CN213051586U - Pressfitting correcting unit is used in production of heat preservation stone material board - Google Patents

Abstract

The utility model discloses a production facility technical field's of heat preservation stone material board pressfitting correcting unit is used in production of heat preservation stone material board, comprising a frame body, the both sides of support body all are provided with the conveyer belt, the conveyer belt is including fixing the conveyer belt support on the support body, it is connected with the band pulley to rotate on the conveyer belt support, the vertical place of shaft of band pulley and by the step motor drive of fixed connection in the support body, the outside cover of band pulley is equipped with the area body, the horizontal direction of the area body is provided with the arch that is used for placing the material, two bellied centre are provided with pressfitting correcting unit, be provided with material transfer device on the direction of delivery of pressfitting correcting unit's front end, the utility model discloses a device makes the bonding strength of being convenient for rectify the stone material heated.

Description

Pressfitting correcting unit is used in production of heat preservation stone material board

Technical Field

The utility model relates to a production facility technical field of heat preservation stone material board specifically is a pressfitting correcting unit is used in production of heat preservation stone material board.

Background

The stone insulation board is also called as an external wall insulation stone composite board, a granite insulation composite board, a stone insulation decoration integrated board, a composite insulation stone and the like, and practically, no unified call exists at present, but the meanings are similar, namely, the stone insulation board is a product formed by compounding natural stone and an insulation material. Has a plurality of advantages, mainly: firstly, the external wall heat insulation stone composite board has double functions of decoration and heat insulation, and a user only needs to purchase and install the external wall heat insulation stone composite board once, so that the heat insulation and decoration of the external vertical surface of the building can be completely finished; the weight of the standard plate of the external wall insulation stone composite plate can be controlled to be 15-35 kilograms according to different insulation materials selected by customers, the standard plate meets the requirement of national promoted light building materials, and the standard plate is particularly suitable for areas and high-rise buildings which are often subjected to severe weather such as hurricane, earthquake and the like; thirdly, the product is high in strength, adopts high-strength aviation-level adhesive and special structure and connection point design, and enables all performance indexes of the external wall heat-insulation stone composite board to exceed the national current industry standard

The stone insulation board is subjected to multiple corrections such as flatness correction and strength correction before being processed into a finished product, if the bonding strength is not corrected, the strength can not reach the national standard, the stone insulation board becomes an inferior product, the potential safety hazard is caused, and the stone insulation board is also an important index for evaluating the bonding strength grade of the stone board.

The existing strength check only adopts manual check to detect the bonding strength of two plates, but the detection mode has low efficiency, so that the large-range check cannot be realized, and only one sampling check mode can be realized.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a pressfitting correcting unit is used in production of heat preservation stone material board to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a pressing correction device for producing heat-insulating stone plates comprises a frame body, wherein conveying belts are arranged on two sides of the frame body respectively, each conveying belt comprises a conveying belt support fixed on the frame body, a belt wheel is rotatably connected onto each conveying belt support, a wheel shaft of each belt wheel is vertically arranged and driven by a stepping motor fixedly connected into the frame body, a belt body is sleeved on the outer side of each belt wheel, bulges used for placing materials are arranged in the horizontal direction of the belt body, a pressing correction device is arranged between the two bulges, each pressing correction device comprises a plurality of vacuum suction cups respectively arranged above and below the bulges, the vacuum suction cups are respectively and uniformly arranged on a lower suction cup frame and an upper suction cup frame, a pressure cylinder is connected onto the upper suction cup frame and fixed on a rotating arm, and the rotating arm is driven by a servo motor connected to one side of the conveying belts, the lower suction cup frame is fixedly connected with the middle part of the frame body through a jacking cylinder, and a material transferring device is arranged in the conveying direction of the front end of the pressing correction device.

As a further aspect of the present invention: the material transfer device is including setting up another sucking disc frame on the conveyer belt opposite side, another also be provided with a plurality of vacuum chuck on the sucking disc frame, vacuum chuck connects on another pressure cylinder, another pressure cylinder rotates through another swinging boom and connects in one side of support body, another the swinging boom passes through another servo motor drive, stretches out through the pressure cylinder on the control material transfer device, can make the vacuum chuck on the material transfer device adsorb the waste material, and the servo motor operation on the material transfer device drives the swinging boom operation on the material transfer device, can realize transporting the waste material to the waste material department of accepting.

As a further aspect of the present invention: the upper end and the lower end of the belt wheel are provided with flanges for preventing the belt body from being separated.

As a further aspect of the present invention: the middle part of the conveying belt support is arranged on the supporting block, the two side faces of the supporting block are connected with supporting rollers in a rotating mode, the inner side faces of the belt body and the belt wheel are provided with supporting belts with T-shaped grooves, the supporting rollers are connected in the T-shaped grooves of the supporting belts in a rolling mode, and the middle part of the belt wheel is provided with an annular groove used for being matched with the supporting belts. Because heat preservation stone material board has certain weight, consequently the area body frictional force is great and the great problem of intensity requirement when carrying, establishes through the cover on a plurality of band pulleys and sets up the intensity that the support band body can improve the area body, simultaneously through the roll slip of T type spout and supporting roller, can reduce the frictional force of the area body when the operation for it is more steady when carrying the material.

As a further aspect of the present invention: the belt wheels at the same end of the two conveying belt supports are connected through a belt device. Therefore, the conveying belts on the two sides can synchronously run, and the using quantity of the stepping motors is saved.

As a further aspect of the present invention: the servo motor and the stepping motor are both arranged in the cabinet body on two sides of the frame body. Therefore, the safety of operators can be improved, and meanwhile, the servo motor and the stepping motor are well protected.

As a further aspect of the present invention: the rotating arm is rotatably connected with the frame body through a bearing. This makes the rotation of the rotary arm more flexible.

As a further aspect of the present invention: and a photoelectric position sensor used for sensing the position of the workpiece is arranged on the frame body corresponding to the pressing correction device.

Compared with the prior art, the beneficial effects of the utility model are that:

1. in the utility model, the belt wheel is driven to rotate by the stepping motor, the belt wheel drives the belt body sleeved on the surface to rotate, and further drives the heat preservation stone plate placed on the bulge to move to the lower part of the pressing correction device, when the photoelectric position sensor senses the position of the material, the pressure cylinder on the pressing correction device is controlled and driven to stretch out and drive the upper sucker frame to move downwards, and simultaneously the lower sucker frame is driven by the jacking cylinder to further press the heat preservation stone plate, so as to complete the correction, and simultaneously the vacuum sucker is introduced with standard detection air pressure, so that the bonding strength test of the heat preservation stone plate is completed when the jacking cylinder and the pressure cylinder retract, namely when the bonding strength is greater than the monitoring pressure introduced by the vacuum sucker, the heat preservation stone plate is brought back by the jacking cylinder to fall on the bulge again to be conveyed to the next process, if the bonding strength is too small, the stone plate at the upper end of the material is separated, when the photoelectric position sensor senses or an operator judges that the waste is above, the servo motor is controlled to drive the rotating arm to rotate to the waste receiving position, then the pressure is relieved to unload the waste, and the waste is put down, and the other waste heat insulation plate is transferred out of the conveying belt by a material transfer device waiting at the front.

2. The utility model discloses in, can realize that big quick work piece that flows formula in batches detects the correction through conveyer belt cooperation pressure correcting unit and material transfer device's use, improved detection efficiency.

3. The utility model discloses in, establish through the cover on a plurality of band pulleys and set up the intensity that the support area can improve the area body, through the roll slip of T type spout and supporting roller, can reduce the frictional force of the area body when moving for it is more steady during the transported substance material, further improves flow efficiency, and then improves detection efficiency.

Drawings

Fig. 1 is a first schematic structural diagram of the present invention;

FIG. 2 is a second schematic structural view of the present invention;

FIG. 3 is a schematic view of the connection of the belt wheel of the present invention;

fig. 4 is a schematic connection diagram of the middle support belt of the present invention.

In the figure: 1. a frame body; 11. a cabinet body; 2. a conveyor belt; 21. a conveyor belt support; 22. a pulley; 23. a stepping motor; 24. a belt body; 25. a protrusion; 26. a flange; 27. a support block; 28. supporting the rollers; 29. a support band; 220. an annular groove; 3. pressing and correcting devices; 31. a vacuum chuck; 32. a lower suction cup frame; 33. an upper suction cup holder; 34. a pressure cylinder; 35. a rotating arm; 36. a servo motor; 37. jacking a cylinder; 4. a material transfer device; 5. a belt means; 6. a sensor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, in an embodiment of the present invention, a pressing correction device for producing heat insulation stone plates includes a frame body 1, wherein two sides of the frame body 1 are respectively provided with a conveyor belt 2, the conveyor belt 2 includes a conveyor belt bracket 21 fixed on the frame body 1, the conveyor belt bracket 21 is rotatably connected with a belt pulley 22, a wheel shaft of the belt pulley 22 is vertically disposed and driven by a stepping motor 23 fixedly connected in the frame body 1, a belt body 24 is sleeved outside the belt pulley 22, a protrusion 25 for placing materials is disposed in a horizontal direction of the belt body 24, a pressing correction device 3 is disposed between the two protrusions 25, the pressing correction device 3 includes a plurality of vacuum chucks 31 respectively disposed above and below the protrusion 25, the plurality of vacuum chucks 31 are respectively and uniformly disposed on a lower chuck frame 32 and an upper chuck frame 33, the upper chuck frame 33 is connected with a pressure cylinder 34, the pressure cylinder 34 is fixed on a rotating arm 35, the rotating arm 35 is driven by a servo motor 36 connected to one side of the conveyer belt 2, the lower suction cup holder 32 is fixedly connected to the middle part of the frame body 1 through a jacking cylinder 37, and a material transfer device 4 is arranged in the conveying direction of the front end of the pressing correction device 3.

The material transfer device 4 comprises another upper suction cup frame 33 arranged on the other side of the conveying belt 2, a plurality of vacuum suction cups 31 are also arranged on the other upper suction cup frame 33, the vacuum suction cups 31 are connected to another pressure cylinder 34, the other pressure cylinder 34 is rotatably connected to one side of the frame body 1 through another rotating arm 35, the other rotating arm 35 is driven by another servo motor 36, the vacuum suction cups 31 on the material transfer device 4 can adsorb waste materials by controlling the extension of the pressure cylinders 34 on the material transfer device 4, the servo motor 36 on the material transfer device 4 operates to drive the rotating arm 35 on the material transfer device 4 to operate, the waste materials can be transferred to a waste material receiving position, parts of the material transfer device 4 have universality, and the parts can also be mechanical arms in other forms of course, and are not used for creating a new mark.

The upper and lower ends of the pulley 22 are provided with flanges 26 that prevent the belt body 24 from coming off.

The middle of the conveying belt support 21 is arranged on a supporting block 27, two side faces of the supporting block 27 are rotatably connected with supporting rollers 28, supporting belts 29 with T-shaped grooves are arranged on the inner side faces of the belt body 24 and the belt wheel 22, the supporting rollers 28 are connected in the T-shaped grooves of the supporting belts 29 in a rolling mode, and the middle of the belt wheel 22 is provided with an annular groove 220 used for matching the supporting belts 29. Because the heat preservation stone material board has certain weight, consequently the great and intensity requirement of frictional force of the area body 24 when carrying problem, establish through the cover on a plurality of band pulleys 22 and set up the intensity that supports the area body 24 that can improve, simultaneously through the roll slip of T type spout and supporting roller 28, can reduce the frictional force of the area body 24 when the operation for it is more steady when carrying the material.

The belt pulleys 22 of the same end of the two belt supports 21 are connected by means of a belt device 5. Therefore, the belts 24 on the two sides can run synchronously, and the using number of the stepping motors 23 is saved.

The servo motor 36 and the stepping motor 23 are both arranged in the cabinet 11 at two sides of the frame body 1. Therefore, the safety of operators can be improved, and meanwhile, the servo motor 36 and the stepping motor 23 are well protected.

The rotating arm 35 is rotatably connected with the frame body 1 through a bearing. This makes the rotation of the rotating arm 35 more flexible.

A photoelectric position sensor 6 for sensing the position of the workpiece is arranged on the frame body 1 corresponding to the position of the pressing correction device 3.

The utility model discloses a theory of operation is: the stepping motor 23 drives the belt wheel 22 to rotate, the belt wheel 22 drives the belt body 24 sleeved on the surface to rotate, and further drives the heat-insulating stone plate placed on the protrusion 25 to move below the pressing correction device 3, when the photoelectric position sensor 6 senses the position of the material, the upper suction disc frame 33 is driven to move downwards by controlling and driving the pressure cylinder 34 on the pressing correction device 3 to extend, meanwhile, the lower suction disc frame 32 is driven by the jacking cylinder 37, so that the heat-insulating stone plate is further pressed by the upper suction disc frame 33 and the lower suction disc frame 32 to finish the correction, meanwhile, the vacuum suction disc 31 is introduced with standard detection air pressure, so that the bonding strength test on the heat-insulating stone plate is finished when the jacking cylinder 37 and the pressure cylinder 34 retract, namely, when the bonding strength is greater than the monitoring pressure introduced by the vacuum suction disc 31, the heat-insulating stone plate is brought back by the jacking cylinder 37 to fall on the protrusion 25 again, if the bonding strength is too low, the stone plates at the upper end of the material are separated, the photoelectric position sensor 6 senses the waste or an operator judges that the waste is above the stone plates, the servo motor 36 is controlled to drive the rotating arm 35 to rotate to a waste receiving position, then the pressure is relieved to put down the waste, and the other waste heat insulation plate is transferred out of the conveying belt 2 by the material transfer device 4 waiting at the front.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (8)

1. The utility model provides a production of heat preservation stone material board is with pressfitting correcting unit, includes support body (1), its characterized in that: the conveying belt (2) is arranged on two sides of the frame body (1), the conveying belt (2) comprises a conveying belt support (21) fixed on the frame body (1), a belt wheel (22) is connected to the conveying belt support (21) in a rotating mode, a wheel shaft of the belt wheel (22) is vertically arranged and is driven by a stepping motor (23) fixedly connected into the frame body (1), a belt body (24) is sleeved on the outer side of the belt wheel (22), bulges (25) used for placing materials are arranged in the horizontal direction of the belt body (24), a pressing correcting device (3) is arranged between the two bulges (25), the pressing correcting device (3) comprises a plurality of vacuum suckers (31) respectively arranged above and below the bulges (25), and the plurality of vacuum suckers (31) are respectively and uniformly arranged on a lower sucker frame (32) and an upper sucker frame (33), the upper suction disc frame (33) is connected with a pressure cylinder (34), the pressure cylinder (34) is fixed on a rotating arm (35), the rotating arm (35) is driven by a servo motor (36) connected to one side of the conveying belt (2), the lower suction disc frame (32) is fixedly connected with the middle of the frame body (1) through a jacking cylinder (37), and a material transfer device (4) is arranged in the conveying direction of the front end of the pressing correction device (3).

2. The pressing correction device for the production of the heat-insulating stone plate as claimed in claim 1, wherein: the material transfer device (4) comprises another upper suction disc frame (33) arranged on the other side of the conveying belt (2), a plurality of vacuum suction discs (31) are also arranged on the other upper suction disc frame (33), the vacuum suction discs (31) are connected to the other pressure cylinder (34), the other pressure cylinder (34) is rotatably connected to one side of the frame body (1) through another rotating arm (35), and the other rotating arm (35) is driven by another servo motor (36).

3. The pressing correction device for the production of the heat-insulating stone plate as claimed in claim 1, wherein: flanges (26) for preventing the belt body (24) from coming off are arranged at the upper end and the lower end of the belt wheel (22).

4. The pressing correction device for the production of the heat-insulating stone plate as claimed in claim 1, wherein: the middle part of conveyer belt support (21) sets up at supporting shoe (27), all rotate on the both sides face of supporting shoe (27) and be connected with supporting roller (28), be provided with on the area body (24) and band pulley (22) medial surface and have support area (29) of T type recess, supporting roller (28) roll connection be in the T type recess of supporting area (29), the middle part of band pulley (22) is provided with and is used for matching the loop type groove (220) of supporting area (29).

5. The pressing correction device for the production of the heat-insulating stone plate as claimed in claim 1, wherein: the belt wheels (22) at the same end of the two conveying belt brackets (21) are connected through a belt device (5).

6. The pressing correction device for the production of the heat-insulating stone plate as claimed in claim 1 or 2, wherein: the servo motor (36) and the stepping motor (23) are both arranged in the cabinet body (11) on two sides of the frame body (1).

7. The pressing correction device for the production of the heat-insulating stone plate as claimed in claim 1 or 2, wherein: the rotating arm (35) is rotatably connected with the frame body (1) through a bearing.

8. The pressing correction device for the production of the heat-insulating stone plate as claimed in claim 1, wherein: and a photoelectric position sensor (6) for sensing the position of the workpiece is arranged on the frame body (1) corresponding to the pressing correction device (3).

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