CN209922204U

CN209922204U - Adjustable steel frame structure for transmission device

Info

Publication number: CN209922204U
Application number: CN201920075598.9U
Authority: CN
Inventors: 王胜; 吴朋辉
Original assignee: Wuhu Gree Lifting Machinery Manufacturing Co Ltd
Current assignee: Wuhu Gree Lifting Machinery Manufacturing Co Ltd
Priority date: 2019-01-17
Filing date: 2019-01-17
Publication date: 2020-01-10
Anticipated expiration: 2029-01-17

Abstract

The utility model discloses an adjustable steel frame structure for a transmission device, which relates to the technical field of friction transportation and comprises a fixed plate and a rotating plate, braced frame and stabilizer blade, top and bottom at the braced frame are installed respectively to fixed plate and stabilizer blade, the both ends that the rotor plate bilateral symmetry set up and pass through pivot and fixed plate are articulated, supporting seat one is installed to the up end equipartition of fixed plate and rotor plate, it installs back shaft one to rotate on the supporting seat one, the equipartition is equipped with the friction pulley and has the conveyer belt to twine on the friction pulley on back shaft one, the motor fixed plate is installed to the left end face of rotor plate and installs driving motor on the motor fixed plate, driving motor's output shaft end-to-end is installed band pulley one, be connected with the belt on the band pulley one and be connected with band pulley two through the belt, band pulley two is installed the front end at back shaft one on the rightmost. The utility model has the advantages of simple structure, convenient adjustment and high adaptability.

Description

Adjustable steel frame structure for transmission device

Technical Field

The utility model relates to a technical field that friction was carried, concretely relates to steel frame construction with adjustable be used for transmission device.

Background

The conveying line is generally applied to the industries of mechanical manufacturing, automobile manufacturing, household appliances and the like, is mainly used on an electroplating production line and an assembly production line of parts in mass production products, and has the advantages of safety, convenience, high efficiency and the like compared with a manual operation mode. Conveyor belts are generally classified according to the presence or absence of traction elements, conveyor belt installations with traction elements and conveyor belt installations without traction elements. The types of conveyor belt equipment with the traction part are various, and mainly comprise a belt conveyor, a plate conveyor, a trolley conveyor, an escalator, a moving sidewalk, a scraper conveyor, a buried scraper conveyor, a bucket elevator, a suspension conveyor, an aerial cableway and the like. Conveyor belt installations without traction elements are frequently provided with rollers for rotary movement, screw conveyors.

The belt conveyor drives the friction wheel to rotate after being driven by the transmission mechanism through the motor, and then drives the conveying belt to rotate through the friction force between the friction wheel and the conveying belt, so that the objects are conveyed. However, after the existing belt conveyor is installed, the spatial structure cannot be changed any more, and certain adaptability is lacked, so that a production enterprise cannot flexibly change the spatial inclination angle of the conveying belt according to the actual production requirement of the production enterprise, and the production benefit and the economic benefit of the production enterprise are influenced.

Therefore, it is necessary to design a belt conveyor based on friction wheels, which has the advantages of simple structure, convenient adjustment and high adaptability, so as to overcome the defect of low adaptability of the existing belt conveyor.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a steel frame construction with adjustable be used for transmission device to solve the above-mentioned defect that leads to among the prior art.

An adjustable steel frame structure for a transmission device comprises a fixed plate, a rotating shaft, a rotating plate, a supporting frame and supporting legs, wherein the fixed plate and the supporting legs are respectively arranged at the top and the bottom of the supporting frame, the rotating plate is symmetrically arranged at two sides of the fixed plate and hinged through the rotating shaft and two ends of the fixed plate, a first supporting seat is uniformly arranged on the upper end faces of the fixed plate and the rotating plate, a second supporting seat is symmetrically arranged at two sides of the upper end face of the fixed plate, a first supporting shaft is rotatably arranged on the first supporting seat, a third supporting shaft and a second supporting shaft are rotatably arranged on the upper portion and the lower portion of the second supporting seat respectively, a friction wheel is uniformly arranged on the first supporting shaft and the second supporting shaft, a conveying belt is wound on the friction wheel, a motor fixing plate is arranged on the left end face of the rotating plate, a driving, the utility model discloses a conveyor belt, including band pulley one, support shaft four, the fixed plate, the conveyer belt is equipped with restraint wheel and conveyer belt on the conveyer belt, be connected with the belt on the band pulley one and be connected with band pulley two through the belt, band pulley two installs the front end at support shaft one on the rightmost, the sprocket is all installed and is connected with the chain on the sprocket to the rear end of support shaft one, the below of support shaft three is equipped with support shaft four and rotates and installs on the fixed plate, and restraint wheel under the conveyer belt are installed respectively to the support shaft three of front and back both sides and the one end inwards of support shaft four to the restraint.

Preferably, a main support rod and an auxiliary support rod are arranged on the outer side of the overhanging end of the rotating plate, the main support rod is rotatably installed on the rotating plate through a support shaft five, outer pin holes and inner pin holes are uniformly distributed in the main support rod and the auxiliary support rod, and the auxiliary support rod is slidably arranged in a cavity of the main support rod and is connected with the main support rod through a pin shaft.

Preferably, the lower end face of the main support rod is welded with a first bottom plate by means of a first rib plate, the lower end face of the auxiliary support rod is welded with a second bottom plate by means of a second rib plate, and a first vibration reduction friction pad, a second vibration reduction friction pad and a third vibration reduction friction pad are respectively stuck to the lower end faces of the first bottom plate, the second bottom plate and the support legs.

Preferably, a control cabinet is installed on the front side of the supporting frame, and the control cabinet is electrically connected with the driving motor.

Preferably, the first belt wheel and the second belt wheel are both 2-groove V-shaped belt wheels, and the belt is two common V-shaped belts.

The utility model discloses a theory of operation and advantage: the utility model discloses a driving motor drives the friction pulley rotation after belt drive and sprocket drive, and the frictional force between rethread friction pulley and the conveyer belt drives the drive belt and rotates. The conveyer belt above the rotating plate can be adjusted to be in a horizontal, upward-inclined or downward-inclined state according to the requirements of actual production through the rotating connection between the rotating plate and the fixed plate, after the adjustment is finished, the conveyer belt is constrained to be in a tensioning state all the time through the upper constraint wheel of the conveyer belt and the lower constraint wheel of the conveyer belt, and the chain is constrained to be in a tensioning state all the time through the upper constraint wheel of the chain and the lower constraint wheel of the chain. The utility model has the advantages of simple structure, convenient adjustment and high adaptability.

Drawings

Fig. 1 is a schematic structural diagram of the whole front view of the present invention.

Fig. 2 is a schematic structural diagram of the whole rear view of the present invention.

Fig. 3 is a schematic view of the overall overlook structure of the present invention.

Fig. 4 is a schematic view of the structure at the section a-a in fig. 1.

Wherein, 1, a fixed plate; 2-a rotating shaft; 3-rotating the plate; 4-supporting the first base; 5, supporting a shaft I; 6-a friction wheel; 7-a conveyor belt; 8, fixing a motor plate; 9-driving a motor; 10-a first belt wheel; 11-a belt; 12-pulley two; 13-a sprocket; 14-a chain; 15-a second supporting seat; 16-supporting the shaft II; 17-supporting the shaft III; 18-a constraining wheel on the conveyor belt; 19-supporting shaft four; 20-a lower restraint wheel of the conveyor belt; 21-a constraining wheel on the chain; 22-lower chain restraint wheel; 23-a support frame; 24-a leg; 25-damping friction pad three; 26-supporting shaft five; 27-a main support strut; 271-outer pin holes; 28-a pin shaft; 29-Rib one; 30-a first bottom plate; 31-damping friction pad one; 32-auxiliary support rods; 321-inner pin mouth; 33-rib plate two; 34-a second bottom plate; 35-damping friction pad two; 36-control cabinet.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

As shown in fig. 1 to 4, an adjustable steel frame structure for a transmission device comprises a fixed plate 1, a rotating shaft 2, a rotating plate 3, a supporting frame 23 and supporting legs 24, wherein the fixed plate 1 and the supporting legs 24 are respectively installed at the top and the bottom of the supporting frame 23, the rotating plate 3 is symmetrically arranged at two sides of the fixed plate 1 and is hinged to two ends of the fixed plate 1 through the rotating shaft 2, supporting seats 4 are uniformly distributed on the upper end surfaces of the fixed plate 1 and the rotating plate 3, supporting seats 15 are symmetrically arranged at two sides of the upper end surface of the fixed plate 1, a supporting shaft 5 is rotatably installed on the supporting seats 4, supporting shafts three 17 and two supporting shafts 16 are respectively rotatably installed on the upper portion and the lower portion of the supporting seats 15, friction wheels 6 are uniformly distributed on the supporting shafts 5 and the supporting shafts 16, conveyor belts 7 are wound on the friction wheels 6, a motor fixing plate 8 is installed on the left end surface of the rotating plate 3, and a driving motor, a belt wheel 10 is installed at the tail end of an output shaft of the driving motor 9, a belt 11 is connected to the belt wheel 10, a belt wheel 12 is connected to the belt wheel 11 through the belt 11, the belt wheel 12 is installed at the front end of a support shaft 5 on the rightmost side, a chain wheel 13 is installed at the rear end of the support shaft 5, a chain 14 is connected to the chain wheel 13, a support shaft four 19 is arranged below the support shaft three 17 and rotatably installed on the fixing plate 1, a restraint wheel 18 on the conveying belt and a restraint wheel 20 under the conveying belt are installed at the inward end of the support shaft three 17 and the inward end of the support shaft four 19 on the front side and the rear side respectively, and a restraint wheel 21 on the chain and a restraint wheel 22 under the chain are installed at the outward end of the.

In this embodiment, a main supporting rod 27 and an auxiliary supporting rod 32 are disposed outside the overhanging end of the rotating plate 3, the main supporting rod 27 is rotatably mounted on the rotating plate 3 through a supporting shaft five 26, outer pin holes 271 and inner pin holes 321 are uniformly disposed on the main supporting rod 27 and the auxiliary supporting rod 32, and the auxiliary supporting rod 32 is slidably disposed in the cavity of the main supporting rod 27 and connected to each other by a pin 28. The belt conveyor 7 positioned above the pivotal plate 3 can be adjusted to a horizontal, upwardly inclined or downwardly inclined state by the mutual engagement between the main support bar 27 and the auxiliary support bar 32.

In this embodiment, the lower end surface of the main support rod 27 is welded with a first bottom plate 30 by means of a first rib plate 29, the lower end surface of the auxiliary support rod 32 is welded with a second bottom plate 34 by means of a second rib plate 33, and the first bottom plate 30, the second bottom plate 34 and the lower end surface of the leg 24 are respectively adhered with a first damping friction pad 31, a second damping friction pad 35 and a third damping friction pad 25. The main support bar 27 and the auxiliary support bar 32 can be in contact with the ground by means of the first bottom plate 30 and the second bottom plate 34, respectively, so as to support the overhanging portion of the rotating plate 3. The first damping friction pad 31, the second damping friction pad 35 and the third damping friction pad 25 can respectively increase the friction resistance of the first base plate 30, the second base plate 34 and the support legs 24 with the contact surface, so that the position deviation caused by the vibration of the transmission device in the operation process can be better overcome.

In this embodiment, a control cabinet 36 is installed on the front side of the supporting frame 23, and the control cabinet 36 is electrically connected to the driving motor 6. The control of the rotational speed and the direction of rotation of the drive motor 6 can be effected via a control cabinet 36.

In this embodiment, the first belt pulley 10 and the second belt pulley 12 are 2-groove V-shaped belt pulleys, and the belt 11 is two common V-shaped belts. The belt driving mechanism is composed of a driving motor 9, a first belt wheel 10, a second belt wheel 12 and a belt 11, and can provide certain power and torque for the transmission belt 7 and effectively prevent the transmission belt 7 from being overloaded during transportation.

To sum up, the utility model discloses a theory of operation and advantage: the utility model discloses a driving motor 9 drives friction pulley 6 after belt drive and sprocket feed and rotates, and the frictional force between rethread friction pulley 6 and the conveyer belt 7 drives the drive belt 7 and rotates. The conveyer belt 7 above the rotating plate 3 can be adjusted to be in a horizontal, upward inclined or downward inclined state according to the actual production requirement through the rotating connection between the rotating plate 3 and the fixed plate 1, after the adjustment is finished, the conveyer belt 7 is restrained to be in a tensioned state all the time through the upper restraint wheel 18 of the conveyer belt and the lower restraint wheel 20 of the conveyer belt, and the chain 14 is restrained to be in a tensioned state all the time through the upper restraint wheel 21 of the chain and the lower restraint wheel 22 of the chain. The utility model has the advantages of simple structure, convenient adjustment and high adaptability.

The embodiments disclosed above are therefore to be considered in all respects as illustrative and not restrictive. All changes which come within the scope of the invention or which are equivalent to the scope of the invention are embraced by the invention.

Claims

1. An adjustable steel frame construction for a conveyor, characterized in that: comprises a fixed plate (1), a rotating shaft (2), a rotating plate (3), a supporting frame (23) and supporting legs (24), wherein the fixed plate (1) and the supporting legs (24) are respectively arranged at the top and the bottom of the supporting frame (23), the rotating plate (3) is symmetrically arranged at two sides of the fixed plate (1) and is hinged with two ends of the fixed plate (1) through the rotating shaft (2), a first supporting seat (4) is uniformly arranged on the upper end faces of the fixed plate (1) and the rotating plate (3), a second supporting seat (15) is symmetrically arranged at two sides of the upper end face of the fixed plate (1), a first supporting shaft (5) is rotatably arranged on the first supporting seat (4), a third supporting shaft (17) and a second supporting shaft (16) are respectively rotatably arranged on the upper portion and the lower portion of the second supporting seat (15), a friction wheel (6) is uniformly arranged on the first supporting shaft (5) and the second supporting shaft (16) and a conveying belt (, the left end face of the rotating plate (3) is provided with a motor fixing plate (8) and a driving motor (9) is arranged on the motor fixing plate (8), the tail end of an output shaft of the driving motor (9) is provided with a belt wheel (10), the belt wheel (10) is connected with a belt (11) and is connected with a belt wheel (12) through the belt (11), the belt wheel (12) is arranged at the front end of the rightmost supporting shaft (5), the rear end of the supporting shaft (5) is provided with a chain wheel (13) and is connected with a chain (14) on the chain wheel (13), a supporting shaft four (19) is arranged below the supporting shaft three (17) and is rotatably arranged on the fixing plate (1), and an inward end of the supporting shaft three (17) and the inward end of the supporting shaft four (19) on the front side and the rear side are respectively provided with a restraint wheel (18) on the conveying belt and a, and the outward ends of the third support shaft (17) and the fourth support shaft (19) on the rear side are respectively provided with an upper chain restraint wheel (21) and a lower chain restraint wheel (22).

2. An adjustable steel frame construction for a conveyor according to claim 1 wherein: the outside of the overhang end of rotor plate (3) is equipped with main tributary vaulting pole (27) and assists bracing piece (32), main tributary vaulting pole (27) are rotated through supporting axle five (26) and are installed on rotor plate (3), the equipartition is equipped with outer pin hole (271) and interior pin hole (321) on main tributary vaulting pole (27) and the assistance bracing piece (32), assist bracing piece (32) to slide and locate in the cavity of main tributary vaulting pole (27) and with the help of round pin axle (28) interconnect.

3. An adjustable steel frame construction for a conveyor according to claim 2 wherein: the lower terminal surface of main tributary vaulting pole (27) has bottom plate one (30) with the help of floor one (29) welding, the lower terminal surface of auxiliary stay pole (32) has bottom plate two (34) with the help of floor two (33) welding, the lower terminal surface of bottom plate one (30), bottom plate two (34) and stabilizer blade (24) is pasted respectively and is had damping friction pad one (31), damping friction pad two (35) and damping friction pad three (25).

4. An adjustable steel frame construction for a conveyor according to claim 1 wherein: the front side of the supporting frame (23) is provided with a control cabinet (36), and the control cabinet (36) is electrically connected with the driving motor (9).

5. An adjustable steel frame construction for a conveyor according to claim 1 wherein: the first belt wheel (10) and the second belt wheel (12) are 2-groove V-shaped belt wheels, and the belt (11) is two common V-shaped belts.