CN211392810U - Flat artificial stone mold conveying device - Google Patents

Abstract

The utility model belongs to the technical field of the rostone production technique and specifically relates to a flat rostone mould conveyer, including dull and stereotyped support body, initiative wheelset, driven wheelset, hydraulic drive and be used for supplying the track subassembly of initiative wheelset and driven wheelset walking, the front portion at the dull and stereotyped support body left and right sides is installed to two sets of initiative wheelset one-to-ones, and the rear portion at the dull and stereotyped support body left and right sides is installed to two sets of driven wheelset one-to-ones, and the front end at the dull and stereotyped support body left and right sides is installed to two. The utility model discloses well flat artificial stone mould conveyer mutually supports through dull and stereotyped support body, driving wheel group, driven wheelset and hydraulic drive, makes the problem of generating heat obtain solving to have rearmounted driven mode, the starting torque is big under the heavy load state, and can steadily remove on track assembly, and calorific capacity is also than traditional motor will hang down.

Description

Flat artificial stone mold conveying device

Technical Field

The utility model belongs to the technical field of the rostone production technique and specifically relates to a flat rostone mould conveyer.

Background

Pressing is an important process in the production process of the artificial stone. On the empty mould of artificial stone raw materials on the indoor conveyer of stirring whereabouts of mixer to the cloth, conveyer from the suppression room of cloth room conveyer belt to the mould, the suppression room is to the artificial stone raw materials suppression in the mould, and the back is accomplished in the suppression, and conveyer shifts out the suppression room to the mould, will keep the vacuum at the in-process cloth room and the suppression room of cloth and suppression.

The artificial stone mould conveying device in the prior art mostly realizes walking through the rotation of the rollers which are driven by the motor and installed on the material conveying trolley, or utilizes the motor to drive the conveying trolley to move, but the motor dissipates heat too slowly under vacuum and is easy to burn out. Meanwhile, all rolling rotation is driven by the motor, the starting power is dispersed, the torque to be overcome is large, and the material conveying trolley is difficult to start under a load state. Therefore, there is a need for an improved artificial stone mold transportation device.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a flat rostone mould conveyer is provided, provide great pneumatic moment of torsion when can solving the problem of generating heat.

The utility model discloses a flat rostone mould conveyer, including dull and stereotyped support body, initiative wheelset, driven wheelset, hydraulic drive and be used for supplying the track subassembly of initiative wheelset and the walking of driven wheelset, it is two sets of the front portion at the dull and stereotyped support body left and right sides is installed to initiative wheelset one-to-one, and is two sets of the rear portion at the dull and stereotyped support body left and right sides is installed to driven wheelset one-to-one, and is two sets of the front end at the dull and stereotyped support body left and right sides is installed to the hydraulic.

As an improvement of the scheme, the driving wheel set comprises three driving rollers which are rotationally connected with the flat plate frame body, and the driven wheel set comprises two driven rollers which are rotationally connected with the flat plate frame body.

As the improvement of the scheme, the utility model discloses a flat rostone mould conveyer still includes first chain drive and second chain drive, hydraulic drive rotates through the initiative gyro wheel that first chain drive is close to the front end nearest, and the initiative gyro wheel that is close to the front end nearest rotates through two other initiative gyro wheels of second chain drive.

As an improvement of the above scheme, the first chain transmission mechanism comprises first chain wheels and first chains, the two first chain wheels are fixed on the output end of the hydraulic drive and the driving roller closest to the front end in a one-to-one correspondence manner, and the first chains are wound on the two first chain wheels; the second chain transmission mechanism comprises second chain wheels and second chains, the three second chain wheels are fixed on the three driving idler wheels in a one-to-one correspondence mode, and the second chains are wound on the three second chain wheels.

As an improvement of the scheme, baffles are arranged on the outer sides of the driving roller and the driven roller, and the lower end points of the baffles are lower than the upper surface of the track assembly.

As an improvement of the scheme, the distance between the baffle and the outer side surface of the track assembly is 1-2 mm.

As the improvement of the above scheme, the utility model discloses a flat rostone mould conveyer is still including the first photoelectric switch that is used for detecting the driven gyro wheel corner, first photoelectric switch installs on dull and stereotyped support body and aims at the driven gyro wheel that is closest to the rear end, is equipped with the first detection piece that supplies first photoelectric switch to detect on the driven gyro wheel that is closest to the rear end.

As the improvement of above-mentioned scheme, dull and stereotyped support body is close to front end department and is equipped with the frame that leans on that is used for offseting with artificial stone mould, lean on the frame including fixing perpendicular roof beam and the sloping of setting in perpendicular roof beam front side on dull and stereotyped support body, the sloping lower extreme is fixed on dull and stereotyped support body, the sloping upper end is fixed with perpendicular roof beam middle part.

As the improvement of the proposal, the utility model discloses a flat rostone mould conveyer still includes the flat sensor of setting in dull and stereotyped support body up end department.

As the improvement of the above scheme, the utility model discloses a flat rostone mould conveyer is still including setting up the second photoelectric switch in the track subassembly outside, dull and stereotyped support body is equipped with the second that supplies second photoelectric switch to detect and detects the piece.

Implement the utility model discloses, following beneficial effect has:

the utility model discloses well flat artificial stone mould conveyer mutually supports through dull and stereotyped support body, driving wheel group, driven wheelset and hydraulic drive, makes the problem of generating heat obtain solving to have rearmounted driven mode, the starting torque is big under the heavy load state, and can steadily remove on track assembly, and calorific capacity is also than traditional motor will hang down.

Drawings

FIG. 1 is a schematic structural view of a flat artificial stone mold transporting device according to an embodiment of the present invention;

FIG. 2 is a schematic view of a partial structure of a flat artificial stone mold transporting device according to an embodiment of the present invention;

FIG. 3 is a schematic view of another visual partial structure of the flat artificial stone mold transporting device according to the embodiment of the present invention;

FIG. 4 is an enlarged view taken at A in FIG. 3;

fig. 5 is a schematic diagram of a first photoelectric switch according to an embodiment of the present invention;

fig. 6 is an enlarged view at B in fig. 3.

In the figure: 1. a plate frame body; 2. a driving wheel set; 3. a driven wheel set; 4. hydraulic driving; 5. a track assembly; 6. a first sprocket; 7. a second sprocket; 8. a baffle plate; 9. a first photoelectric switch; 10. a first detection block; 11. erecting a beam; 12. an oblique beam; 13. a flat plate sensor; 14. a second photoelectric switch; 15. and a second detection block.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments so as to more clearly understand the technical idea claimed in the present invention. Only this statement, the utility model discloses the upper and lower, left and right, preceding, back, inside and outside etc. position words that appear or will appear in the text only use the utility model discloses an attached drawing is the benchmark, and it is not right the utility model discloses a concrete restriction.

As shown in fig. 1-6, the embodiment of the present invention provides a flat artificial stone mold transportation device, which comprises a flat frame body 1, a driving wheel set 2, a driven wheel set 3, a hydraulic drive 4 and a track assembly 5 for the driving wheel set 2 and the driven wheel set 3 to walk, wherein the flat frame body 1 is a flat frame and has a sufficient area for placing an artificial stone mold. Two sets of the anterior at the 1 left and right sides of dull and stereotyped support body is installed to the 2 one-to-ones of initiative wheelset, and is two sets of the rear portion at the 1 left and right sides of dull and stereotyped support body is installed to the 3 one-to-ones of driven wheelset, and is two sets of the front end at the 1 left and right sides of dull and stereotyped support body is installed to hydraulic drive 4 one-to-ones and is used for. The hydraulic device for providing hydraulic liquid for the hydraulic drive 4 is arranged outside the vacuum working chamber, extends into the vacuum working chamber through a sealing hydraulic pipeline (sealing treatment is carried out on the extending part, such as sealing strip pasting and sealant coating), leaves a hydraulic pipeline with enough length in the vacuum working chamber for the flat artificial stone mould conveying device to move, and can even be provided with a tank chain for protecting the hydraulic pipeline in the vacuum working chamber. By adopting the hydraulic drive 4 as a power source of the flat-plate artificial stone mold conveying device, the hydraulic drive 4 can rotate in two directions, and has smaller heat productivity than a motor, large output torque and easy adjustment. The hydraulic drive 4 can bring heat out of the vacuum working chamber through hydraulic liquid circulating in a hydraulic pipeline, and the heating problem is solved.

The utility model discloses well flat rostone mould conveyer's concrete theory of operation as follows: when being equipped with the rostone mould and being equipped with the rostone raw materials on dull and stereotyped support body 1, dull and stereotyped support body 1 is in the heavy load state promptly, hydraulic drive 4 corotation starts, drives the drive pulley group 2 and rotates, and the front side from dull and stereotyped support body 1 promotes dull and stereotyped support body 1 and removes towards the rear side, is equivalent to the back drive mode, is fit for the heavy load state, has enough big starting torque to reduce hydraulic drive 4's output torque after speed is stable, reduces hydraulic drive 4's calorific capacity. And when the flat plate frame body 1 is in a light load state, the starting is easier.

The utility model discloses well flat artificial stone mould conveyer mutually supports through dull and stereotyped support body 1, driving wheel group 2, driven wheelset 3 and hydraulic drive 4, makes the problem of generating heat obtain solving to have rearmounted driven mode, the starting torque is big under the heavy load state, and can steadily remove on track subassembly 5, and calorific capacity is also than traditional motor will hang down.

It should be noted that the driving wheel set 2 preferably includes three driving wheels rotatably connected to the pallet body 1, so as to provide a sufficient ground-holding area and reduce start-up slip. The driven wheel set 3 preferably includes two driven wheels rotatably connected to the pallet body 1 to cooperate with a driving wheel to easily pass through a gully.

Specifically, the utility model discloses a flat rostone mould conveyer still preferably includes first chain drive and second chain drive, hydraulic drive 4 rotates through the initiative gyro wheel that first chain drive is closest to the front end, and the initiative gyro wheel that is closest to the front end passes through two other initiative gyro wheels of second chain drive and rotates, adopts the mode of chain drive, simplifies transmission structure when guaranteeing the moment of torsion transmission. The first chain transmission mechanism preferably comprises first chain wheels 6 and first chains, the two first chain wheels 6 are fixed on the output end of the hydraulic drive 4 and the driving roller closest to the front end in a one-to-one correspondence manner, and the first chains are wound on the two first chain wheels 6 (the first chains are omitted in the drawing); the second chain transmission mechanism comprises second chain wheels 7 and second chains, the three second chain wheels 7 are correspondingly fixed on the three driving rollers one by one, and the second chains are wound on the three second chain wheels 7 (the second chains are omitted in the drawing).

Besides, the outer sides of the driving roller and the driven roller are preferably provided with baffles 8, the lower end points of the baffles 8 are lower than the upper surface of the track assembly 5, and the interval between the baffles 8 and the outer side surface of the track assembly 5 is preferably 1-2 mm. When the flat-plate artificial stone mold conveying device deviates, the inner side of the baffle 8 is abutted against the outer side of the track assembly 5, so that the driving roller and the driven roller are prevented from derailing, and smooth conveying is ensured.

In order to calculate the moving distance of the flat artificial stone mold transporting device, the flat artificial stone mold transporting device of the present invention preferably further comprises a first photoelectric switch 9 for detecting the rotation angle of the driven roller, the first photoelectric switch 9 is arranged on the flat frame body 1 and is aligned with the driven roller closest to the rear end, the driven roller closest to the rear end is provided with a first detection block 10 for detecting the first photoelectric switch 9, a plurality of first detection blocks 10 are uniformly distributed on the driven roller at the circumference, because the circumferences of the driven rollers are fixed, the moving distance of the flat plate frame body 1 in the process that the driven rollers rotate through one first detection block 10 can be calculated through the angles of the adjacent first detection blocks 10 (in the case of omitting the flat plate frame body 1 rotationally connected with the driven rollers in fig. 5, the flat plate frame body 1 is provided with a through hole for the detection of the first photoelectric switch 9).

In order to prevent that rostone mould from skidding on dull and stereotyped support body 1, dull and stereotyped support body 1 is close to the preferred frame that leans on that is used for offsetting with the rostone mould that is equipped with of front end department, lean on the frame including fixing perpendicular roof beam 11 on dull and stereotyped support body 1 and setting up at the sloping 12 of perpendicular roof beam 11 front side, sloping 12 lower extreme is fixed on dull and stereotyped support body 1, sloping 12 upper end and perpendicular roof beam 11 middle part are fixed, and dull and stereotyped support body 1 is when carrying the rostone mould and when moving backward, leans on the frame can prevent that the rostone mould from sliding forward.

It is worth mentioning that, the utility model discloses a flat rostone mould conveyer is still preferred including setting up the flat sensor 13 in 1 up end department of dull and stereotyped support body, can measure the raw materials weight in the rostone mould, possesses finished product weight measurement function.

In order to improve flat rostone mould conveyer's positioning accuracy, the utility model discloses a flat rostone mould conveyer is still including setting up the second photoelectric switch 14 in the 5 outsides of track subassembly, dull and stereotyped support body 1 is equipped with the second that supplies second photoelectric switch 14 to detect and detects piece 15, and second photoelectric switch 14 sets up on the indoor outer ground position of the vacuum studio that dull and stereotyped support body 1 needs to stop. When the first photoelectric switch 9 detects the second detection block 15, the hydraulic drive 4 stops outputting, and the pallet body 1 stays at the corresponding position.

The above is only the concrete embodiment of the present invention, and not therefore the limit of the patent scope of the present invention, all the equivalent structures or equivalent flow changes made by the contents of the specification and the drawings, or directly or indirectly applied to other related technical fields, are included in the patent protection scope of the present invention.

Claims (10)

1. The flat plate type artificial stone mould conveying device is characterized in that: including dull and stereotyped support body, initiative wheelset, driven wheelset, hydraulic drive and be used for supplying the track subassembly of initiative wheelset and the walking of driven wheelset, it is two sets of initiative wheelset one-to-one is installed in the front portion of dull and stereotyped support body left and right sides, and is two sets of driven wheelset one-to-one is installed at the rear portion of dull and stereotyped support body left and right sides, and is two sets of the hydraulic drive one-to-one is installed at the front end of dull and stereotyped support body.

2. A flat artificial stone mold transporting device according to claim 1, wherein: the driving wheel set comprises three driving idler wheels which are rotationally connected with the flat plate frame body, and the driven wheel set comprises two driven idler wheels which are rotationally connected with the flat plate frame body.

3. A flat artificial stone mold transporting device according to claim 2, wherein: the hydraulic drive drives the driving roller closest to the front end to rotate through the first chain transmission mechanism, and the driving roller closest to the front end drives the other two driving rollers to rotate through the second chain transmission mechanism.

4. A flat artificial stone mold transporting device according to claim 3, wherein: the first chain transmission mechanism comprises first chain wheels and first chains, the two first chain wheels are fixed on the output end of the hydraulic drive and the driving roller closest to the front end in a one-to-one correspondence manner, and the first chains are wound on the two first chain wheels; the second chain transmission mechanism comprises second chain wheels and second chains, the three second chain wheels are fixed on the three driving idler wheels in a one-to-one correspondence mode, and the second chains are wound on the three second chain wheels.

5. A flat artificial stone mold transporting device according to claim 2, wherein: the outer sides of the driving roller and the driven roller are provided with baffles, and the lower end points of the baffles are lower than the upper surface of the track assembly.

6. The flat artificial stone mold transporting device according to claim 5, wherein: the distance between the baffle and the outer side surface of the track assembly is 1-2 mm.

7. A flat artificial stone mold transporting device according to claim 2, wherein: still including being used for detecting the first photoelectric switch of driven gyro wheel corner, first photoelectric switch installs on dull and stereotyped support body and aims at the driven gyro wheel that is closest to the rear end, is equipped with the first detection piece that supplies first photoelectric switch to detect on the driven gyro wheel that is closest to the rear end.

8. A flat artificial stone mold transporting device according to any one of claims 1 to 7, wherein: the utility model discloses a building bridge structure, including dull and stereotyped support body, bent frame, set up the oblique roof beam, the bent frame is fixed on the dull and stereotyped support body, the dull and stereotyped support body is close to front end department and is equipped with the frame that leans on that is used for offsetting with artificial stone mould, lean on the frame including fixing perpendicular roof beam and setting on the dull and stereotyped support body erecting the sloping of roof beam front side, the sloping lower extreme is fixed on the dull and.

9. A flat artificial stone mold transporting device according to any one of claims 1 to 7, wherein: the device also comprises a flat plate type sensor arranged on the upper end surface of the flat plate frame body.

10. A flat artificial stone mold transporting device according to any one of claims 1 to 7, wherein: still including setting up the second photoelectric switch in the track subassembly outside, the dull and stereotyped support body is equipped with the second that supplies second photoelectric switch to detect and detects the piece.

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