CN214297722U - Bottom plate conveying device for stacking bricks - Google Patents

Abstract

The utility model relates to a bottom plate conveying device for stacking bricks, belonging to the field of building material energy-saving production equipment; the top of the first conveyor belt mechanism is provided with a support, the front side of the support is provided with a second conveyor belt mechanism, the support is provided with a first detection device for detecting the in-place of the bottom plate, the support is provided with a support device for supporting the bottom plate and releasing the bottom plate to the first conveyor belt mechanism after the bottom plate is detected in place, and the support is provided with a second detection device for detecting the stacking height of the bottom plate; the utility model discloses a set up first detection device and detect the bottom plate condition of targetting in place, control strutting arrangement and release the bottom plate after targetting in place for the bottom plate is stacked at first conveyor belt mechanism, guarantees that the bottom plate is neatly stacked on first conveyor belt mechanism, and the back detects the high position of superiors' bottom plate through second detection device, thereby confirms to stack the number of piles, drives the bottom plate that first conveyor belt mechanism will pile up and carries to the assigned position, labour saving and time saving, and production efficiency can guarantee.

Description

Bottom plate conveying device for stacking bricks

Technical Field

The utility model relates to a bottom plate conveyor that fragment of brick piles up usefulness belongs to the energy-conserving production facility field of building materials.

Background

In-process at current fragment of brick production, the fragment of brick of producing need be placed and piles up on wooden bottom plate, pile up the back and bind, need retrieve the bottom plate after binding, current recovery mode generally adopts artifical transport, perhaps adopt fork truck to operate, but the recovery efficiency of this kind of mode is extremely low, also need fork truck driver's longer time work, and simultaneously, the bottom plate also need be retrieved inside the production line, so that place the fragment of brick after the stack, this process also wastes time and energy, consequently normal production efficiency has been influenced at to a great extent.

SUMMERY OF THE UTILITY MODEL

In order to overcome the problem that exists among the background art, the utility model discloses a set up the first detection device and detect the bottom plate condition of targetting in place, control strutting arrangement and release the bottom plate after targetting in place, make the bottom plate stack at first conveyor mechanism, guarantee that the bottom plate is neatly stacked on first conveyor mechanism, the back is through the high position of second detection device detection superiors' bottom plate, thereby confirm to stack the number of piles, the bottom plate that the first conveyor mechanism of drive will pile up is carried to the assigned position, this process is retrieved smoothly to the bottom plate, the overall process is automatic simultaneously, it piles up to need not artifical transport, time saving and labor saving, production efficiency can guarantee.

In order to overcome the problem that exists among the background art, for solving above-mentioned problem, the utility model discloses a following technical scheme realizes:

the bottom plate conveying device for stacking bricks comprises a support, a first conveying belt, a supporting device, a first detection device and a controller, wherein the support is installed at the top of the first conveying belt, a second conveying belt is installed on the front side of the support, the first detection device for detecting the position of a bottom plate is installed on the support, the support is further provided with the supporting device for supporting the bottom plate, and the supporting device is used for releasing the bottom plate to the first conveying belt after the bottom plate is detected in place.

Preferably, first detection device includes mounting panel, a photoelectric sensor, limiting plate, the mounting panel sets up in the support bottom, is provided with a photoelectric sensor on the mounting panel, and the limiting plate that corresponds with a photoelectric sensor is installed through the pivot to the mounting panel side.

Preferably, the supporting device comprises two groups of cylinders, moving frames and supporting plates, the moving frames are provided with rails, the two moving frames are connected with the rails in a sliding mode, the supporting plates used for supporting the bottom plate are arranged on the inner sides of the two moving frames, and the cylinders used for opening the two moving frames and then releasing the bottom plate are connected between the moving frames.

Preferably, the left side, the right side and the rear side between the bracket and the first conveyor belt mechanism are provided with baffles which are convenient for the bottom plate to directionally slide down.

Preferably, the second detection device comprises a second photoelectric sensor mounted on the bracket, and the second photoelectric sensor corresponds to the stacked bottom plates.

The utility model has the advantages that:

the utility model discloses a set up first detection device and detect the bottom plate condition of targetting in place, control strutting arrangement and release the bottom plate after targetting in place, make the bottom plate stack at first conveyor belt mechanism, guarantee that the bottom plate is neatly stacked on first conveyor belt mechanism, the back detects the high position of superiors' bottom plate through second detection device, thereby confirm to stack the number of piles, the bottom plate that the first conveyor belt mechanism of drive will pile up is carried to the assigned position, this process is retrieved smoothly to the bottom plate, the overall process is automatic simultaneously, it piles up to need not artifical transport, time saving and labor saving, production efficiency can guarantee.

Drawings

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

fig. 2 is a side view of the present invention;

fig. 3 is a left side view of the present invention;

fig. 4 is a schematic diagram of the present invention.

The reference numbers in the figures are: the device comprises a connecting beam 1, a supporting beam 2, a moving frame 3, a cylinder 4, a track 5, a roller 6, a supporting plate 7, a mounting plate 8, a first photoelectric sensor 9, a limiting plate 10, a baffle plate 11, a first conveyor belt mechanism 12, a telescopic window 13, a second conveyor belt mechanism 14 and a second photoelectric sensor 15.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the following will explain in detail a preferred embodiment of the present invention with reference to the accompanying drawings to facilitate understanding of the skilled person.

As shown in fig. 1-4, the bottom plate conveying device for brick stacking comprises a first conveying belt, a second conveying belt mechanism 14, a supporting device, a first detection device and a second detection device, wherein a support is installed at the top of the first conveying belt mechanism 12, the second conveying belt mechanism 14 is installed on the front side of the support, the first detection device for detecting the in-place position of the bottom plate is installed on the support, the supporting device for supporting the bottom plate is installed on the support, the bottom plate is released to the first conveying belt mechanism 12 after the bottom plate is detected in the in-place position, and the second detection device for detecting the stacking height of the bottom plate is installed on the support. The second conveyor belt mechanism 14 conveys the bottom plates to the supporting device, the supporting device releases the bottom plates after the bottom plates reach the designated position and are detected in place by the first detection device, so that the bottom plates fall to the first conveyor belt mechanism 12, and when the bottom plates are stacked to the highest stacked height detected by the second detection device, the first conveyor belt mechanism 12 drives the bottom plates stacked together to be conveyed to the designated storage position. The supporting device, the first detection device, the second detection device, the first conveyor belt and the second conveyor belt mechanism 14 are all connected with the controller.

The first detection device comprises a mounting plate 8, a first photoelectric sensor 9 and a limit plate 10, the mounting plate 8 is arranged at the bottom of the bracket, the first photoelectric sensor 9 is arranged on the mounting plate 8, the limit plate 10 corresponding to the first photoelectric sensor 9 is arranged on the side surface of the mounting plate 8 through a rotating shaft, the mounting plate 8 is of an L-shaped long-strip-shaped plate-shaped structure, the first photoelectric sensor 9 is arranged on the horizontal plane of the mounting plate 8, the limit plate 10 is arranged on the vertical plane of the mounting plate 8, when the second conveyor belt mechanism 14 conveys the base plate to the supporting device, the base plate is contacted with the limit plate 10 in the conveying process, the limit plate 10 is pushed forwards, at the moment, after the limit plate 10 corresponding to the first photoelectric sensor 9 moves through the base plate, the limit plate 10 does not shield the first photoelectric sensor 9 any more, after the first photoelectric sensor 9 cannot detect the limit plate 10, the first photoelectric sensor 9 transmits an electric signal to the controller, the controller controls the support device to release the bottom plate so that the bottom plate falls to the first conveyor belt mechanism 12. Meanwhile, when the limiting plate 10 no longer shields the first photoelectric sensor 9, and after the first photoelectric sensor 9 can not detect the limiting plate 10, the first photoelectric sensor 9 transmits an electric signal to the controller, and the controller controls the second conveyor belt mechanism 14 to stop working, so that the bottom plate can not be continuously conveyed in the follow-up process, the bottom plate can be ensured to smoothly drop, and when the limiting plate 10 shields the first photoelectric sensor 9, the second conveyor belt mechanism 14 can continuously work.

The supporting device comprises a cylinder 4, a moving frame 3 and a supporting plate 7, the moving frame 3 is provided with two groups, a rail 5 is arranged on the support, two moving frames 3 are connected with the rail 5 in a sliding mode, the supporting plate 7 used for supporting the bottom plate is arranged on the inner side of each moving frame 3, the moving frames 3 are connected with the cylinder 4 used for opening the two moving frames 3 and then releasing the bottom plate, in the embodiment, the support comprises a connecting beam 1 which is longitudinally arranged, two supporting beams 2 which are transversely arranged on the connecting beam 1 are arranged, the two supporting beams 2 are parallel to each other, the rail 5 is arranged on the inner side of each moving frame, idler wheels 6 are arranged on two sides of each moving frame 3, the idler wheels 6 on two sides of each moving frame are arranged in the rail 5, and the moving frames 3 are arranged in the rail 5 through the idler wheels 6 and connected with the support in a sliding mode. When the first detection device detects that the bottom plate is in place, the controller controls the cylinder 4 to work to open the two moving frames 3 and release the bottom plate to the first conveying belt mechanism 12.

The baffle 11 that is convenient for the directional landing of bottom plate is installed to the left and right sides and rear side between support and the first conveyor belt mechanism 12, limit through baffle 11 to controlling and the rear side, make the bottom plate can the directional landing, guarantee that the bottom plate of stacking is put wholly, the atress is even, can not take place crooked removal again the conveying process, and simultaneously, baffle 11 both sides are seted up the flexible window 13 that backup pad 7 can get into, baffle 11 guarantees that the bottom plate can carry on spacingly to left and right directions after getting into, guarantee directional removal, also can guarantee that the bottom plate that gets into can arrive on backup pad 7, backup pad 7 struts the directional landing that does not influence the bottom plate yet.

The second detection device comprises a second photoelectric sensor 15 installed on the support, the second photoelectric sensor 15 corresponds to the stacked bottom plates, the second photoelectric sensor 15 can detect the stacking height of the bottom plates, after the bottom plates reach the specified height, the first conveyor belt mechanism 12 is started to convey the bottom plates, a certain number of the stacked bottom plates are conveyed to the specified position, the first conveyor belt mechanism 12 stops working after the bottom plates are conveyed to the specified position, and the specified height is reached until the bottom plates are stacked again, so that the specified number is met.

The utility model discloses a working process: the second conveyor belt mechanism 14 conveys the bottom plate to the supporting device, after the bottom plate reaches a designated position, the bottom plate is in contact with the limiting plate 10 in the conveying process, the limiting plate 10 is pushed forwards, at the moment, after the limiting plate 10 originally corresponding to the first photoelectric sensor 9 moves through the bottom plate, the limiting plate 10 does not shield the first photoelectric sensor 9, after the first photoelectric sensor 9 cannot detect the limiting plate 10, the first photoelectric sensor 9 transmits an electric signal to the controller, and the controller controls the supporting device to release the bottom plate, so that the bottom plate falls to the first conveyor belt mechanism 12 to be stacked; the second photoelectric sensor 15 can detect the stacking height of the bottom plates, and after the second photoelectric sensor 15 detects that the height position of the uppermost bottom plate reaches a preset value, the first conveying belt mechanism 12 starts conveying, so that a certain number of stacked bottom plates are conveyed to a specified position.

The utility model discloses a set up first detection device and detect the bottom plate condition of targetting in place, control strutting arrangement and release the bottom plate after targetting in place, make the bottom plate stack at first conveyor belt mechanism, guarantee that the bottom plate is neatly stacked on first conveyor belt mechanism, the default is reachd through the high position that second detection device detected the superiors bottom plate to the back, the bottom plate that drives first conveyor belt mechanism and will pile up is carried to the assigned position, this process is retrieved smoothly to the bottom plate, the overall process is automatic simultaneously, it piles up to need not artifical transport, time saving and labor saving, production efficiency can guarantee.

Finally, it is noted that the above-mentioned preferred embodiments illustrate rather than limit the invention, and that, although the invention has been described in detail with reference to the above-mentioned preferred embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the scope of the invention as defined by the appended claims.

Claims (5)

1. A bottom plate conveyor that fragment of brick pile up usefulness which characterized in that: the bottom plate conveying device for stacking bricks comprises a first conveying belt, a second conveying belt mechanism, a supporting device, a first detection device and a second detection device, wherein a support is installed at the top of the first conveying belt mechanism, the second conveying belt mechanism is installed on the front side of the support, the first detection device used for detecting the position of a bottom plate is installed on the support, the support is provided with a second detection device used for supporting the bottom plate, the supporting device used for releasing the bottom plate to the first conveying belt mechanism after the bottom plate is detected to be in place, and the second detection device used for detecting the stacking height of the bottom plate is installed on the support.

2. The bottom plate conveyor for brick stacking according to claim 1, wherein: the first detection device comprises a mounting plate, a first photoelectric sensor and a limiting plate, wherein the mounting plate is arranged at the bottom of the support, the first photoelectric sensor is arranged on the mounting plate, and the limiting plate corresponding to the first photoelectric sensor is arranged on the side surface of the mounting plate through a rotating shaft.

3. The bottom plate conveyor for brick stacking according to claim 1 or 2, wherein: the supporting device comprises a cylinder, two moving frames and two supporting plates, the moving frames are provided with two groups, the supports are provided with rails, the two moving frames are connected with the rails in a sliding mode, the supporting plates used for supporting the bottom plate are arranged on the inner sides of the two moving frames, and the cylinders used for strutting the two moving frames and then releasing the bottom plate are connected between the moving frames.

4. The bottom plate conveyor for brick stacking according to claim 3, wherein: the left side, the right side and the rear side between the support and the first conveyor belt mechanism are provided with baffles which are convenient for the bottom plate to directionally slide down.

5. The bottom plate conveyor for brick stacking according to claim 1 or 4, wherein: the second detection device comprises a second photoelectric sensor arranged on the bracket, and the second photoelectric sensor corresponds to the stacked bottom plates.

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