CN112571615A - Remove baffle and get and put device of evaporating pressure aerated concrete product production mould - Google Patents

Abstract

The movable partition plate and the picking and placing device of the mold for producing the autoclaved aerated concrete product are installed in a matching way through a partition plate hanging mechanism on the picking and placing device and a hoisting hanging connection hole on the movable partition plate, so that the quick connection and separation between a picking and placing mechanical arm and the movable partition plate are realized; the vertical control shaft and the vertical operation shaft in the movable partition plate are controlled by a magnetic box switch driving device on the taking and placing device, so that the magnetic force of the magnetic box is opened and closed, and the movable partition plate is separated from or adsorbed to the mold finally; the vertical and horizontal movement of the movable partition plate is realized through the lifting frame and the walking trolley. The autoclaved aerated concrete product has the advantages of ingenious design, simple structure, high production efficiency, low use and maintenance cost and greatly reduced labor cost, thereby effectively reducing the production cost of the autoclaved aerated concrete product.

Description

Remove baffle and get and put device of evaporating pressure aerated concrete product production mould

Technical Field

The invention belongs to the technical field of production of autoclaved aerated concrete products, and particularly relates to a movable partition plate and a taking and placing device of a mold for producing autoclaved aerated concrete products.

Background

In the production process of autoclaved aerated concrete products, due to the requirements of a blank cutting technology and the practical application environment of the autoclaved aerated concrete products, various autoclaved aerated concrete products with different sizes and specifications are generally required to be produced, so that reasonable matching between the sizes and specifications of the blank and the final finished product is ensured when the blank is cast and molded, semi-finished products which cannot meet the size and specification requirements are prevented from being produced in the cutting process of the blank after the blank is molded, and waste of raw materials and energy is finally reduced.

In the existing production technology of autoclaved aerated concrete products, a mould used for casting and molding a blank can only produce a blank with a fixed size and specification, when the autoclaved aerated concrete blanks with different sizes and specifications need to be poured, a movable partition plate can be temporarily added in a mould frame, and in the prior art, the movement and installation of the movable partition plate need at least two workers to operate in cooperation with a forklift or hoisting equipment, so that the time and labor are wasted, the efficiency is low, a great potential safety hazard exists, the whole line production rhythm of the autoclaved aerated concrete products is seriously influenced, the production efficiency of the autoclaved aerated concrete products is reduced, and the production cost of the autoclaved aerated concrete products is increased.

Disclosure of Invention

The invention aims to provide a movable partition plate and a taking and placing device of a mold for producing an autoclaved aerated concrete product.

In order to achieve the purpose, the invention adopts the technical scheme that: the movable partition plate of the mold for producing the autoclaved aerated concrete product comprises a partition plate body and a magnetic box arranged at the lower part of the partition plate body, wherein the magnetic box is arranged on one side of the partition plate body, which is not in contact with a blank body, through a magnetic box mounting frame, the magnetic box is provided with a magnetic box switch, and a magnetic box switch control mechanism for controlling the on-off of the magnetic box switch is also arranged on the same side of the partition plate body; the magnetic box switch control mechanism comprises a vertical operating shaft, a connecting rod and a vertical control shaft, wherein the lower end of the vertical operating shaft is fixedly connected with a magnetic box switch, the vertical operating shaft is arranged on an operating shaft guide limiting support arranged on the partition body in a sliding fit manner, the connecting rod is hinged with a hinge frame arranged on a magnetic box mounting frame, one end of the connecting rod is in transmission connection with the vertical operating shaft, the other end of the connecting rod is hinged with the lower end of the vertical control shaft, and the vertical control shaft is simultaneously in sliding connection with a control shaft guide limiting support arranged on the partition body; the baffle body upper end is equipped with the diaphragm with the baffle body looks is perpendicular, is provided with on the diaphragm to supply to remove the baffle and gets the hoist and mount hookup hole that the device hoist and mount was used, still is equipped with the operating axis that the position corresponds to vertical operating axis and corresponds the hole and the control shaft that the position corresponds to vertical control shaft corresponds the hole.

As a specific implementation manner, the number of the magnetic boxes is two, the number of the magnetic box switch control mechanisms is also two, and the two magnetic box switch control mechanisms and the two magnetic box switches are respectively arranged correspondingly.

Further, hoist and mount hook hole include a circular portion and a microscler portion, the length of microscler portion is greater than the diameter of circular portion, and microscler portion runs through the circular portion setting.

Furthermore, a hoisting hanging reinforcing plate is arranged at the position, corresponding to the hoisting hanging hole, of the lower end face of the transverse plate, a hoisting hole with the shape and the size consistent with that of the hoisting hanging hole is formed in the hoisting hanging reinforcing plate, and a long hoisting hanging limiting groove is formed in the hoisting hanging reinforcing plate in the direction perpendicular to the long part.

Furthermore, the lower part of the partition body, which is positioned in the hoisting hanging hole, is provided with a hanging spindle guide limiting frame for guiding and positioning the hoisting hanging spindle.

Furthermore, an operation protrusion is arranged at a position, close to the end portion, of the lower portion of the vertical operation shaft, a connecting rod installation notch installed in a matched mode with the end portion of the vertical operation shaft is formed in the corresponding end portion of the connecting rod, and the connecting rod is sleeved on the end portion, located below the operation protrusion, of the vertical operation shaft through the connecting rod installation notch.

The picking and placing device for the movable partition plate in the mold for producing the autoclaved aerated concrete product comprises a support, wherein the support is provided with two longitudinal beams which are arranged in parallel, a walking trolley capable of moving along the longitudinal beams is arranged on each longitudinal beam, a lifting frame is arranged on one side of the walking trolley through a linear motion pair, a lifting frame driving device used for driving the lifting frame to lift is arranged on the walking trolley, a picking and placing manipulator is arranged at the lower end of the lifting frame and comprises a manipulator frame connected with the lifting frame, a partition plate hooking mechanism and a magnetic box switch driving device are arranged on the manipulator frame, and the partition plate hooking mechanism is provided with a hooking shaft used for being installed in a matched mode with a lifting hooking hole in the movable partition plate; the magnetic box switch driving device comprises an operating shaft driving cylinder for driving a vertical operating shaft on the movable partition plate and a control shaft driving cylinder for driving a vertical control shaft on the movable partition plate.

Furthermore, the hanging shaft is provided with a hanging pin shaft perpendicular to the hanging shaft, and the length of the hanging pin shaft is larger than the diameter of the hanging shaft.

Furthermore, a hanging shaft rotation driving cylinder capable of driving the hanging shaft to rotate is arranged on the manipulator frame.

Furthermore, the number of the hanging connecting shafts is two, the cylinder body of the hanging connecting shaft rotation driving cylinder is hinged with the manipulator frame, and the extending end of the piston rod is hinged with the rocker arm fixed on one of the hanging connecting shafts; the other hanging shaft is also fixedly connected with a rocker arm, and a connecting rod is hinged between the two rocker arms.

Furthermore, the two hanging connecting shafts can be respectively and independently driven through two driving cylinders, the cylinder bodies of the two driving cylinders are hinged with the manipulator frame, and the extending ends of the piston rods are hinged with the rocker arms on the corresponding hanging connecting shafts.

Has the advantages that:

the picking and placing device is matched with the lifting and hanging holes formed in the movable partition plate through the partition plate hanging mechanism, so that the picking and placing manipulator and the movable partition plate can be quickly connected and separated; the magnetic box switch driving device controls a vertical control shaft and a vertical operating shaft in the movable partition plate to realize the opening and closing of the magnetic force of the magnetic box and finally realize the separation or adsorption of the movable partition plate and the mold; the vertical and horizontal movement of the movable partition plate is realized through the lifting frame and the walking trolley, the design is ingenious, the structure is simple, the production efficiency is high, the use and maintenance cost is low, the labor cost is greatly reduced, and the production cost of autoclaved aerated concrete products can be effectively reduced.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a left side view of fig. 1.

Fig. 3 is a schematic structural view of the movable partition.

Fig. 4 is a top view of fig. 3.

Fig. 5 is a partial enlarged view of a-a in fig. 4.

Fig. 6 is a schematic view of a pick-and-place robot.

Fig. 7 is a schematic perspective view of the pick-and-place robot.

Fig. 8 is a schematic structural view of the pick-and-place manipulator and the movable partition plate when being hooked.

Fig. 9 is an enlarged view of fig. 8 at N.

The labels in the figure are: 1. support, 2, longitudinal beam, 3, guide rail, 4, lifting rack, 5, walking trolley, 6, movable partition board, 61, partition board body, 62, magnetic box, 62a, magnetic box switch, 63, magnetic box mounting rack, 64, hinged rack, 65, magnetic box switch control mechanism, 65a, vertical operating shaft, 65a-1, operating protrusion, 65b, connecting rod, 65c, vertical control shaft, 66, hanging shaft guide limiting rack, 67, operating shaft guide limiting rack, 68, control shaft guide limiting rack, 69, hanging reinforcing plate, 69a, long part, 69b, hanging limiting groove, 70, transverse plate, 70a, hanging connection hole, 70b, operating shaft corresponding hole, 70c, control shaft corresponding hole, 7, picking and placing manipulator, 71, manipulator frame, 72, partition board hanging mechanism, 72a, hanging connection shaft, 72b, hanging pin shaft, 72c and rocker arm, 72d, a hanging connecting shaft rotation driving cylinder, 72e, a connecting rod, 73, a magnetic box switch driving device, 73a, an operation shaft driving cylinder, 73b, a control shaft driving cylinder, 8, a mold, 9 and a lifting frame driving device.

Detailed Description

The present invention will be described in further detail with reference to the following drawings and examples, but the invention is not limited thereto.

Referring to the attached drawings 1-5, the movable partition plate of the mold for producing the autoclaved aerated concrete product comprises a partition plate body 61 and a magnetic box 62 arranged at the lower part of the partition plate body 61, wherein the magnetic box is arranged on one side of the partition plate body, which is not contacted with a blank body, through a magnetic box mounting frame 63, and is provided with a magnetic box switch 62 a. The magnetic box is a permanent magnet or an electromagnet.

A magnetic box switch control mechanism 65 for controlling the opening and closing of the magnetic box switch is further arranged on the same side of the magnetic box 62 on the partition body, the magnetic box switch control mechanism 65 comprises a vertical operating shaft 65a, a connecting rod 65b and a vertical control shaft 65c, the lower end of the vertical operating shaft 65a is connected with the magnetic box switch 62a, and the vertical operating shaft 65a is simultaneously installed with an operating shaft guide limiting support 67 arranged on the partition body 61 in a sliding fit manner; the connecting rod 65b is hinged with a hinge frame 64 arranged on the magnetic box mounting frame 63, one end of the connecting rod 65b is in transmission connection with the vertical operating shaft 65a, and the other end of the connecting rod 65b is hinged with the lower end of the vertical control shaft 65 c; the vertical control shaft 65c is also slidably connected to a control shaft guide limit bracket 68 provided on the diaphragm body 61.

A transverse plate 70 is vertically arranged at the upper end of the partition body 61 and the partition body 61, a hoisting hanging hole 70a for hoisting the movable partition taking and placing device is arranged on the transverse plate 70, and an operation shaft corresponding hole 70b corresponding to the vertical operation shaft and a control shaft corresponding hole 70c corresponding to the vertical control shaft 65c are also arranged.

In this embodiment, there are two magnetic boxes 62, and there are two corresponding magnetic box switch control mechanisms 65, where the two magnetic box switch control mechanisms are respectively disposed corresponding to the two magnetic box switches. In practical applications, the number of the magnetic boxes can be one, three or four, and is not limited to two.

In this embodiment, the hoisting hooking hole 70a includes a circular portion and an elongated portion, the length of the elongated portion is greater than the diameter of the circular portion, and the elongated portion is disposed through the circular portion; the hanging hole 70a may be formed by a square portion and a long portion crossing each other, and the length of the long portion is longer than the side length of the square portion.

In this embodiment, the partition body 61 and the horizontal plate 70 are integrally formed, and the horizontal plate 70 is formed by folding the upper end of the partition body 61. The diaphragm body 61 and the cross plate 70 may be formed by welding two separate pieces.

In this embodiment, in order to make the work of hoisting the movable partition plate safer, a hoisting hanging reinforcing plate 69 is arranged at a position corresponding to the hoisting hanging hole 70a at the lower end surface of the transverse plate 70, a hoisting hole with the same shape and size as the hoisting hanging hole 70a is arranged on the hoisting hanging reinforcing plate 69, and a long hoisting hanging limiting groove 69b is arranged on the hoisting hanging reinforcing plate 69 in the direction perpendicular to the long part 69 a.

The lower part of the partition board body 61, which is positioned in the hoisting hanging hole, is provided with a hanging spindle guide limiting frame 66 for guiding and positioning the hoisting hanging spindle.

In this embodiment, the connection between the vertical operating shaft 65a and the connecting rod 65b adopts the following structure: the operating protrusion 65a-1 is provided at a position near the end of the lower portion of the vertical operating shaft 65a, and the operating protrusion 65a-1 may be continuously provided in a ring shape along the circumference of the vertical operating shaft 65a, or may be intermittently provided as a plurality of independent protrusions. A connecting rod mounting hole which is matched with the end part of the vertical operating shaft 65a is arranged at the corresponding end part of the connecting rod 65b, and the connecting rod 65b is sleeved at the end part of the vertical operating shaft 65a which is positioned below the operating bulge 65a-1 through the connecting rod mounting hole.

Referring to the attached drawings 1-2 and 6-7, the device for taking and placing the movable partition plate in the mold for producing the autoclaved aerated concrete product comprises a support 1, wherein the support is provided with two longitudinal beams 2 arranged in parallel, and a travelling trolley 5 capable of moving along the longitudinal beams 2 is arranged on the longitudinal beams 2. Specifically, in the present embodiment, the longitudinal beam is provided with the guide rail 3, and the traveling carriage moves along the guide rail 3.

Specifically, the support 1 can adopt a frame structure formed by connecting two longitudinal beams 2 with two door frames, when the support is used, the two door frames are arranged on two sides of the length direction of the whole mold 8, and the two longitudinal beams 2 are parallel to the length direction of the mold 8.

A lifting frame 4 is arranged on one side of the walking trolley 5 through a linear motion pair, and a lifting frame driving device 9 used for driving the lifting frame to lift is arranged on the walking trolley 5. In this embodiment, the linear motion pair includes a fixed slider fixed on the traveling trolley and a movable slide rail fixed on the crane. The linear motion pair can also be a sliding bearing fixed on the walking trolley and a sliding shaft fixed on the lifting frame, and other structures capable of realizing sliding connection can also be adopted, the connection mode of the part is the prior art, and the detailed description is not referred to in the attached drawings.

The lifting frame driving device 9 can be any one of a hydraulic cylinder, an air cylinder, an electric push rod, a guide rail lead screw, a gear rack and the like, and can realize the driving device of the invention. In the embodiment, the lifting frame driving device 9 is a hydraulic cylinder, the cylinder body of the hydraulic cylinder is hinged with the walking trolley 5, and the extending end of the piston rod of the hydraulic cylinder is hinged with the upper end of the lifting frame 4.

A picking and placing manipulator 7 is arranged at the lower end of the lifting frame 4, the picking and placing manipulator 7 comprises a manipulator frame 71 connected with the lifting frame 4, a partition plate hanging mechanism 72 and a magnetic box switch driving device 73 are arranged on the manipulator frame 71, and the partition plate hanging mechanism 72 is provided with a hanging shaft 72a which is used for being matched with a hanging and connecting hole 70a on the movable partition plate 6; the magnetic box switch driving device 73 includes an operating shaft driving cylinder 73a for driving the vertical operating shaft 65a on the movable partition 6 and a control shaft driving cylinder 73b for driving the vertical control shaft 65c on the movable partition 6.

In this embodiment, the hanging shaft 72a is installed on the manipulator frame 71 through a bearing seat, and one end of the hanging shaft 72a, which cooperates with the hanging hole 70a on the movable partition 6, is a tapered guide structure.

The cylinder bodies of the operation shaft driving cylinder 73a and the control shaft driving cylinder 73b are provided on the hand frame 71, and the operation shaft driving cylinder 73a and the control shaft driving cylinder 73b are either a hydraulic cylinder, an air cylinder, or an electric push rod.

The hanging shaft 72a is provided with a hanging pin shaft 72b which is vertical to the hanging shaft 72a, and the length of the hanging pin shaft 72b is larger than the diameter of the hanging shaft 72 a.

A coupling shaft rotation driving cylinder 72d capable of driving the coupling shaft 72a to rotate is provided on the hand frame 71.

When two hanging shafts are provided, as shown in fig. 6 and 7, the cylinder body of the hanging shaft rotation driving cylinder 72d is hinged with the manipulator frame 71, and the extending end of the piston rod is hinged with the rocker arm 72c fixed on one hanging shaft 72 a; the other hanging shaft 72a is also fixedly connected with a rocker arm 72c, and a connecting rod 72e is hinged between the two rocker arms 72 c. The hanging shaft rotation driving cylinder 72d acts to drive the two swing arms 72c to rotate simultaneously through the connecting rod 72e, when the hanging pin 72b is matched with the long part 69a of the hanging hole in parallel, the picking and placing manipulator 7 is separated from the movable partition plate 6, and when the hanging pin 72b is matched with the hanging connection limiting groove 69b, the picking and placing manipulator 7 is hung with the movable partition plate 6.

If the number of the hanging shafts 72a is three or four, the hanging shafts are also provided with rocker arms, and then the rocker arms are hinged with connecting rods, and when the number of the hanging shafts is three or four, the length of the connecting rods is determined according to the situation.

If the number of the hitching shafts is two, three or four, the hitching shaft rotating drive cylinders 72d which can drive the hitching shafts 72a to rotate can also be set to be two, three or four, and each hitching shaft rotating drive cylinder 72d can independently drive the corresponding hitching shaft 72a through the rocker arm 72 c.

The hitch shaft rotation driving cylinder 72d may be any one of a hydraulic cylinder, a pneumatic cylinder, or an electric push rod.

The practical working process of the invention is as follows:

when short-mold production is carried out, after the mold 8 with the movable partition plate 6 is conveyed to the unlocking mold opening station, the taking and placing manipulator 7 moves to the position right above the movable partition plate 6 through the walking trolley 5. At this time, the hanging shaft 72a of the pick-and-place manipulator 7 is parallel to the long part of the hanging hole 70a on the transverse plate 70, and the hanging pin 72b is parallel to the long part of the hanging hole 70a, that is, the long part of the hanging hole on the hanging reinforcing plate 69; then the picking and placing manipulator 7 vertically moves downwards through the lifting frame 4 to the hanging pin shaft 72b to finish penetrating through the hanging and hanging reinforcing plate 69, then the hanging and connecting shaft rotates the driving cylinder 72d to act to drive the hanging and connecting shaft 72a to rotate, so that the hanging and connecting pin shaft 72b is parallel to the hanging and connecting limiting groove 69b on the hanging and connecting reinforcing plate 69, and the hanging and placing manipulator 7 is connected with the movable partition plate 6; then, the control shaft driving cylinder 73b of the magnetic box switch driving device 73 is operated to move the vertical control shaft 65c downward, and the vertical operation shaft 65a is moved upward by the connecting rod 65b, so that the magnetic box switch 62a is driven to move upward, the magnetic force of the magnetic box is turned off, and the movable partition 6 is separated from the mold 8. After the mold is unlocked and opened, the picking and placing manipulator 7 which is connected with the movable partition board 6 in a hanging mode transfers the movable partition board 6 to a partition board storage position under the driving of the lifting frame 4 and the walking trolley 5.

After the mold 8 is conveyed to a mold closing and locking station, the picking and placing manipulator 7 is driven by the lifting frame 4 and the walking trolley 5 to transfer the movable partition plate 6 to a preset position above the mold 8 from a storage position, the lifting frame 4 vertically descends to enable the bottom of the movable partition plate 6 to be in contact with a bottom plate of the mold 8, after the mold 8 is closed and locked, an operating shaft driving cylinder 73a in the magnetic box switch driving device 73 acts to drive the vertical operating shaft 65a to move downwards so as to drive the magnetic box switch 62a to move downwards, magnetic force of the magnetic box is turned on so as to enable the movable partition plate 6 to be adsorbed to the bottom plate of the mold 8, the corresponding end of the connecting rod 65b is driven to move downwards while the vertical operating shaft 65a moves downwards, so as to drive the vertical control shaft 65c hinged to the other end of the connecting rod 65b to move upwards, and at the; then, the hanging shaft in the partition hanging mechanism 72 rotates the driving cylinder 72d to operate, and drives the hanging shaft 72a to rotate, so that the hanging pin 72b is parallel to the long part of the hanging hole 70a, that is, the long part of the hanging hole on the hanging reinforced plate 69, and then the lifting frame 4 moves upwards to the uppermost end, and the picking and placing manipulator 7 returns to the initial position to wait for the next use through the traveling trolley 5.

The above embodiments are only intended to illustrate the technical solution of the present invention and not to limit the same, and it should be understood by those of ordinary skill in the art that the specific embodiments of the present invention can be modified or substituted with equivalents with reference to the above embodiments, and any modifications or equivalents without departing from the spirit and scope of the present invention are within the scope of the claims to be appended.

Claims (10)

1. The movable partition of the mold for the production of autoclaved aerated concrete products, including the partition body (61) and the magnetic box (62) arranged at the lower part of the partition body (61), and the magnetic box passes through the magnetic box mounting frame (63) The magnetic box is provided with a magnetic box switch (62a) on the side of the bulkhead body that does not contact the blank. It is characterized in that: a magnetic box that controls the opening and closing of the magnetic box switch is also provided on the same side of the bulkhead body. A switch control mechanism (65); the magnetic box switch control mechanism (65) includes a vertical operation shaft (65a), a connecting rod (65b) and a vertical control shaft (65c), and the vertical operation shaft (65a) has a The lower end is fixedly connected to the magnetic box switch (62a), and the vertical operating shaft (65a) is slidably installed with the operating shaft guiding and limiting bracket (67) provided on the bulkhead body (61). The connecting rod (65b) ) is hinged with the hinge frame (64) provided on the magnetic box mounting frame (63), one end of the connecting rod (65b) is drivingly connected with the vertical operating shaft (65a), and the other end is connected with the vertical control shaft (65c). The lower end is hinged, and the vertical control shaft (65c) is simultaneously slidably connected with the control shaft guide limiter (68) provided on the bulkhead body (61); the upper end of the bulkhead body (61) is connected with the bulkhead body (61) ) is provided with a horizontal plate (70) perpendicular to the horizontal plate (70), a hoisting and hanging hole (70a) for hoisting the mobile partition pick-and-place device is arranged on the horizontal plate (70), and an operation shaft whose position corresponds to the vertical operation shaft is also arranged. Corresponding holes (70b) and control axis corresponding holes (70c) located corresponding to the vertical control axis (65c). 2. The movable partition of a mold for producing autoclaved aerated concrete products according to claim 1, wherein the number of said magnetic boxes (62) is two, and the said magnetic box switch control mechanism (65) There are also two correspondingly, and the two magnetic box switch control mechanisms and the two magnetic box switches are respectively arranged correspondingly. 3. The movable partition of a mold for producing autoclaved aerated concrete products according to claim 1, wherein the hoisting and hanging hole (70a) comprises a circular part and an elongated part, and the elongated The length of the portion is greater than the diameter of the circular portion, and the elongated portion is provided through the circular portion. 4. The movable partition plate of a mold for producing autoclaved aerated concrete products according to claim 3, characterized in that: a lower end face of the transverse plate (70) is provided at a position corresponding to the hoisting and hanging hole (70a) The hoisting and hanging reinforcing plate (69) is provided with a hoisting hole having the same shape and size as the hoisting and hanging hole (70a). (69a) is provided with an elongated hoisting and hanging limit slot (69b) in the direction perpendicular to it. 5 . The movable partition of a mold for producing autoclaved aerated concrete products according to claim 1 , wherein the partition body ( 61 ) is provided below the hoisting and hooking hole for performing the hoisting and hooking shaft. 6 . Guide positioning of the hitch shaft guide limiter (66). 6. The moving partition of a mold for producing autoclaved aerated concrete products according to claim 1, characterized in that: an operating protrusion (65a-1) is provided at a position close to the end of the lower part of the vertical operating shaft (65a). ), the corresponding end of the connecting rod (65b) is provided with a connecting rod mounting notch which is matched with the end of the vertical operating shaft (65a), and the connecting rod (65b) is sleeved on the vertical operating shaft (65b) through the connecting rod mounting notch ( 65a) The end below the operating protrusion (65a-1). 7. A pick-and-place device for moving partitions in a mold for the production of autoclaved aerated concrete products, comprising a bracket (1) having two longitudinal beams (2) arranged in parallel, A walking trolley (5) for moving the beam, one side of the walking trolley is provided with a lifting frame (4) through a linear motion pair, and a lifting frame driving device (9) for driving the lifting frame to lift is arranged on the walking trolley (5), It is characterized in that: a pick-and-place robot (7) is arranged at the lower end of the lift frame (4), and the pick-and-place robot (7) comprises a robot frame (71) connected with the lift frame (4), and is arranged on the robot frame There is a partition hooking mechanism (72) and a magnetic box switch driving device (73), the partition hooking mechanism (72) has a hooking shaft (72a) for cooperating with the hanging hooking hole on the moving partition ); the magnetic box switch driving device (73) includes an operating shaft driving cylinder (73a) for driving the vertical operating shaft on the moving partition and a control shaft driving cylinder for driving the vertical control shaft on the moving partition (73b). 8. The pick-and-place device for moving the partition plate in the mold for producing autoclaved aerated concrete products according to claim 7, characterized in that: the hanging shaft (72a) is provided with a hanging hanging shaft perpendicular to the hanging shaft A connecting pin shaft (72b) is connected, and the length of the connecting pin shaft (72b) is greater than the diameter of the connecting shaft (72a). 9. The pick-and-place device for moving partitions in a mold for producing autoclaved aerated concrete products according to claim 8, characterized in that: the manipulator frame (71) is provided with a hook capable of driving the hook shaft (72a) to rotate Connect the drive cylinder (72d) to the shaft. 10. The pick-and-place device for moving the clapboard in the mold for producing autoclaved aerated concrete products according to claim 9, it is characterized in that: the described hook shaft is two, and the described hook shaft rotates the drive cylinder ( The cylinder of 72d) is hinged with the manipulator frame (71), and the extending end of the piston rod is hinged with the rocker arm (72c) fixed on one of the hanging shafts; the other hanging shaft is also fixed with a rocker arm (72c). arm, a link (72e) is hinged between the two rocker arms.

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