CN211255138U - Multi-dimensional heavy-load conveying equipment - Google Patents

Abstract

The utility model relates to the technical field of conveying equipment, in particular to multi-dimensional heavy-load conveying equipment which comprises a base, a lifting host is fixedly arranged on one side of the base, a conveying platform is arranged above the base and is lifted by the lifting host, the conveying platform is conveyed by a conveying line, so that two materials can be freely conveyed in three directions, is particularly suitable for the material in and out of upper and lower storehouses with limited space, and the counterweight design greatly reduces the load of the motor, improves the safety of the equipment, the novel design of the falling detection mechanism is simple and reliable, the safety and the reliability of equipment are further improved by matching the double brakes, the equipment can be effectively braked due to motor faults, chain breakage and other factors, further damage is avoided, the automation degree is high, and the automatic stick sticking production line can be conveniently butted.

Description

Multi-dimensional heavy-load conveying equipment

Technical Field

The utility model relates to a conveying equipment technical field especially relates to a multidimensional heavy load conveying equipment.

Background

Stick the stick link in the photovoltaic trade at present and be the manual work and glue the stick, glue excellent finished product weight great, manual handling consumes physical power, and damage the silicon rod easily or make the operator receive accidental injury.

The utility model discloses glue excellent off-the-shelf warehouse entry in mainly used photovoltaic trade, also can be used for the multidimensional transport of other trade weights, especially be used for the heavy load transport of working space restriction. The existing similar lifting mechanism adopts more scissor mechanisms, but when the working space is limited, the scissor mechanisms cannot lift materials from the lowest point. Therefore, design the utility model discloses satisfy the realization of this demand, be convenient for simultaneously with other automatic stick rod link butt joints.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a multidimensional heavy-load conveying device.

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

the utility model provides a multidimension heavy load conveying equipment, includes the base, a side-mounting of base is fixed with the lift host computer, conveying platform has been placed to the top of base, and conveying platform goes up and down through the lift host computer, and conveying platform passes through the transfer chain and carries.

Preferably, the base comprises bottom plate and three curb plate, and is provided with four bracing pieces on the bottom plate vertically, and the truckle is installed to the bottom of bottom plate.

Preferably, conveying platform includes the platform frame, the both sides of platform frame are provided with lift platform, and install X in the platform frame and to synchronous transfer chain, one side that the platform frame is close to the lift host computer is provided with falling detection mechanism.

Preferably, the X-direction synchronous conveying line comprises a synchronous belt wheel, a synchronous belt, a servo motor and the like and is used for conveying materials to reciprocate in the X direction.

Preferably, the bottom of lift platform installs the electric jar that lifts, and installs Y on the lift platform and to synchronous transfer chain, Y is provided with to one side of synchronous transfer chain and keeps off the mechanism, and Y is provided with straining device to the opposite side of synchronous transfer chain.

Preferably, the Y-direction synchronous conveying line comprises a synchronous belt wheel, a synchronous belt, a servo motor and the like and is used for conveying materials to reciprocate in the Y direction.

Preferably, the falling detection mechanism comprises mounting plates, guide rods are fixedly mounted between the mounting plates, sliding plates are sleeved on the guide rods, compression springs are fixedly mounted between one sides of the sliding plates and the side walls of the mounting plates and sleeved outside the guide rods, encoders are mounted on the inner sides of the sliding plates, and rollers are mounted on the outer sides of the sliding plates.

Preferably, the lifting host comprises a lifting frame, a motor is installed at the top end of the lifting frame, a motor drives a chain wheel, a chain is arranged on the chain wheel, one end of the chain is connected with a conveying platform, one end of the conveying platform is slidably installed on a linear guide rail, the other end of the chain is connected with a balance weight, a brake is installed in the middle of the lifting frame, and the brake is embraced and penetrates through the brake.

Preferably, the upper end and the lower end of the lifting frame are respectively provided with an upper limit detector and a lower limit detector.

The utility model has the advantages that:

there is currently no use of such devices in the photovoltaic industry. The utility model discloses a main innovation point as follows:

the conveying device can realize the free conveying of two materials in three directions, and is particularly suitable for the warehousing and ex-warehouse of upper and lower layer warehouse materials with limited space.

Secondly, the counterweight design greatly reduces the load of the motor and improves the safety of the equipment.

Drop detection mechanism innovative design, simple reliable, cooperation double brake has further improved equipment security and reliability, no matter be because motor fault, chain fracture or other factors, all can effectively brake, avoids causing further harm.

And fourthly, the automation degree is high, and the automatic stick sticking production line is convenient to butt joint.

Drawings

Fig. 1 is a schematic structural diagram of a multi-dimensional heavy load conveying apparatus provided by the present invention;

fig. 2 is a schematic structural diagram of a base of the multi-dimensional heavy load conveying equipment provided by the present invention;

fig. 3 is a schematic structural view of a conveying platform of the multi-dimensional heavy load conveying equipment provided by the present invention;

fig. 4 is a schematic structural view of a lifting main frame of the multi-dimensional heavy load conveying equipment provided by the present invention;

fig. 5 is a schematic structural view of a lifting platform of the multi-dimensional heavy load conveying equipment provided by the present invention;

fig. 6 is the utility model provides a fall detection mechanism's of heavy load conveying equipment of multidimension schematic structure diagram.

In the figure: 1 base, 101 bottom plate, 102 side plate, 103 support bar, 104 caster;

2, conveying a platform, a 201 platform frame, a 202 lifting platform, a 203 drop detection mechanism and a 204X-direction synchronous conveying line;

2021 lifting electric cylinder, 2022Y-direction synchronous conveying line, 2023 stopping mechanism and 2024 tensioning mechanism;

2031 mounting plate, 2032 sliding plate, 2033 roller, 2034 pressing spring, 2035 encoder, 2036 guide rod;

3, lifting a main machine, 301 lifting a frame, 302 brakes, 303 chain wheels, 304 chains, 305 braking axles, 306 lower limit detectors, 307 upper limit detectors and 308 counterweights.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-6, a multidimension heavy load conveying equipment, includes base 1, and one side installation of base 1 is fixed with lift host computer 3, and conveying platform 2 has been placed to base 1's top, and conveying platform 2 goes up and down through lift host computer 3, and conveying platform 2 carries through the transfer chain.

The base 1 is composed of a bottom plate 101 and three side plates 102, four support rods 103 are vertically arranged on the bottom plate 101, and casters 104 are installed at the bottom end of the bottom plate 101.

Conveying platform 2 includes platform frame 201, and platform frame 201's both sides are provided with lift platform 202, and install X on the platform frame 201 to synchronous transfer chain 204, and one side that platform frame 201 is close to elevating system 3 is provided with and falls detection mechanism 203, and X comprises synchronous pulley, hold-in range, servo motor etc. to synchronous transfer chain 204 for carry the material at X to reciprocating motion.

The bottom end of the lifting platform 202 is provided with a lifting electric cylinder 2021, the lifting platform 202 is provided with a Y-direction synchronous conveying line 2022, one side of the Y-direction synchronous conveying line 2022 is provided with a stopping mechanism 2023, the other side of the Y-direction synchronous conveying line 2022 is provided with a tensioning mechanism 2024, and the Y-direction synchronous conveying line 2022 comprises a synchronous belt wheel, a synchronous belt, a servo motor and the like and is used for conveying materials to reciprocate in the Y direction.

Drop detection mechanism 203 includes mounting panel 2031, and the installation is fixed with guide arm 2036 between the mounting panel 2031, and the cover is equipped with sliding plate 2032 on the guide arm 2036, and the installation is fixed with pressure spring 2034 between one side of sliding plate 2032 and the lateral wall of mounting panel 2031, and pressure spring 2034 cover is established in the guide arm 2036 outside, and the encoder 2035 is installed to the inboard of sliding plate 2032, and gyro wheel 2033 is installed in the outside of sliding plate 2032.

The lifting host machine 3 comprises a lifting frame 301, a motor is installed at the top end of the lifting frame 301, the motor drives a chain wheel 303, a chain 304 is arranged on the chain wheel 303, one end of the chain 304 is connected with the conveying platform 2, one end of the conveying platform 2 is slidably installed on a linear guide rail, the other end of the chain 304 is connected with a balance weight 308, a brake 302 is installed in the middle of the lifting frame 301, a brake holding shaft 305 penetrates through the brake 302, and the upper end and the lower end of the lifting frame 301 are respectively installed on an upper limit detector 307 and a lower limit detector 306.

In this embodiment, firstly, the first material is conveyed to the lifting platform 202 on one side from the conveying platform X to the synchronous conveying line 204, and then the lifting platform 202 on the side is driven by the lifting electric cylinder 2021 below to lift the material to be separated from the synchronous conveying line 204 in the X direction.

Secondly, the second material is conveyed to the other side lifting platform 202 from the conveying platform X to the synchronous conveying line, and then the other side lifting platform 202 is driven by the lower lifting electric cylinder 2021 to lift the material to be separated from the X-direction synchronous conveying line 204.

And thirdly, the motor of the lifting host machine 3 rotates, the conveying platform 2 is gradually lifted through the chain 304, the counterweight 308 module at the rear side of the lifting host machine 3 descends along with the lifting host machine, after the lifting host machine is lifted to the braking position, the proximity sensor outputs a signal, and the motor stops rotating.

And fourthly, the brakes 302 of the conveying platform 2 and the lifting main machine 3 work to enable the conveying platform 2 to stably stay at a fixed height, and the materials are conveyed out from the Y-direction synchronous conveying lines 2022 of the lifting platforms 202 on the two sides of the conveying platform.

And (6) starting the motor in a reverse rotation mode, releasing the brake 302, slowly descending the conveying platform 2 to the original position, and stopping the motor after the proximity sensor detects the motor.

Drop detection mechanism 203 is installed on the conveying platform 2, and once rapid drop occurs during ascending or descending of the conveying platform 2, signals are immediately transmitted to brake 302, so that the braking platform is braked.

When the roller 2033 suddenly rotates reversely or suddenly moves rapidly, the encoder 2035 transmits a signal to the brake 302 for emergency braking.

The lifting frame 301 is a square tube welding frame, and the foot cup is arranged at the bottom of the frame to prevent the equipment from toppling over in operation; the chain 304 bypasses the chain wheel 303, one end of the chain is connected with the conveying platform 2, the other end of the chain is connected with the counterweight 308, and the counterweight 308 is used for balancing part of the load of the conveying platform and reducing the load of a motor; the linear guide rail is fixedly arranged on the side wall of the rack by a bolt, and the guide rail sliding block is connected with the conveying platform; the upper limit detector 307 and the lower limit detector 306 are composed of proximity sensors and mounting plates, and are used for detecting the extreme positions of the ascending and descending of the conveying platform; the brake 302 is arranged at the bottom of the counterweight 308 and is used for braking the counterweight 308; the brake latch 305 is mounted on the frame and passes through the brake 302 of the transport platform 2.

The above description is only for the purpose of illustrating the present invention and the appended claims, and the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims (9)

1. The utility model provides a multidimension heavy load conveying equipment, includes base (1), its characterized in that, a side-mounting of base (1) is fixed with lift host computer (3), conveying platform (2) have been placed to the top of base (1), and conveying platform (2) go up and down through lift host computer (3), and conveying platform (2) are carried through the transfer chain.

2. The multi-dimensional heavy load conveying equipment according to claim 1, wherein the base (1) is composed of a bottom plate (101) and three side plates (102), four support rods (103) are vertically arranged on the bottom plate (101), and casters (104) are installed at the bottom end of the bottom plate (101).

3. The multi-dimensional heavy load conveying equipment according to claim 1, wherein the conveying platform (2) comprises a platform frame (201), lifting platforms (202) are arranged on two sides of the platform frame (201), an X-direction synchronous conveying line (204) is installed on the platform frame (201), and a falling detection mechanism (203) is arranged on one side, close to the lifting host (3), of the platform frame (201).

4. The multi-dimensional heavy load conveying equipment as claimed in claim 3, wherein the X-direction synchronous conveying line (204) consists of a synchronous pulley, a synchronous belt and a servo motor and is used for conveying materials to move back and forth in the X direction.

5. The multi-dimensional heavy load conveying equipment according to claim 3, wherein a lifting electric cylinder (2021) is installed at the bottom end of the lifting platform (202), a Y-direction synchronous conveying line (2022) is installed on the lifting platform (202), a stopping mechanism (2023) is arranged on one side of the Y-direction synchronous conveying line (2022), and a tensioning mechanism (2024) is arranged on the other side of the Y-direction synchronous conveying line (2022).

6. The multi-dimensional heavy load conveying equipment as claimed in claim 5, wherein the Y-direction synchronous conveying line (2022) consists of a synchronous pulley, a synchronous belt and a servo motor and is used for conveying materials to move back and forth in the Y direction.

7. The multidimensional large-load conveying equipment according to claim 3, wherein the fall detection mechanism (203) comprises mounting plates (2031), guide rods (2036) are fixedly mounted between the mounting plates (2031), sliding plates (2032) are sleeved on the guide rods (2036), compression springs (2034) are fixedly mounted between one side of each sliding plate (2032) and the side wall of each mounting plate (2031), each compression spring (2034) is sleeved on the outer side of each guide rod (2036), encoders (2035) are mounted on the inner sides of the sliding plates (2032), and rollers (2033) are mounted on the outer sides of the sliding plates (2032).

8. The multi-dimensional heavy load conveying equipment according to claim 1, wherein the lifting main machine (3) comprises a lifting frame (301), a motor is installed at the top end of the lifting frame (301), the motor drives a chain wheel (303), a chain (304) is arranged on the chain wheel (303), one end of the chain (304) is connected with the conveying platform (2), one end of the conveying platform (2) is slidably installed on the linear guide rail, the other end of the chain (304) is connected with a balance weight (308), a brake (302) is installed in the middle of the lifting frame (301), and the brake clasping shaft (305) penetrates through the brake (302).

9. A multi-dimensional heavy load conveyor according to claim 8, wherein the upper and lower ends of the elevator frame (301) are respectively mounted with an upper limit detector (307) and a lower limit detector (306).

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