CN218433528U - Transmission equipment with double-circulation swing shunting structure - Google Patents

Abstract

The utility model discloses a transmission equipment with dual cycle swing reposition of redundant personnel structure, this transmission equipment aim at solving present belt conveyor and can only form one reposition of redundant personnel, the technical problem of different positions is carried to the material that can not relax. The conveying equipment comprises a base, a low-point conveying mechanism and a high-point conveying mechanism, wherein the low-point conveying mechanism and the high-point conveying mechanism are arranged above the base. This transmission equipment adopts forward rotary motor and reverse rotary motor to drive low point conveying mechanism and high point conveying mechanism reverse horizontal rotation respectively, make its the discharge end of the two rotatory certain angle arrive corresponding transport mechanism on, can shunt the material and carry different positions, under the circumstances of low point conveying mechanism and high point conveying mechanism simultaneous rotation, can form alternately shunt the state of carrying the material, can switch over direction of delivery at any time through motor drive, high point conveying mechanism also can transport the material on low point conveying mechanism, transport the material back through low point conveying mechanism reverse drive, convenience flexible to use.

Description

Transmission equipment with double-circulation swing shunting structure

Technical Field

The utility model belongs to the transmission equipment field, concretely relates to transmission equipment with dual cycle swing reposition of redundant personnel structure.

Background

A belt conveyor is a friction-driven machine that transports material in a continuous manner. Mainly comprises a frame, a conveying belt, a carrier roller, a tensioning device, a transmission device and the like. The material conveying device can form a material conveying flow path from an initial feeding point to a final discharging point on a certain conveying line. The conveying device can be used for conveying broken materials and finished articles, can be used for conveying pure materials, and can be matched with the requirements of technological processes in the production flows of industrial enterprises to form a rhythmic line production conveying line.

When the original belt conveyor conveys materials, one strand of flow is shunted to conveying flow in the conveying line, the use is limited, the belt conveyor is inconvenient and inflexible, and the existing conveying equipment cannot realize the conveying process under the condition that different materials need to be conveyed to different positions, so that the working efficiency is low. The current notice number is CN 205526559U's Chinese utility model, its disclosed oscillating reposition of redundant personnel conveyer from top to bottom, its characterized in that: including former conveyer body, former conveyer body driving roll side is equipped with the power roll sprocket, former conveyer body left side is equipped with drum-type diverging device, drum-type diverging device includes cylinder conveyer body and pneumatic means, the transition district of cylinder conveyer body and former conveyer body is equipped with the transition cylinder, former conveyer body machine side is equipped with the connecting plate, the connecting plate passes through the power roll sprocket and connects the transition cylinder. The beneficial effects of the utility model are that: conventional band conveyer installs this diverging device additional after, realizes falling into the poor twice reposition of redundant personnel transfer chain of height fast to can realize pneumatic automatic control, convenient economy. This patent document adjusts the fortune material height through the tilting cylinder drive conveying mechanism upset from top to bottom to reach the function of reposition of redundant personnel from top to bottom.

Consequently, can only form one reposition of redundant personnel to above-mentioned traditional belt conveyors, can not relax carries the condition of different positions with the material, and the novel swing reposition of redundant personnel transmission equipment of development utilizes the swing reposition of redundant personnel mechanism of two sets of horizontal overlaps, utilizes the cylinder drive to follow fixed axle center horizontal rotation, changes defeated material direction, reaches circulation cross reposition of redundant personnel transport function.

SUMMERY OF THE UTILITY MODEL

(1) Technical problem to be solved

Not enough to prior art, the utility model aims to provide a transmission equipment with dual cycle swing reposition of redundant personnel structure, this transmission equipment aim at solving present belt conveyor and can only form one reposition of redundant personnel, the technical problem of different positions is carried to the material that can not relax.

(2) Technical scheme

In order to solve the technical problem, the utility model provides a transmission equipment with double circulation swing reposition of redundant personnel structure like this, this transmission equipment include the base, set up in the low point conveying mechanism and the high point conveying mechanism of base top, base upper end fixed mounting has a support, forward rotating electrical machines is installed to a support upper end, low point conveying mechanism pan feeding one end set up in forward rotating electrical machines top, no. two supports are installed to the base upper end, reverse rotating electrical machines is installed to No. two support upper ends, high point conveying mechanism pan feeding one end set up in reverse rotating electrical machines top, a support set up in No. two support left sides, high point conveying mechanism's the height that highly is higher than low point conveying mechanism.

When the transmission equipment with the double-circulation swinging and shunting structure in the technical scheme is used, the low-point conveying mechanism and the high-point conveying mechanism are arranged in parallel with the first transfer mechanism and the second transfer mechanism from top to bottom respectively, materials on the low-point conveying mechanism are conveyed to the first transfer mechanism, materials on the high-point conveying mechanism are conveyed to the second transfer mechanism, the lower bracket plays a role in supporting the lower ends of the low-point conveying mechanism and the high-point conveying mechanism respectively while conveying the materials, when the materials need to be shunted and conveyed, a user starts the forward rotary motor, the low-point conveying mechanism horizontally rotates by taking the input end of the low-point conveying mechanism as the axis, the output end of the low-point conveying mechanism moves to the upper side of the second transfer mechanism from the first transfer mechanism, the materials on the low-point conveying mechanism slide down to the second transfer mechanism through the first slideway and are conveyed forwards, meanwhile, the reverse rotary motor is started, the high-point conveying mechanism horizontally rotates by taking the input end of the high-point conveying mechanism as the axis, the output end of the high-point conveying mechanism moves to the first transfer mechanism from the second transfer mechanism, the materials on the second slideway and plays a role in supporting the upper transfer mechanism while supporting the high-point conveying mechanism.

Furthermore, the lower end of one side of the input end of the low-point conveying mechanism is fixedly provided with a first balance table, and the first balance table is arranged at the upper end of an output execution element of the forward rotary motor. The forward rotary motor drives the output execution element to rotate clockwise, and drives the first balance table and the low-point conveying mechanism at the upper end of the first balance table to rotate clockwise to the position above the second transfer mechanism.

Furthermore, the lower end of one side of the input end of the high-point conveying mechanism is fixedly provided with a second balance table, and the second balance table is arranged at the upper end of an output execution element of the reverse rotary motor. The reverse rotation motor drives the output execution element to rotate anticlockwise so as to drive the second balancing table and the high-point conveying mechanism at the upper end of the second balancing table to rotate anticlockwise to the upper part of the first transfer mechanism.

Furthermore, a first frame is arranged below the output end of the low-point conveying mechanism, a first transfer mechanism is installed at the upper end of the first frame, a second frame is arranged below the output end of the high-point conveying mechanism, and a second transfer mechanism is installed at the upper end of the second frame. The conveying direction of the first conveying mechanism and the second conveying mechanism is the same as that of the low-point conveying mechanism and the high-point conveying mechanism.

Further, a slide is installed to low point conveying mechanism output end, a slide with swing joint has the hinge between the low point conveying mechanism, no. two slides are installed to high point conveying mechanism output end, no. two slides with swing joint has another hinge between the high point conveying mechanism. The bottom of a slide and No. two slides and the surperficial parallel and level of a forwarding mechanism and No. two forwarding mechanisms, and the slope of a slide is greater than the slope of No. two slides.

Further, a lower bracket is installed on the upper side of the input end of the first transfer mechanism and the second transfer mechanism, upper brackets are installed on the upper end of the low-point conveying mechanism in a bilateral symmetry mode, and rubber pads are arranged on the upper ends of the lower brackets and the upper brackets. The upper bracket and the lower bracket play a role in supporting the middle parts of the low-point conveying mechanism and the high-point conveying mechanism, and the stability of conveying materials is improved.

(3) Advantageous effects

Compared with the prior art, the beneficial effects of the utility model reside in that: the utility model discloses a transmission equipment with double circulation swing reposition of redundant personnel structure adopts forward rotating electrical machines and reverse rotating electrical machines to drive low point conveying mechanism and high point conveying mechanism reverse horizontal rotation respectively, make on its the rotatory certain angle of discharge end of the two reachs corresponding transport mechanism, can carry different positions with the material reposition of redundant personnel, under the rotatory condition simultaneously of low point conveying mechanism and high point conveying mechanism, can form the state of alternately shunting transported substance material, can switch direction of delivery at any time through motor drive, high point conveying mechanism also can transport the material on the low point conveying mechanism, transport the material back through low point conveying mechanism reverse drive, moreover, the steam generator is simple in structure, and the use is nimble convenient.

Drawings

Fig. 1 is a schematic view of an assembly structure of a specific embodiment of the transmission equipment with a dual-cycle swing flow-dividing structure according to the present invention;

fig. 2 is a schematic view of another state assembly structure of the embodiment of the transmission equipment with a dual-cycle swing flow-dividing structure of the present invention;

fig. 3 is a schematic plan view of an embodiment of the transmission apparatus with a dual-cycle swing flow-dividing structure according to the present invention;

fig. 4 is a schematic front structural view of a specific embodiment of the transmission device with a dual-cycle swing flow-dividing structure according to the present invention.

The labels in the figures are: 1. a base; 2. a first support; 3. a forward rotary motor; 4. a low point conveying mechanism; 5. a second support; 6. a reverse rotation motor; 7. a high point conveying mechanism; 8. a first balance table; 9. a second balance table; 10. a first frame; 11. a first transfer mechanism; 12. a second frame; 13. a second transfer mechanism; 14. a first slideway; 15. a second slideway; 16. a lower bracket; 17. and (4) an upper bracket.

Detailed Description

The specific embodiment is a transmission device with a double-circulation swing shunting structure, an assembly structure schematic diagram of the transmission device is shown in fig. 1, an assembly structure schematic diagram of another state is shown in fig. 2, a plane structure schematic diagram is shown in fig. 3, a front structure schematic diagram is shown in fig. 4, the transmission device comprises a base 1, a low-point conveying mechanism 4 and a high-point conveying mechanism 7, the low-point conveying mechanism 4 and the high-point conveying mechanism 7 are arranged above the base 1, a first support 2 is fixedly arranged at the upper end of the base 1, a forward rotary motor 3 is arranged at the upper end of the first support 2, a feeding end of the low-point conveying mechanism 4 is arranged above the forward rotary motor 3, a second support 5 is arranged at the upper end of the base 1, a reverse rotary motor 6 is arranged at the upper end of the second support 5, a feeding end of the high-point conveying mechanism 7 is arranged above the reverse rotary motor 6, the first support 2 is arranged on the left side of the second support 5, and the high-point conveying mechanism 7 is higher than the low-point conveying mechanism 4.

In the present embodiment, the height difference between the low spot conveying mechanism 4 and the first transfer mechanism 11 is the same as the height difference between the low spot conveying mechanism 4 and the high spot conveying mechanism 7, and when the two mechanisms rotate horizontally, the high spot conveying mechanism 7 is overlapped above the low spot conveying mechanism 4, and no interference action in the horizontal direction occurs.

Wherein, the lower extreme of input one side of low point conveying mechanism 4 is fixed with a balancing stand 8 No. one, and a balancing stand 8 is installed in the output executive component upper end of forward rotating motor 3, and the lower extreme of input one side of high point conveying mechanism 7 is fixed with a balancing stand 9 No. two, and a balancing stand 9 No. two is installed in the output executive component upper end of reverse rotating motor 6. The forward rotating motor 3 drives the output execution element to rotate clockwise to drive the first balancing table 8 and the low-point conveying mechanism 4 at the upper end of the first balancing table to rotate clockwise to the position above the second transferring mechanism 13, and the reverse rotating motor 6 drives the output execution element to rotate anticlockwise to drive the second balancing table 9 and the high-point conveying mechanism 7 at the upper end of the second balancing table to rotate anticlockwise to the position above the first transferring mechanism 11.

Meanwhile, a first frame 10 is arranged below the output end of the low-point conveying mechanism 4, a first transfer mechanism 11 is mounted at the upper end of the first frame 10, a second frame 12 is arranged below the output end of the high-point conveying mechanism 7, a second transfer mechanism 13 is mounted at the upper end of the second frame 12, a first slide 14 is mounted at the output end of the low-point conveying mechanism 4, a hinge is movably connected between the first slide 14 and the low-point conveying mechanism 4, a second slide 15 is mounted at the output end of the high-point conveying mechanism 7, and another hinge is movably connected between the second slide 15 and the high-point conveying mechanism 7. The conveying direction of the first transfer mechanism 11 and the second transfer mechanism 13 is the same as that of the low-point conveying mechanism 4 and the high-point conveying mechanism 7, the bottom ends of the first slide way 14 and the second slide way 15 are flush with the surfaces of the first transfer mechanism 11 and the second transfer mechanism 13, and the gradient of the first slide way 14 is larger than that of the second slide way 15.

In addition, lower brackets 16 are arranged on the upper sides of the input ends of the first transfer mechanism 11 and the second transfer mechanism 13, upper brackets 17 are symmetrically arranged on the left and right of the upper end of the low-point conveying mechanism 4, and rubber pads are arranged on the upper ends of the lower brackets 16 and the upper brackets 17. The upper bracket 17 and the lower bracket 16 play a role in supporting the middle parts of the low-point conveying mechanism 4 and the high-point conveying mechanism 7, so that the stability of conveying materials is improved.

When the transmission equipment with the double-circulation swinging and shunting structure of the technical scheme is used, the low-point conveying mechanism 4 and the high-point conveying mechanism 7 are respectively arranged in an up-and-down parallel mode with the first transfer mechanism 11 and the second transfer mechanism 13, materials on the low-point conveying mechanism 4 are conveyed to the first transfer mechanism 11, materials on the high-point conveying mechanism 7 are conveyed to the second transfer mechanism 13, the lower bracket 16 respectively plays a supporting role for the lower ends of the low-point conveying mechanism 4 and the high-point conveying mechanism 7 during material conveying, when the materials need to be shunted and conveyed, a user starts the forward rotary motor 3 to enable the low-point conveying mechanism 4 to horizontally rotate by taking the input end of the low-point conveying mechanism 4 as an axis, the output end of the low-point conveying mechanism 4 moves to the upper part of the second transfer mechanism 13 from the first transfer mechanism 11, the materials on the low-point conveying mechanism 4 slide down to the second transfer mechanism 13 through the first slideway 14 and are conveyed forward, and simultaneously starts the reverse rotary motor 6 to enable the high-point conveying mechanism 7 to horizontally rotate by taking the input end of the high-point conveying mechanism as an axis, the output end of the second transfer mechanism moves from the first transfer mechanism 13 to the second transfer mechanism 13, the second transfer mechanism 13 and slides down to the high-point conveying mechanism 4 to the support on the second transfer mechanism 13, and plays a supporting role of the high-point conveying mechanism 15, and supports the second transfer mechanism 13, and the high-point conveying mechanism 13.

Claims (6)

1. The conveying equipment with the double-circulation swing flow dividing structure comprises a base, a low-point conveying mechanism and a high-point conveying mechanism, wherein the low-point conveying mechanism and the high-point conveying mechanism are arranged above the base; its characterized in that, base upper end fixed mounting has a support, forward rotating electrical machines is installed to a support upper end, low point conveying mechanism pan feeding one end set up in forward rotating electrical machines top, no. two supports are installed to the base upper end, reverse rotating electrical machines is installed to No. two support upper ends, high point conveying mechanism pan feeding one end set up in reverse rotating electrical machines top, a support set up in No. two support left sides, high point conveying mechanism highly be higher than low point conveying mechanism's height.

2. The transmission equipment with the double-circulation swing flow dividing structure according to claim 1, wherein a first balance table is fixedly mounted at the lower end of one side of the input end of the low-point conveying mechanism, and the first balance table is mounted at the upper end of an output execution element of the forward rotary motor.

3. The conveying equipment with the double-circulation swinging and flow dividing structure as claimed in claim 1, wherein a second balancing table is fixedly mounted at the lower end of one side of the input end of the high-point conveying mechanism, and the second balancing table is mounted at the upper end of an output actuating element of the reverse rotating motor.

4. The conveying equipment with the double-circulation swing flow dividing structure as claimed in claim 1, wherein a first frame is arranged below the output end of the low-point conveying mechanism, a first transfer mechanism is arranged at the upper end of the first frame, a second frame is arranged below the output end of the high-point conveying mechanism, and a second transfer mechanism is arranged at the upper end of the second frame.

5. The conveying equipment with the dual-cycle swing flow-dividing structure according to claim 1, wherein a first slide is installed at one output end of the low-point conveying mechanism, a hinge is movably connected between the first slide and the low-point conveying mechanism, a second slide is installed at one output end of the high-point conveying mechanism, and another hinge is movably connected between the second slide and the high-point conveying mechanism.

6. The conveying equipment with the double-circulation swing flow dividing structure as claimed in claim 4, wherein the upper sides of the input ends of the first transfer mechanism and the second transfer mechanism are respectively provided with a lower bracket, the upper ends of the low-point conveying mechanisms are respectively provided with an upper bracket in a bilateral symmetry manner, and the upper ends of the lower bracket and the upper bracket are respectively provided with a rubber pad.

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