the right transmission shaft drives the right transmission rotary drum to rotate through fixed connection, the left transmission rotary drum and the right transmission rotary drum are driven to rotate through the transmission belt, the cement foaming board is driven to move rightwards along with the lifting and moving of the transmission belt, the cement foaming board moves rightwards and pushes the left sealing rotary board to turn over, the left sealing rotary board turns over and drives the sealing shaft to overcome the torsional elasticity of the reset torsion spring to rotate, then after the cement foaming board completely enters the packaging cavity, the sealing rotary board rotates again under the torsional elasticity of the reset torsion spring and reappears the sealing of the packaging cavity, the heating plate is started and heats the air in the packaging cavity, and the plastic packaging film packaged on the surface of the cement foaming board entering the packaging cavity shrinks in an environment with higher temperature, the cement foaming board is stably and tightly sleeved on the surface of the cement foaming board, and the packaging work is finished at the moment;

fourthly, the cement foaming board continues to move rightwards under the driving of a transmission belt, the right side sealing rotating board is pushed to turn over and then moves into a guide cavity, the cement foaming board after being packaged enters the guide cavity, the guide inclined plane is guided in an inclined mode and drives the cement foaming board to slide downwards, the detection rotating board is pushed downwards to turn over under the elastic force action of a reset spring in the process that the cement foaming board slides downwards along the inclined guide inclined plane in an inclined mode, the detection rotating board turns over at the moment and drives a detection shaft to rotate for a moving angle, and the quantity of the packaged cement foaming board is conveniently recorded through a speed detector detection technology;

fifthly, at the in-process of cement foaming board landing, rotate the motor and start and drive the power shaft and rotate, the power shaft rotates and drives through fixed connection and rotate the fan rotation this moment, rotate the fan this moment and rotate and inhale the back with the outside air through air pipe, input to the direction intracavity through the fan chamber downwards, and then cool down to the cement foaming board surface that removes to the direction intracavity, and then when preventing to carry out the surface packing of cement foaming board fixed in the packing chamber, the heat of production influences the storage production of cement foaming board.

Technical Field

The invention relates to the technical field of cement foam boards, in particular to a cement foam board packaging processing device and a cement foam board packaging method.

Background

Cement foaming board belongs to the novel material of environmental protection low carbon, and fire behavior is high, and compressive strength is high, advocate the use by the country, general foaming board is after production is accomplished, need pack the transportation to it, and can not the high also can not the low temperature of high temperature in the packing process, general cement foaming board is packed by the workman, it is extravagant to the use of people's resources, and comparatively waste time and energy, and general cement foaming board can not be fine effectual will go out a foaming board and separate the transportation back and carry out stable packing.

Disclosure of Invention

The invention aims to provide a cement foam board packing processing device and a cement foam board packing method, which are used for overcoming the defects in the prior art.

The invention relates to a cement foam board packing processing device and a cement foam board packing method, which comprises a main machine body, wherein a storage separation cavity with an upward opening is arranged in the main machine body, a friction plate with a rough surface is fixedly arranged on the inner wall of the storage separation cavity, supporting cavities which are symmetrical about two sides of the storage separation cavity are communicated and arranged on the lower sides of the left wall and the right wall in the storage separation cavity, a movable lifting plate is arranged in each supporting cavity, a pre-packing cavity is communicated and arranged on the lower side of the storage separation cavity, switching cavities which are distributed in a matrix arrangement and can move left and right are arranged in each switching cavity, clamping plates are fixedly arranged on the lower end faces of all the switching plates, a plastic packing film for packing the foam boards is fixedly clamped between every two adjacent clamping plates, and a moving cavity is communicated and arranged on the lower wall of each pre-packing cavity, the lower wall of the moving cavity is communicated with a transverse transmission cavity, transmission shafts which are bilaterally symmetrical are rotatably arranged between the front wall and the rear wall of the left side and the right side of the transmission cavity, a transmission drum is fixedly connected to the outer circular surface of each transmission shaft, a transmission belt for conveying is wound between the transmission drums of the left side and the right side, the right wall of the moving cavity is communicated with a packaging cavity, a heating plate is fixedly arranged on the upper wall of the packaging cavity, the upper wall of the packaging cavity is communicated with two closed cavities which are equal in size and specification, a closed assembly is arranged in each closed cavity and can break off and close the left side and the right side of the packaging cavity, the right wall of the packaging cavity is communicated with a guide cavity with an outward opening, an inclined guide inclined surface is arranged on the lower wall of the guide cavity, a detection cavity is communicated with the lower wall of the guide cavity, a detection shaft is rotatably arranged on the upper side between the front wall and the rear wall of the detection cavity, and a detection rotating plate which can turn is fixedly connected to the outer circular surface of the detection shaft, the guide chamber upper wall intercommunication is equipped with the fan chamber, the fan intracavity rotates and is equipped with the rotation fan.

Further technical scheme, the fan chamber with the fixed fan safety cover that is equipped with of direction chamber junction, rotation fan up end center of rotation fixedly connected with power shaft, fan chamber upper wall internal fixation is equipped with the rotation motor, power shaft upper end power connect in rotate the motor, fan chamber upper wall right side intercommunication is equipped with the ascending air pipe of opening.

According to the technical scheme, a return spring is fixedly connected between the lower end face of the detection rotating plate and the lower wall of the detection cavity, a rotating speed detector is fixedly arranged in the front wall of the detection cavity, and the front end of the detection shaft is in contact connection with the rotating speed detector.

Further technical scheme, the seal assembly is located including rotating left closed axle between the two walls around the closed chamber, the outer disc fixedly connected with of closed axle can the upset seal the commentaries on classics board, seal the downward extension below the commentaries on classics board the packing intracavity and with the transmission band upper surface offsets, be equipped with the chamber that resets in the closed chamber antetheca, the preceding terminal surface of closed axle extends forward to reset intracavity and fixedly connected with reset torsion spring.

According to the technical scheme, a conveying motor is fixedly arranged on the right side in the front wall of the conveying cavity, the front end of the conveying shaft on the right side is in power connection with the conveying motor, a reciprocating cavity is arranged in the front side wall of the conveying motor, a reciprocating rotating shaft is arranged between the front wall and the rear wall of the reciprocating cavity in a rotating mode, a reciprocating rotating drum is fixedly connected to the outer circular surface of the reciprocating rotating shaft, an annular clamping sliding groove is formed in the outer end surface of the reciprocating rotating drum, a moving sliding groove is formed in the right wall of the reciprocating cavity in a communicating mode, a moving pointer capable of moving back and forth is arranged in the moving sliding groove, the left end of the moving pointer is in a pointed shape, the left end face of the moving pointer extends to the inside of the reciprocating cavity leftwards and is clamped with the clamping sliding groove, and a connecting pull rope is fixedly connected to the rear end face of the moving pointer.

According to the technical scheme, the lifting plate is far away from one side end face of the storage separation cavity and the supporting cavity is far away from a supporting spring fixedly connected between one side wall of the storage separation cavity, the lifting plate is far away from one side end face of the storage separation cavity and fixedly connected with a supporting pull rope, and the supporting pull rope is fixedly connected with the connecting pull rope and arranged on two sides of the supporting pull rope.

According to the technical scheme, the switching cavity rear wall is communicated with and provided with switching chutes, all the switching plate rear end faces are fixedly connected with movable sliding blocks, the rear end faces of the movable sliding blocks extend backwards into the switching chutes and are clamped, and movable pull ropes with certain lengths are fixedly connected between the movable sliding blocks on two adjacent sides.

Further technical scheme, switch wall in-circuit behind the spout and be equipped with the sprocket chamber, rotate the support pivot that is equipped with bilateral symmetry between the two walls about the sprocket intracavity left and right sides, support the outer disc fixedly connected with drive sprocket of pivot, both sides around being equipped with same drive chain between the drive sprocket, two promotion connecting rods of drive chain outside end face fixedly connected with, the promotion connecting rod can remove to switching in the spout and promote the removal slider along with the in-process that drive chain removed and remove, sprocket chamber right side lower wall internal fixation is equipped with energy supply motor, the right side support pivot lower extreme power connect in energy supply motor.

A method for packaging a cement foam board comprises the following specific steps:

the first step, after the main box body is stably placed, cement foaming boards to be packaged are stored in a storage separation cavity in a stacking mode from top to bottom and are lifted through the lifting plates on the two sides, the cement foaming boards abut against the surfaces of the friction plates on the two sides, then a conveying motor is started to drive a reciprocating rotating shaft to rotate, the reciprocating rotating shaft rotates and drives a reciprocating rotating drum to rotate through fixed connection, the reciprocating rotating drum rotates and drives a moving pointer to move back and forth through a clamping sliding groove and a moving pointer clamping device which are arranged around the outer end face, the moving pointer moves back and forth and pulls a connecting pull rope to move back and forth through fixed connection, when the connecting pull rope moves forward in the process, the connecting pull rope moves through connecting and pulling the supporting pull ropes on the two sides, the supporting pull ropes on the two sides move and overcome the elastic force of a supporting spring to move into the supporting cavity through fixedly connecting and pulling the lifting plates on the two sides, the lifting plates are connected and loosened with the connecting pull ropes due to the supporting pull ropes, and are pushed by the supporting springs to move and reset again, the cement foaming plates stored in the storage separation cavities drop downwards under the action of gravity in the process that the lifting plates on the two sides move into the supporting cavities, and then the lifting plates reset to lift the cement foaming plates again, so that the effect of separating and dropping the cement foaming plates is achieved;

secondly, the cement foaming board that subsequently drops gets into to pack the intracavity in advance, and open the plastic packaging membrane in advance through packing the intracavity in advance and carry out the parcel to cement foaming board surface in advance after, along with cement foaming board plastic packaging membrane breaks away from the clamping of both sides splint, along with cement foaming board continues to drop downwards to the removal intracavity, after a prepackage work is accomplished, energy supply motor starts and drives right side support pivot and rotate, right side support pivot rotates and drives right side drive sprocket through fixed connection this moment, right and left sides drive sprocket passes through drive chain transmission and rotates this moment, along with drive chain's removal this moment, drive chain drives left side through fixed connection and promotes the outer end of connecting rod and remove in the stay cord and promote the removal slider that switches left side rightmost in the spout and remove right, the removal slider removes right and drives the switching board that switches left side rightmost in the intracavity and remove right through fixed connection this moment and gradually The movable sliding blocks move to the right side of the pre-packaging cavity, in the process, the movable sliding blocks move to pull the adjacent movable sliding blocks to move rightwards for a certain distance through connection of the movable pull ropes, the movable sliding blocks are pushed to the right side conveniently to be pushed by the connecting rods for the next time, the movable sliding blocks are pushed to the right side by the pushing connecting rods and then move back to the chain wheel cavity along the arc-shaped moving track, the plastic packaging films clamped between the adjacent switching plates on the two sides through the clamping plates are opened through movement of the switching plates, the effect that the new plastic packaging films are opened and move into the pre-packaging cavity is achieved, and the cement foaming plates are packaged in advance for the next time conveniently;

thirdly, the cement foaming board which is packaged in advance falls into the moving cavity and is lifted through the upper surface of the transmission belt, the transmission motor drives the right transmission shaft to rotate, the right transmission shaft drives the right transmission rotary drum to rotate through fixed connection, the left transmission rotary drum and the right transmission rotary drum are driven to rotate through the transmission belt, the cement foaming board is driven to move rightwards along with the lifting and moving of the transmission belt, the cement foaming board moves rightwards and pushes the left sealing rotary board to turn over, the left sealing rotary board turns over and drives the sealing shaft to overcome the torsional elasticity of the reset torsion spring to rotate, then after the cement foaming board completely enters the packaging cavity, the sealing rotary board rotates again under the torsional elasticity of the reset torsion spring and reappears the sealing of the packaging cavity, the heating plate is started and heats the air in the packaging cavity, and the plastic packaging film packaged on the surface of the cement foaming board entering the packaging cavity shrinks in an environment with higher temperature, the cement foaming board is stably and tightly sleeved on the surface of the cement foaming board, and the packaging work is finished at the moment;

fourthly, the cement foaming board continues to move rightwards under the driving of a transmission belt, the right side sealing rotating board is pushed to turn over and then moves into a guide cavity, the cement foaming board after being packaged enters the guide cavity, the guide inclined plane is guided in an inclined mode and drives the cement foaming board to slide downwards, the detection rotating board is pushed downwards to turn over under the elastic force action of a reset spring in the process that the cement foaming board slides downwards along the inclined guide inclined plane in an inclined mode, the detection rotating board turns over at the moment and drives a detection shaft to rotate for a moving angle, and the quantity of the packaged cement foaming board is conveniently recorded through a speed detector detection technology;

fifthly, at the in-process of cement foaming board landing, rotate the motor and start and drive the power shaft and rotate, the power shaft rotates and drives through fixed connection and rotate the fan rotation this moment, rotate the fan this moment and rotate and inhale the back with the outside air through air pipe, input to the direction intracavity through the fan chamber downwards, and then cool down to the cement foaming board surface that removes to the direction intracavity, and then when preventing to carry out the surface packing of cement foaming board fixed in the packing chamber, the heat of production influences the storage production of cement foaming board.

The invention has the beneficial effects that: according to the invention, the foam cement board falls off by moving left and right in the process of lifting the foam cement board by the lifting board, and further the effect of separating the cement foam board from falling off is realized.

Drawings

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

FIG. 2 is a schematic view of the overall structure of a cement foam board packaging processing device and a cement foam board packaging method according to the present invention;

FIG. 3 is a schematic view of A-A of FIG. 2 in accordance with the present invention;

FIG. 4 is a schematic view of B-B of FIG. 2 according to the present invention;

FIG. 5 is an enlarged partial schematic view of C of FIG. 2 in accordance with the present invention;

FIG. 6 is an enlarged partial schematic view of D of FIG. 2 in accordance with the present invention;

FIG. 7 is an enlarged partial schematic view of E of FIG. 2 in accordance with the present invention;

FIG. 8 is a schematic view of F-F of FIG. 4 according to the present invention;

FIG. 9 is a schematic view of G-G of FIG. 6 according to the present invention;

FIG. 10 is a schematic view of H-H of FIG. 7 according to the present invention.

Detailed Description

In order to make the objects and advantages of the present invention more apparent, the following description is made in detail with reference to the accompanying examples, it should be understood that the following text is only used to describe the apparatus and method for packing cement foamed board of the present invention, and does not strictly limit the scope of the invention, as used herein, the terms upper, lower, left and right are not limited to their strict geometric definitions, but include tolerances for machining or human error, and inconsistencies, and the following detailed description is made for the specific features of the apparatus and method for packing cement foamed board:

referring to fig. 1 to 10, a cement foam board packing processing apparatus and a cement foam board packing method according to an embodiment of the present invention includes a main body 11, a storage compartment 13 with an upward opening is provided in the main body 11, a friction plate 12 with a rough surface is fixedly provided on an inner wall of the storage compartment 13, support cavities 50 symmetrical to both sides of the storage compartment 13 are provided in the storage compartment 13 in communication with lower sides of left and right walls, a movable lifting plate 31 is provided in the support cavity 50, a pre-packing cavity 14 is provided in communication with a lower side of the storage compartment 13, a switching cavity 20 is provided in communication with left and right walls of the pre-packing cavity 14, switching plates 40 distributed in a matrix arrangement and capable of moving left and right are provided in the switching cavity 20, clamping plates 54 are fixedly provided on lower end surfaces of all the switching plates 40, a plastic packing film 56 for packing foam boards is fixedly provided between two adjacent clamping plates 54, the lower wall of the pre-packaging cavity 14 is communicated with a moving cavity 19, the lower wall of the moving cavity 19 is communicated with a transverse transmission cavity 17, transmission shafts 15 which are bilaterally symmetrical are rotatably arranged between the front wall and the rear wall of the left side and the right side in the transmission cavity 17, a transmission drum 16 is fixedly connected to the outer circular surface of each transmission shaft 15, a transmission belt 18 for conveying is wound between the transmission drums 16 of the left side and the right side, a packaging cavity 22 is communicated with the right wall of the moving cavity 19, a heating plate 21 is fixedly arranged on the upper wall of the packaging cavity 22, two closed cavities 59 with the same size and specification are communicated with each other are arranged on the upper wall of the packaging cavity 22, a closed assembly is arranged in each closed cavity 59 and can disconnect and close the left side and the right side of the packaging cavity 22, a guide cavity 24 with an outward opening is communicated with the right wall of the packaging cavity 22, an inclined guide inclined plane 23 is arranged on the lower wall of the guide cavity 24, and a detection cavity 61 is communicated with the lower wall of the guide cavity 24, the upside rotates between two walls around in the detection chamber 61 and is equipped with detection axle 60, the outer disc fixedly connected with of detection axle 60 can overturn detects commentaries on classics board 63, the direction chamber 24 upper wall intercommunication is equipped with fan cavity 27, fan cavity 27 internal rotation is equipped with rotating fan 26.

Beneficially or exemplarily, a fan protection cover 25 is fixedly arranged at a connection position of the fan cavity 27 and the guide cavity 24, a power shaft 30 is fixedly connected to a rotation center of an upper end face of the rotating fan 26, a rotating motor 29 is fixedly arranged in an upper wall of the fan cavity 27, an upper end of the power shaft 30 is in power connection with the rotating motor 29, and a ventilation duct 28 with an upward opening is communicated with a right side of the upper wall of the fan cavity 27.

Beneficially or exemplarily, a return spring 62 is fixedly connected between the lower end surface of the detection rotating plate 63 and the lower wall of the detection cavity 61, a rotation speed detector 67 is fixedly arranged in the front wall of the detection cavity 61, and the front end of the detection shaft 60 is in contact connection with the rotation speed detector 67.

Advantageously or exemplarily, the closing assembly comprises a closing shaft 58 rotatably arranged on the left side between the front wall and the rear wall of the closing cavity 59, a reversible closing rotating plate 57 is fixedly connected to the outer circumferential surface of the closing shaft 58, the lower surface of the closing rotating plate 57 extends downwards into the packaging cavity 22 and is abutted against the upper surface of the conveyor belt 18, a reset cavity 65 is arranged in the front wall of the closing cavity 59, and the front end surface of the closing shaft 58 extends forwards into the reset cavity 65 and is fixedly connected with a reset torsion spring 66.

Beneficially or exemplarily, a conveying motor 32 is fixedly arranged on the right side in the front wall of the conveying cavity 17, the front end of the right side conveying shaft 15 is in power connection with the conveying motor 32, a reciprocating cavity 36 is arranged in the front side wall of the conveying motor 32, a reciprocating rotating shaft 37 is rotatably arranged between the front wall and the rear wall in the reciprocating cavity 36, a reciprocating rotating drum 38 is fixedly connected to the outer circular surface of the reciprocating rotating shaft 37, an annular card installing sliding groove 39 is arranged on the outer circular surface of the reciprocating rotating drum 38, a moving sliding groove 35 is arranged on the right wall of the reciprocating cavity 36 in a communicating manner, a moving pointer 34 capable of moving forward and backward is arranged in the moving sliding groove 35, the left end of the moving pointer 34 is pointed, the left end of the moving pointer 34 extends leftward into the reciprocating cavity 36 and is installed and clamped with the card installing sliding groove 39, and a connecting pull rope 33 is fixedly connected to the rear end of the moving pointer 34.

Advantageously or exemplarily, a support spring 51 is fixedly connected between an end surface of the lifting plate 31 far away from the storage compartment 13 and a side wall of the support chamber 50 far away from the storage compartment 13, a support pull rope 52 is fixedly connected to an end surface of the lifting plate 31 far away from the storage compartment 13, and the support pull ropes 52 are fixedly connected to the connection pull rope 33 on two sides.

Advantageously or exemplarily, the rear wall of the switching chamber 20 is provided with a switching chute 41 in a communicating manner, a movable slider 42 is fixedly connected to the rear end surface of all the switching plates 40, the rear end surface of the movable slider 42 extends backwards into the switching chute 41 and is clamped, and a movable pull rope 46 with a certain length is fixedly connected between the movable sliders 42 on two adjacent sides.

Beneficially or exemplarily, a chain wheel cavity 44 is arranged in the rear wall of the switching chute 41 in a communicating manner, a bilaterally symmetrical supporting rotating shaft 47 is arranged in the chain wheel cavity 44 in a rotating manner between an upper wall and a lower wall on the left side and the right side, a driving chain wheel 43 is fixedly connected to the outer circular surface of the supporting rotating shaft 47, the same driving chain 45 is wound between the driving chain wheels 43 on the two sides, two pushing connecting rods 48 are fixedly connected to the outer end surfaces of the driving chain 45, the pushing connecting rods 48 can move into the switching chute 41 and push the moving slider 42 to move in the process of moving along with the driving chain 45, an energy supply motor 64 is fixedly arranged in the lower wall of the right side of the chain wheel cavity 44, and the lower end of the supporting rotating shaft 47 on the right side is dynamically connected to the energy supply motor 64.

A method for packaging a cement foam board comprises the following specific steps:

firstly, after the main box body is stably placed, cement foaming plates to be packaged are stored in the storage separation cavity 13 from top to bottom in a stacking mode and are lifted through the lifting plates 31 on the two sides, the cement foaming plates abut against the surfaces of the friction plates 12 on the two sides, then the conveying motor 32 is started to drive the reciprocating rotating shaft 37 to rotate, the reciprocating rotating shaft 37 rotates and drives the reciprocating rotating drum 38 to rotate through fixed connection, the reciprocating rotating drum 38 rotates and drives the moving pointer 34 to move back and forth through the clamping sliding groove 39 arranged around the outer end face and the moving pointer 34, the moving pointer 34 moves back and forth and pulls the connecting pull rope 33 to move back and forth through fixed connection, when the connecting pull rope 33 moves forward in the process, the connecting pull rope 33 pulls the supporting pull ropes 52 on the two sides to move, the supporting pull ropes 52 on the two sides move and pull the lifting plates 31 on the two sides to move towards the supporting cavity 50 through fixed connection and overcoming the elastic force of the supporting springs 51, then the lifting plate 31 is loosened by connecting the support pull rope 52 with the connection pull rope 33 and is moved again under the elastic force of the support spring 51 for resetting, in the process that the lifting plates 31 on the two sides move to the inside of the support cavity 50, the cement foaming plate stored in the storage separation cavity 13 falls downwards under the action of gravity, then the lifting plate 31 is reset for carrying out the lifting of the cement foaming plate again, and further the effect of separating and dropping the cement foaming plate is realized;

secondly, the cement foam board that falls down then enters the pre-packaging cavity 14, and after the surface of the cement foam board is wrapped by pre-opening the plastic packaging film 56 in the pre-packaging cavity 14, the cement foam board continues to fall down into the moving cavity 19 along with the cement foam board after the plastic packaging film 56 of the cement foam board is separated from the clamping of the clamping plates 54 at the two sides, after one-time pre-packaging work is completed, the energy supply motor 64 is started and drives the right supporting rotating shaft 47 to rotate, at the moment, the right supporting rotating shaft 47 rotates and drives the right transmission chain wheel 43 to rotate through fixed connection, at the moment, the left and right transmission chain wheels 43 are driven and rotate through the transmission chain 45, at the moment, along with the movement of the transmission chain 45, the transmission chain 45 drives the outer end of the left pushing connecting rod 48 to move into the moving pull rope 46 through fixed connection and pushes the rightmost left moving slide block 42 in the switching chute 41 to move rightmost, at the moment, the movable sliding block 42 is pushed by the pushing connecting rod 48 to move rightwards, the switching plate 40 which is rightmost at the left side in the switching cavity 20 is driven to move rightwards through fixed connection and gradually moves to the right side of the pre-packaging cavity 14, in the process, the movable sliding block 42 moves to pull the adjacent movable sliding block 42 to move rightwards for a certain distance through the connection of the movable pull rope 46, the next pushing of the pushing connecting rod 48 is facilitated, the movable sliding block 42 is pushed to the right side by the pushing connecting rod 48 and then moves back to the chain wheel cavity 44 along the arc-shaped moving track again, at the moment, the plastic packaging film 56 clamped between the adjacent switching plates 40 at the two sides through the clamping plate 54 is opened through the movement of the switching plate 40, the effect that the new plastic packaging film 56 is opened and moved into the pre-packaging cavity 14 is achieved, and the next pre-packaging of the cement foaming plate is facilitated;

thirdly, the cement foaming board which is packaged in advance falls into the moving cavity 19 and is lifted through the upper surface of the transmission belt 18, the transmission motor 32 drives the right transmission shaft 15 to rotate, the right transmission shaft 15 drives the right transmission rotary drum 16 to rotate through fixed connection, the left and right transmission rotary drums 16 are driven to rotate through the transmission belt 18, the cement foaming board is driven to move rightwards along with the lifting and moving of the transmission belt 18, the cement foaming board moves rightwards and pushes the left sealing rotary board 57 to turn over, the left sealing rotary board 57 turns over and drives the sealing shaft 58 to rotate against the torsional elasticity of the reset torsion spring 66, then after the cement foaming board completely enters the packaging cavity 22, the sealing rotary board 57 turns around again under the torsional elasticity of the reset torsion spring 66 and seals the packaging cavity 22, the heating plate 21 is started and heats the air in the packaging cavity 22, at this time, the plastic packaging film 56 packaged on the surface of the cement foam board entering the packaging cavity 22 shrinks in a higher temperature environment and is stably and tightly sleeved on the surface of the cement foam board, and at this time, the packaging work is finished;

fourthly, the cement foaming board continues to move rightwards under the driving of the transmission belt 18, the right side sealing rotating board 57 is pushed to turn over and move into the guide cavity 24, at the moment, the cement foaming board after being packaged enters the guide cavity 24, the guide inclined plane 23 is guided to incline and guide and drive the cement foaming board to slide downwards, then the detection rotating board 63 is pushed to turn downwards to overcome the elastic force action of the reset spring 62 in the process that the cement foaming board slides downwards along the inclined guide inclined plane 23 in an inclined mode, at the moment, the detection rotating board 63 turns over and drives the detection shaft 60 to rotate for a moving angle, at the moment, the quantity of the packaged cement foaming board is detected and recorded conveniently through the rotating speed detector 67;

fifthly, in the process that the cement foaming board slides down, the rotating motor 29 is started and drives the power shaft 30 to rotate, at the moment, the power shaft 30 rotates and drives the rotating fan 26 to rotate through fixed connection, at the moment, the rotating fan 26 rotates and sucks the outside air through the ventilation pipeline 28, the outside air is downwards input into the guide cavity 24 through the fan cavity 27, then the surface of the cement foaming board moving into the guide cavity 24 is cooled, and further, when the surface of the cement foaming board is packaged and fixed in the packaging cavity 22, the generated heat influences the storage of the cement foaming board.

The invention has the beneficial effects that: according to the invention, the foam cement board falls off by moving left and right in the process of lifting the foam cement board by the lifting board, and further the effect of separating the cement foam board from falling off is realized.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.