CN217576995U - Transition conveying platform - Google Patents

Abstract

The utility model relates to a stone material production facility, especially a transition conveying platform, including frame and crane, be provided with first chain conveyor in the frame, rotate in the frame and be connected with the bull stick, each all fixedly connected with branch, each on the pole body of bull stick the mutual parallel arrangement of branch, the crane is located each the top of bull stick, fixedly connected with lifting rod on the crane, it is connected with the switching-over delivery wheel, each still to rotate on the crane the switching-over delivery wheel or part the switching-over delivery wheel is located two between the chain subassembly. During the use, slabstone material is carried each switching-over delivery wheel top through first chain conveyor, then the crane rises and goes out slabstone material from first chain conveyor jack-up, recycles switching-over delivery wheel and carries slabstone material away from first chain conveyor's side, realizes the switching-over, and whole switching-over process need not centre gripping slabstone material, is difficult for damaging slabstone material, helps reducing the slabstone material defective rate.

Description

Transition conveying platform

Technical Field

The utility model relates to a stone material production facility, especially a transition conveying platform.

Background

The in-process that stone slab produced on the assembly line, often need change the direction of delivery of stone slab so that the processing of back procedure, at present, carry out the mode that the switching-over is mainly carried through manual work or manipulator to stone slab on the assembly line and realize, damage the slabstone easily in handling, lead to the product defective rate relatively higher.

In view of the above, the present application has made an intensive study on the above problems, and has made this invention.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a help reducing stone slab defective rate's transition conveyor.

In order to realize the purpose, the utility model adopts the following technical scheme:

a transitional conveying platform comprises a rack and a lifting frame, wherein a first chain conveying device which is horizontally arranged is arranged on the rack, the first chain conveying device comprises two groups of chain components which are arranged in parallel and a first conveying motor which is used for driving each chain component to move, at least two rotating rods which are arranged in parallel and horizontally are rotatably connected to the rack, a lifting motor which is used for driving each rotating rod to rotate is arranged on the rack, at least one supporting rod is fixedly connected to the rod body of each rotating rod, each supporting rod is arranged in parallel, the lifting frame is arranged above each rotating rod, at least two jacking rods which are rotatably connected with each supporting rod in a one-to-one mode are fixedly connected to the lifting frame, a plurality of reversing conveying wheels which are arranged on the same horizontal plane are rotatably connected to the lifting frame, a reversing conveying motor which is used for driving each reversing conveying wheel to rotate is arranged on the lifting frame, each reversing conveying wheel is arranged in parallel, the axis of each reversing conveying wheel is arranged in parallel with the conveying direction of the first chain conveying device, and each reversing conveying wheel or part of each reversing conveying wheel is arranged between the two chain components.

As an improvement of the utility model, the crane is connected with a plurality of mutual parallel arrangement and is the transfer line that the straight line was arranged in proper order, every rotate all be provided with a plurality ofly on the transfer line the switching-over delivery wheel.

As an improvement of the utility model, the reversing conveying wheel is a nylon wheel.

As an improvement of the utility model, still rotate on the crane be connected with the axis parallel arrangement's of switching-over delivery wheel bracing piece, the bracing piece is located two same one side of chain subassembly, just be provided with a plurality of supporting wheels on the bracing piece.

As an improvement of the utility model, fixedly connected with is located each in the frame the deck plate that bull stick below and level were arranged, as each branch supports the top when on the deck plate, each the horizontal position of the upper end point of switching-over delivery wheel is less than first chain conveyor's transport surface.

As an improvement of the present invention, the frame is provided at a position below the deck plate with a second chain conveyor arranged in parallel with the first chain conveyor.

As an improvement of the utility model, each all the connecting rod of the mutual parallel arrangement of fixedly connected with on the bull stick, each all rotate on the connecting rod and be connected with same synchronizing bar, fixedly connected with pulls chain or flexible haulage rope on the synchronizing bar, be connected with the reduction gear just on elevator motor's the output shaft fixedly connected with the pull rod that the output shaft of reduction gear was arranged perpendicularly, perhaps fixedly connected with on elevator motor's the output shaft with elevator motor's the pull rod that the output shaft was arranged perpendicularly, pull chain or flexible haulage rope keeps away from the one end of synchronizing bar is connected on the pull rod, just the pull rod with pull chain or the tie point of flexible haulage rope with the rotation axis dislocation arrangement of pull rod, the synchronizing bar be located on the rotation plane of pull rod or with the rotation plane parallel arrangement of pull rod.

By adopting the scheme, the utility model discloses following beneficial effect has:

1. through setting up the crane and set up the switching-over delivery wheel on the crane, during the use, stone slab is carried each switching-over delivery wheel top through first chain conveyor, then the crane rises and follows first chain conveyor jack-up with stone slab, recycles the switching-over delivery wheel and carries away stone slab from first chain conveyor's side, realizes the switching-over, and whole switching-over process need not centre gripping stone slab, is difficult for damaging stone slab, helps reducing the stone slab defective rate.

2. The flexible crank-link mechanism is formed by arranging the traction chain or the flexible traction rope for connection, so that the safety performance of high equipment is facilitated.

Drawings

Fig. 1 is a schematic structural view of the transition conveying platform of the present invention;

fig. 2 is a schematic structural view of another view angle of the transition conveying platform of the present invention;

fig. 3 is a schematic view of the connection structure between the transfer rod and other components of the present invention.

The designations in the figures correspond to the following:

10-a frame; 11-a rotating rod;

12-a strut; 13-a lifting motor;

14-a connecting rod; 15-a synchronization rod;

16-a traction chain; 17-a reducer;

18-a tie rod; 19-deck plate;

20-a lifting frame; 21-a lifting rod;

22-a reversing conveying wheel; 23-a reversing conveyor motor;

24-a transmission rod;

26-a support wheel; 30-a first chain conveyor;

31-a chain assembly; 32-a first conveyor motor;

40-second chain conveyor.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 to fig. 3, the present embodiment provides a transitional conveying platform, which includes a frame 10 and a crane 20, wherein a first chain conveying device 30 is disposed on the frame 10, the first chain conveying device 30 includes two groups of chain assemblies 31 disposed in parallel, and a first conveying motor 32 for driving each chain assembly 31 to move, the first chain conveying device 30 is a conventional conveying device, and is widely applied to various stone slab conveying mechanisms, and is not a key point of the present embodiment, and details thereof are not described here.

At least two rotating rods 11 which are arranged in parallel and horizontally are rotatably connected to the frame 10, at least one supporting rod 12 is fixedly connected to the rod body of each rotating rod 11, and the supporting rods 12 are arranged in parallel, so that when the rotating rods 11 rotate, each supporting rod 12 can be driven to swing. In order to avoid rotation of the support rod 12 relative to the rotary rod 11, the rotary rod 11 is preferably square, i.e. the cross-section of the rotary rod 11 is square. In addition, the crane 20 is located above each rotating rod 11, and at least two jacking rods 21 which are in one-to-one rotary connection with each supporting rod 12 are fixedly connected to the crane 20, that is, the number of the jacking rods 21 is the same as that of the supporting rods 12, and the two jacking rods 21 are in one-to-one rotary connection, so that when the supporting rods 12 swing, the lifting rods 21 can be driven to move up and down, and the crane 20 is further pushed to move up and down.

The frame 10 is provided with a lifting motor 13 for driving each rotating rod 10 to rotate, and the specific transmission connection structure between the lifting motor 13 and each rotating rod 10 may be a conventional structure, for example, each rotating rod 10 is connected with each other through a gear assembly or a sprocket assembly, and then one of the rotating rods 10 is fixedly connected with an output shaft of the lifting motor 13. Because the bull stick 11 need reciprocal rotation rather than continuous rotation during the use, in order to avoid elevator motor 13 to need constantly to switch over between the positive and negative rotation, in this embodiment, all fixedly connected with each bull stick 11 is gone up and is had the connecting rod 14 of mutual parallel arrangement, and each connecting rod 14 is located same vertical face, and all rotates on each connecting rod 14 and connect on same synchronizing bar 15, and the accessible like this moves synchronizing bar 15 and drives each bull stick 11 synchronous rotation. The synchronizing bar 15 is located below each rotating bar 11, a traction chain 16 or a flexible traction rope is fixedly connected to the synchronizing bar 15, a speed reducer 17 is connected to an output shaft of the elevator motor 13, and a pull rod 18 arranged perpendicular to the output shaft of the speed reducer 17 is fixedly connected to an output shaft of the speed reducer 17, but of course, the pull rod 18 arranged perpendicular to the output shaft of the elevator motor 13 may be directly fixedly connected to the output shaft of the elevator motor 13, that is, the speed reducer 17 may not be provided, and the case where the speed reducer 17 is provided is described in this embodiment as an example. When the lifting mechanism is used, the lifting motor 13 drives the pull rod 18 to rotate, the synchronous rod 15 is pulled to move, and each rotating rod 11 is driven to synchronously rotate, so that one end of each support rod 12, far away from the corresponding rotating rod 11, swings upwards, and finally the lifting frame 20 is driven to move upwards; when the crane 20 is required to move downwards, the lifting motor 13 drives the pull rod 18 to continue to rotate, so that the traction chain 16 or the flexible traction rope is in a loose state, the crane 20 resets under the action of gravity, and simultaneously drives the synchronizing rod 15 to reset, so that energy is saved, and when the crane 20 moves downwards, encounters an obstacle and is clamped, the action of the pull rod 18 is not influenced, the next movement of the crane 20 is realized, and the safety is relatively high.

The lifting frame 20 is further rotatably connected with a plurality of reversing conveying wheels 22 positioned on the same horizontal plane, the reversing conveying wheels 22 are preferably nylon wheels, the reversing conveying wheels 22 are arranged in parallel, the axes of the reversing conveying wheels 22 are arranged in parallel with the conveying direction of the first chain conveying device 30, and the conveying direction of the reversing conveying wheels 22 is perpendicular to the conveying direction of the first chain conveying device 30. Of course, each reversing conveyor wheel 22 or a part of the reversing conveyor wheel 22 is positioned between two chain assemblies 31 of the first chain conveyor 30, so that the stone slab on the first chain conveyor 30 can be jacked up after the lifting frame 20 is moved upwards. In addition, the lifting frame 20 is provided with a reversing conveying motor 23 for driving each reversing conveying wheel 22 to rotate, specifically, the lifting frame 20 is rotatably connected with a plurality of transmission rods 24 which are arranged in parallel and are sequentially arranged in a straight line, each transmission rod 24 is provided with a plurality of reversing conveying wheels 22, two adjacent transmission rods 24 are in transmission connection through a gear assembly, a synchronous belt assembly or a chain assembly, and one transmission rod 24 is in transmission connection with the reversing conveying motor 23 directly or through the chain assembly.

Preferably, in this embodiment, the crane 20 is further rotatably connected with a support rod disposed parallel to the axis of the reversing conveyor wheel 22, the support rod is located on the same side of the two chain assemblies 31 of the first chain conveyor 30, and the support rod is provided with a plurality of support wheels 26, so that a plurality of stone plates can be better supported. In addition, a table top 19 which is located below each rotating rod 11 and is horizontally arranged is fixedly connected to the rack 10, a through groove for each connecting rod 14 to pass through is formed in the table top 19, and when one end, far away from the corresponding rotating rod 11, of each supporting rod 12 abuts against the table top 19, the horizontal position of the upper end point of each reversing conveying wheel 22 is lower than the conveying surface of the first chain conveying device 30, so that normal conveying of the first chain conveying device 30 is prevented from being influenced. The frame 10 is provided with a second chain conveyor 40 arranged in parallel with the first chain conveyor 30 at a position below the deck plate 19, and the structure of the second chain conveyor 40 is identical to that of the first chain conveyor 30, and will not be described again here.

When the stone slab which does not need to be conveyed in a reversing way is produced, the second chain conveying device 40 of the transition conveying device is connected with the two conveying devices of the stone slab production line, and the second chain conveying device 40 is used for realizing transition conveying; the stone slab that the production needs switching-over to carry is, links up one of them conveyor of stone slab production line with first chain conveyor 30, and the position department that is close to the bracing piece is then arranged in to another conveyor's input, and during the use, stone slab is received and is carried the crane 20 top by first chain conveyor 30 earlier, then utilizes the switching-over delivery wheel 22 on the crane 20 with stone slab jack-up to utilize switching-over delivery wheel 22 to carry out stone slab, realize the switching-over and carry.

The present invention has been described in detail with reference to the accompanying drawings, but the embodiments of the present invention are not limited to the above embodiments, and those skilled in the art can make various modifications to the present invention according to the prior art, and these all belong to the protection scope of the present invention.

Claims (7)

1. A transitional conveying platform comprises a rack and is characterized by further comprising a lifting frame, wherein a first chain conveying device which is horizontally arranged is arranged on the rack, the first chain conveying device comprises two groups of chain assemblies which are arranged in parallel and a first conveying motor which is used for driving each chain assembly to move, at least two rotating rods which are arranged in parallel and are horizontally arranged are rotatably connected to the rack, a lifting motor which is used for driving each rotating rod to rotate is arranged on the rack, at least one supporting rod is fixedly connected to the rod body of each rotating rod, each supporting rod is arranged in parallel, the lifting frame is located above each rotating rod, at least two jacking rods which are in one-to-one rotation connection with each supporting rod are fixedly connected to the lifting frame, a plurality of reversing conveying wheels which are located on the same horizontal plane are further rotatably connected to the lifting frame, a reversing conveying motor which is used for driving each reversing conveying wheel to rotate is arranged on the lifting frame, each reversing conveying wheel is arranged in parallel, the axis of each reversing conveying wheel is arranged in parallel with the conveying direction of the first chain conveying device, and part of each reversing conveying wheel or part of each reversing conveying wheel is located between the two chain assemblies.

2. The transition conveying platform as claimed in claim 1, wherein the lifting frame is rotatably connected with a plurality of transmission rods which are arranged in parallel and are sequentially arranged in a straight line, and each transmission rod is provided with a plurality of reversing conveying wheels.

3. The transition conveying platform of claim 1, wherein the reverse conveying wheels are nylon wheels.

4. The transition conveying platform as claimed in claim 1, wherein the lifting frame is further rotatably connected with a support bar arranged parallel to the axis of the reversing conveying wheel, the support bar is positioned on the same side of the two chain assemblies, and the support bar is provided with a plurality of support wheels.

5. The transition conveying platform according to claim 1, wherein a horizontally arranged deck plate is fixedly connected to the frame and located below each rotating rod, and when each supporting rod abuts against the deck plate, the horizontal position of the upper end point of each reversing conveying wheel is lower than the conveying surface of the first chain conveying device.

6. The transition conveying platform according to claim 5, wherein the frame is provided with a second chain conveyor arranged in parallel with the first chain conveyor at a position below the deck plate.

7. The transition conveying platform according to any one of claims 1 to 6, wherein each rotating rod is fixedly connected with a connecting rod arranged in parallel, each connecting rod is rotatably connected with the same synchronizing rod, each synchronizing rod is fixedly connected with a traction chain or a flexible traction rope, an output shaft of the lifting motor is connected with a speed reducer, an output shaft of the speed reducer is fixedly connected with a pull rod arranged in perpendicular to the output shaft of the speed reducer, or an output shaft of the lifting motor is fixedly connected with a pull rod arranged in perpendicular to the output shaft of the lifting motor, one end of the traction chain or the flexible traction rope, which is far away from the synchronizing rod, is connected to the pull rod, a connecting point of the pull rod and the traction chain or the flexible traction rope is arranged in a staggered manner with a rotation axis of the pull rod, and the synchronizing rod is positioned on a rotation plane of the pull rod or arranged in parallel to the rotation plane of the pull rod.

Images