CN211640640U - Frame-type rostone mould conveyer - Google Patents

Abstract

The utility model belongs to the technical field of the rostone production technique and specifically relates to a frame-type rostone mould conveyer, which comprises a frame body, the mould box, the initiative wheelset, driven wheelset, hydraulic drive, lift the track subassembly that holds in the palm the subassembly and be used for supplying initiative wheelset and driven wheelset walking, be equipped with the portal frame around the frame body, the front portion at two lower longerons is installed to two sets of initiative wheelset one-to-ones, the rear portion at two lower longerons is installed to two sets of driven wheelset one-to-ones, two sets of hydraulic drive one-to-ones are installed and are used for driving the initiative wheelset rotation of homonymy about the front surface of portal frame by before. The utility model discloses well frame-type artificial stone mould conveyer makes the problem of generating heat obtain solving to can go up unloading operation on the mould box through lifting the support subassembly.

Description

Frame-type rostone mould conveyer

Technical Field

The utility model belongs to the technical field of the rostone production technique and specifically relates to a frame-type 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, the existing transportation device does not have the lifting function on the artificial stone, and the artificial stone mold can be moved up or down by an additional auxiliary device, so that the artificial stone mold is inconvenient to mount and dismount. 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 frame-type rostone mould conveyer is provided, can solve the problem of generating heat to can move the mould box or move conveyor down, the loading and unloading of the rostone mould of being convenient for.

The utility model discloses a frame-type artificial stone mould conveying device, which comprises a frame body, a mould box body, a driving wheel set, a driven wheel set, a hydraulic drive, a lifting component and a track component for the driving wheel set and the driven wheel set to walk, wherein the frame body comprises two lower longitudinal beams, two portal frames spanning the upper surfaces of the lower longitudinal beams and two upper longitudinal beams for connecting the upper parts of the two portal frames, a gap for installing the hydraulic drive is reserved between the front surface of the portal frame close to the front end surface of the lower longitudinal beams, the rear surface of the portal frame close to the rear surface of the lower longitudinal beams, two sets of driving wheel sets are installed at the front parts of the two lower longitudinal beams in a one-to-one correspondence manner, two sets of driven wheel sets are installed at the rear parts of the two lower longitudinal beams in a one-to-one correspondence manner, the two sets of hydraulic drives are installed at the left side, the lifting and supporting assembly is installed on the frame body and used for lifting the die box body.

As the improvement of above-mentioned scheme, the utility model discloses a frame-type rostone mould conveyer is still including the transmission shaft of connecting two hydraulic drive outputs, hydraulic drive installs the upper portion at the portal frame that leans on the front.

As the improvement of above-mentioned scheme, four lift and hold in the palm the subassembly and be the rectangular distribution on two longerons down, every lift and hold in the palm the subassembly and all include the grudging post, connect the grudging post with the vertical frame of portal frame, with grudging post sliding connection's eave tile and install the hydro-cylinder that is used for driving the eave tile lift on the grudging post, the mould box left and right sides is equipped with four positions and the couple of four eave tile one-to-one.

As an improvement of the scheme, the front side and the rear side of the die box body are provided with grid type reinforcing ribs and lifting lugs.

As an improvement of the scheme, the driving wheel set comprises four driving rollers rotatably connected with the lower longitudinal beam, and the driven wheel set comprises three driven rollers rotatably connected with the lower longitudinal beam.

As the improvement of above-mentioned scheme, the utility model discloses a frame-type 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 the other three initiative gyro wheel 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, the first chains are wound on the two first chain wheels, and the lower longitudinal beam is provided with a long through hole for the first chains to pass through; the second chain transmission mechanism comprises second chain wheels and second chains, the four second chain wheels are fixed on the four driving idler wheels in a one-to-one correspondence mode, and the second chains are wound on the four second chain wheels.

As an improvement of the scheme, baffles are arranged on the inner sides of the driving roller and the driven roller, the lower end points of the baffles are lower than the upper surface of the track assembly, and the interval between the baffles and the inner side surface of the track assembly is 1-2 mm.

As above-mentioned scheme's improvement, the utility model discloses a frame-type rostone mould conveyer is still including the first photoelectric switch that is used for detecting the driven roller corner, first photoelectric switch installs on the frame body and aims at the driven roller that is closest to the rear end, is equipped with the first detection piece that supplies first photoelectric switch to detect on the driven roller that is closest to the rear end.

As the improvement of the above scheme, the utility model discloses a frame-type rostone mould conveyer is still including setting up the second photoelectric switch in the track subassembly outside, the frame 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 frame-type artificial stone mould conveyer mutually supports through frame body, driving wheel group, driven wheelset and hydraulic drive, makes the problem of generating heat obtain solving to can go up the unloading operation on the mould box through lifting the support subassembly, possess and lift the mould box and put down two kinds of operating condition of mould box, mould box loading and unloading are convenient.

Drawings

FIG. 1 is a schematic structural diagram of a frame-type artificial stone mold conveying device according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of the frame-type artificial stone mold conveying device with the mold box removed according to the embodiment of the present invention;

fig. 3 is a schematic view of an installation structure of a lifting assembly according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of the mold box in the embodiment of the present invention;

fig. 5 is an operational schematic diagram of a first chain drive according to an embodiment of the present invention;

fig. 6 is an operational schematic diagram of a second chain drive according to an embodiment of the present invention;

fig. 7 is a schematic diagram of the operation of the first photoelectric switch in the embodiment of the present invention;

fig. 8 is a schematic diagram of an operation of the second photoelectric switch in the embodiment of the present invention.

In the figure: 1. a frame body; 2. a mold box body; 31. a driving wheel set; 32. a driven wheel set; 4. hydraulic driving; 5. a lifting assembly; 6. a track assembly; 11. a lower longitudinal beam; 12. a gantry; 13. an upper longitudinal beam; 41. a drive shaft; 51. erecting a frame; 52. a longitudinal frame; 53. hooking the head; 54. an oil cylinder; 21. hooking; 22. grid type reinforcing ribs; 23. lifting lugs; 71. a first sprocket; 111. a long through hole; 72. a second sprocket; 33. a baffle plate; 8. a first photoelectric switch; 34. a first detection block; 9. a second photoelectric switch; 112. 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. 1-8, an embodiment of the present invention provides a frame-type artificial stone mold transportation device, which includes a frame body 1, a mold box 2, a driving wheel set 31, a driven wheel set 32, a hydraulic drive 4, a lifting assembly 5, and a track assembly 6 for the driving wheel set 31 and the driven wheel set 32 to travel.

The frame body 1 comprises two lower longitudinal beams 11, two portal frames 12 spanning the upper surfaces of the lower longitudinal beams 11 and two upper longitudinal beams 13 used for connecting the upper parts of the two portal frames 12, a gap used for installing the hydraulic drive 4 is reserved between the front surface of the portal frame 12 close to the front and the front end surface of the lower longitudinal beam 11, and the rear surface of the portal frame 12 close to the rear surface of the lower longitudinal beam 11. The framework body 1 consisting of the lower longitudinal beam 11, the portal frame 12 and the upper longitudinal beam 13 enables the mold box 2 to smoothly pass through the middle of the portal frame 12, namely the mold box 2 can enter or leave from the front side and the rear side of the framework.

Two sets of the initiative wheelset 31 one-to-one is installed in the front portion of two longerons 11, and is two sets of the driven wheelset 32 one-to-one is installed at the rear portion of two longerons 11, and is two sets of hydraulic drive 4 one-to-one is installed and is leaned on the front surface left and right sides of preceding portal frame 12 and be used for driving the initiative wheelset 31 rotation of homonymy, lift and hold in the palm subassembly 5 and install on frame body 1 and be used for lifting mould box 2. 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 frame type 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 frame-type 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 frame-type artificial stone mould conveyer's concrete theory of operation as follows: the hydraulic drive 4 drives the frame body 1 to move on the track assembly 6, when the material needs to be fed, the frame body 1 moves to the position of the mold box body 2 and lifts the mold box body 2 through the lifting assembly 5, and at the moment, the frame body 1 can drive the mold box body 2 to move; when blanking is needed, the western medicine puts the die box body 2 on the ground through the lifting and supporting component 5, and then blanking is completed. And, when the mould box 2 is equipped with on the frame body 1 and mould box 2 is equipped with the rostone raw materials, namely frame body 1 is in heavy load state, hydraulic drive 4 corotation starts, drives the driving pulley group 31 and rotates, pushes frame body 1 from the front side of frame body 1 towards the rear side removal, is equivalent to the back drive mode, is fit for heavy load state, has enough big starting torque to reduce hydraulic drive 4's output torque after speed is stable, reduce hydraulic drive 4's calorific capacity.

The utility model discloses well frame-type artificial stone mould conveyer mutually supports through frame body 1, driving wheel group 31, driven wheel group 32 and hydraulic drive 4, makes the problem of generating heat obtain solving to can go up the unloading operation to mould box 2 through lifting support subassembly 5, possess and lift up mould box 2 and put down two kinds of operating condition of mould box 2, 2 loading and unloading of mould box are convenient.

It should be noted that the utility model discloses a frame-type rostone mould conveyer is still preferred including the transmission shaft 41 of connecting two hydraulic drive 4 outputs, hydraulic drive 4 installs on the upper portion of portal frame 12 that leans on in the front, can make two hydraulic drive 4 synchronous rotations through transmission shaft 41, ensures the 1 left and right sides synchronous motion of frame body.

Preferably, four lifting and supporting assemblies 5 are distributed on two lower longitudinal beams 11 in a rectangular shape, each lifting and supporting assembly 5 comprises a vertical frame 51, a longitudinal frame 52 connecting the vertical frame 51 and a portal frame 12, a hook 53 connected with the vertical frame 51 in a sliding manner, and an oil cylinder 54 arranged on the vertical frame 51 and used for driving the hook 53 to lift, and four hooks 21 in one-to-one correspondence with the four hooks 53 are arranged on the left side and the right side of the mold box 2. The oil cylinder 54 and the hydraulic drive 4 share a hydraulic device, and only a hydraulic pipeline and a control valve are added. When the material loading is needed, the hook heads 53 move to the lower parts of the corresponding hooks 21, the oil cylinder 54 drives the hook heads 53 to ascend to enable the hooks 21 to be clamped into the hooks, and the four groups of hook heads 53 and the hooks 21 are combined to ensure the stable ascending and descending of the mold box body 2.

Wherein, both sides are still preferred around the mould box 2 to be equipped with net formula strengthening rib 22 and lug 23, and net formula strengthening rib 22 provides sufficient intensity for mould box 2, ensures that the suppression is smooth, and lug 23 then plays the effect that makes things convenient for mould box 2 handling.

It should be noted that the driving wheel set 31 preferably includes four driving wheels rotatably connected to the side sill 11 to provide sufficient grip area and reduce start-up slip. The driven wheel set 32 preferably includes three driven rollers rotatably connected to the side sills 11 to cooperate with a driver to facilitate passage of the ravines.

Specifically, the utility model discloses a frame-type 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 the rotation of the other three initiative gyro wheel of second chain drive, adopts the mode of chain drive, simplifies transmission structure when guaranteeing the moment of torsion transmission. The first chain transmission mechanism comprises first chain wheels 71 and first chains (the first chains are omitted in the drawing), the two first chain wheels 71 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, the first chains are wound on the two first chain wheels 71, and the lower longitudinal beam 11 is provided with a long through hole 111 for the first chains to pass through; the second chain transmission mechanism includes a second chain wheel 72 and a second chain, the four second chain wheels 72 are correspondingly fixed on the four driving rollers one by one, and the second chain is wound around the four second chain wheels 72 (the second chain is omitted in the drawing).

In addition, the inner sides of the driving roller and the driven roller are preferably provided with baffles 33, the lower end points of the baffles 33 are lower than the upper surface of the track assembly 6, and the interval between the baffles 33 and the inner side surface of the track assembly 6 is 1-2 mm. When the frame type artificial stone mold conveying device deviates, the outer side of the baffle 33 is abutted against the inner side of the track assembly 6, so that the driving roller and the driven roller are prevented from derailing, and smooth conveying is ensured.

For calculate frame-type artificial stone mould conveyer's displacement, the utility model discloses a frame-type artificial stone mould conveyer is still preferred including the first photoelectric switch 8 that is used for detecting the driven roller corner, first photoelectric switch 8 is installed on frame body 1 and is aimed at the driven roller that is closest to the rear end, be equipped with the first detection piece 34 that supplies first photoelectric switch 8 to detect on the driven roller that is closest to the rear end, a plurality of first detection pieces 34 circumference equipartition on driven roller, because driven roller's perimeter is fixed, just can calculate the distance that the driven roller of department rotated every in-process frame body 1 that passes a first detection piece 34 through the angle of the first detection piece 34 between adjacent (for omitting the condition that driven roller rotated frame body 1 of connection in figure 6, and frame body 1 is equipped with the through-hole that supplies first photoelectric switch 8 to detect).

In order to improve frame-type rostone mould conveyer's positioning accuracy, the utility model discloses a frame-type rostone mould conveyer is still preferred including setting up the second photoelectric switch 9 in the track subassembly 6 outside, frame body 1 is equipped with the second that supplies second photoelectric switch 9 to detect and detects piece 112, and second photoelectric switch 9 sets up on the indoor outer ground position of the vacuum workroom that frame body 1 needs to stop can. When the first photoelectric switch 8 detects the second detection block 112, the hydraulic drive 4 stops outputting, and the frame 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 utility model provides a frame-type rostone mould conveyer which characterized in that: comprises a frame body, a mould box body, a driving wheel set, a driven wheel set, a hydraulic drive, a lifting component and a track component for the driving wheel set and the driven wheel set to run, the frame body includes two longerons down, two portal framves of striding dress longeron upper surface and two last longerons that are used for connecting two portal frame upper portions, and the preceding terminal surface that leans on preceding portal frame and longeron leaves the clearance that is used for installing hydraulic drive, and the rear surface that leans on the rear portal frame is close to the rear surface of longeron down, and is two sets of the initiative wheelset one-to-one is installed in the front portion of two longerons down, and is two sets of driven wheelset one-to-one is installed at the rear portion of two longerons down, and is two sets of hydraulic drive one-to-one is installed and is used for driving the initiative wheelset rotation of homonymy about the front surface of portal frame by, lift the.

2. A frame-type artificial stone mold transporting device according to claim 1, wherein: the gantry crane further comprises a transmission shaft connected with two hydraulic drive output ends, and the hydraulic drives are installed on the upper portion of the gantry crane in front.

3. A frame-type artificial stone mold transporting device according to claim 1, wherein: four lift and hold in the palm the subassembly and be the rectangle and distribute on two longerons down, every lift and hold in the palm the subassembly and all include the grudging post, connect the grudging post and portal frame indulge the frame, with grudging post sliding connection's eave tile and install the hydro-cylinder that is used for driving the eave tile to go up and down on the grudging post, the mould box left and right sides is equipped with the couple of four positions and four eave tile one-to-ones.

4. A frame-type artificial stone mold transporting device according to claim 1, wherein: and grid type reinforcing ribs and lifting lugs are arranged on the front side and the rear side of the die box body.

5. A frame-type artificial stone mold transporting device as set forth in any one of claims 1 to 4, wherein: the driving wheel set comprises four driving idler wheels rotationally connected with the lower longitudinal beam, and the driven wheel set comprises three driven idler wheels rotationally connected with the lower longitudinal beam.

6. A frame-type artificial stone mold transporting device according to claim 5, 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 three driving rollers to rotate through the second chain transmission mechanism.

7. A frame-type artificial stone mold transporting device according to claim 6, 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 mode, the first chains are wound on the two first chain wheels, and the lower longitudinal beam is provided with a long through hole for the first chains to pass through; the second chain transmission mechanism comprises second chain wheels and second chains, the four second chain wheels are fixed on the four driving idler wheels in a one-to-one correspondence mode, and the second chains are wound on the four second chain wheels.

8. A frame-type artificial stone mold transporting device according to claim 5, wherein: the inner sides of the driving roller and the driven roller are provided with baffles, the lower end points of the baffles are lower than the upper surface of the track assembly, and the interval between the baffles and the inner side surface of the track assembly is 1-2 mm.

9. A frame-type artificial stone mold transporting device according to claim 5, wherein: still including being used for detecting the first photoelectric switch of driven gyro wheel corner, first photoelectric switch installs on the frame 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.

10. A frame-type artificial stone mold transporting device as set forth in any one of claims 1 to 4, wherein: still including setting up the second photoelectric switch in the track subassembly outside, the frame body is equipped with the second that supplies second photoelectric switch to detect and detects the piece.

Images