CN212169755U - Oil-immersed transformer's radiator oil pipe cutting loading attachment - Google Patents

Abstract

The utility model provides an oil-immersed transformer's radiator oil pipe cutting loading attachment, comprising a base plate, be equipped with two at least pillar framves between the fore-and-aft direction in the left side of bottom plate, the one end of pillar frame upwards constitutes there is the pillar, the upper end supporting of pillar has the pillar pulley, it smugglies the device secretly to establish on the left surface of pillar, the material loading post is established to the top of bottom plate, the tip supporting of material loading post has the material loading pulley, the right side of bottom plate is equipped with two at least drive shaft mounts along the fore-and-aft direction, the motor mounting bracket is still established on the right side of bottom plate, there is the motor on the motor mounting bracket, there is the drive shaft along the fore-and-aft direction supporting between the drive shaft mount, there is from the driving wheel in the drive shaft, be connected with motor drive from the driving wheel, there is the take-up pulley in the drive shaft, establish the material area. The feeding structure is simplified, the cost is saved, the feeding is rapid, the automation efficiency is high, the labor and the time are saved, and the cost is reduced.

Description

Oil-immersed transformer's radiator oil pipe cutting loading attachment

Technical Field

The utility model belongs to the technical field of radiator oil pipe cutting platform, concretely relates to radiator oil pipe cutting loading attachment of oil-immersed transformer.

Background

The radiator is one of indispensable subassemblies of oil-immersed transformer, and parts such as the inside winding of transformer in the course of the work and iron core can produce the loss and produce a large amount of heat energy, and the increase of temperature can direct influence the life-span of winding insulating material, consequently must control the temperature of transformer in certain scope.

Current radiator mainly adopts the structure that sets up the fin between two oil pipes, and wherein oil pipe need cut off the long tube according to actual size in the radiator production process, and the length dimension of long tube is generally longer, consequently to the oil pipe material loading operation ubiquitous difficulty of cutting machine, and the mode that adopts artifical transport and crane to transport at present mostly carries out the material loading, has to take a lot of work and time, and production efficiency is low, the drawback that labour and manufacturing cost are high.

In view of the above circumstances, there is a need to design a radiator oil pipe cutting and feeding device for an oil-immersed transformer, which has a simple structure and low cost and can feed oil quickly. The applicant has therefore made an advantageous design, in the context of which the solution to be described below is made.

Disclosure of Invention

The utility model aims at providing an oil-immersed transformer's radiator oil pipe cutting loading attachment helps improving the long tube of device and places and the feed structure comes reduction in production cost, is favorable to placing fast of long tube and improves the material loading efficiency to cutting device.

The utility model aims at reaching like this, a radiator oil pipe cutting loading attachment of oil-immersed transformer, including a bottom plate, its characterized in that: the left side of the bottom plate is provided with at least two support columns at intervals along the front-rear direction, one ends of the support columns respectively form a support column upwards, the upper end parts of the support columns respectively and rotatably support a support column pulley, the left side surface of the support columns are respectively provided with an entrainment device, a feeding column is respectively and upwards arranged above the bottom plate at a position corresponding to the support column, the end parts of the feeding column respectively and rotatably support a feeding pulley, the right side of the bottom plate is provided with at least two driving shaft fixing frames at intervals along the front-rear direction, the right side of the bottom plate is also provided with a motor mounting frame, a motor is mounted on the motor mounting frame, a driving shaft is rotatably supported between the driving shaft fixing frames along the front-rear direction, a driven wheel is fixed at a position corresponding to the motor by the driving shaft, and is in transmission connection with the motor, the driving shaft is respectively fixed with a take-up pulley at the position corresponding to the feeding column, the take-up pulleys are respectively provided with a feeding belt, one end of the feeding belt is fixedly connected with the take-up pulley, and the other end of the feeding belt is fixedly connected with the corresponding clamping belt device downwards after passing around the corresponding feeding pulley and the pillar pulley from the upper part.

In a specific embodiment of the present invention, the upper end of the pillar is formed with a pair of pillar rotating grooves, the pillar pulley is rotatably supported in the pillar rotating grooves by a pillar pulley shaft at the front and rear sides, and a pillar rotating groove cover plate is respectively provided above the pillar rotating grooves.

In another specific embodiment of the present invention, the left and right sides of the lower end of the pillar are respectively provided with a reinforcing plate connected to the pillar frame.

In another specific embodiment of the present invention, the upper end of the loading column is formed with a pair of loading column rotary grooves, the loading pulley is rotatably supported in the loading column rotary grooves by a loading pulley shaft at the front and rear sides, and a loading column rotary groove cover plate is respectively covered above the loading column rotary grooves.

In another specific embodiment of the present invention, the motor is connected with a worm gear reducer, the worm gear reducer is provided with an output shaft, the output shaft is fixed with an active wheel, and the active wheel is connected with a driven wheel through a chain.

In yet another specific embodiment of the present invention, a bearing seat is fixed to each of the drive shaft holders, and the drive shaft is rotatably supported by the bearing seats.

The utility model adopts the above structure after, beneficial effect who has: the three rollers are adopted to drive the feeding belt to form a structure with a gradient so that the long pipe rolls into the cutting platform, so that the feeding structure is effectively simplified, the cost is saved, the stacked long pipes can be fed, and the feeding efficiency is high.

Drawings

Fig. 1 is a schematic side view of an embodiment of the present invention.

Fig. 2 is a top view of the embodiment of fig. 1.

In the figure: 1. the automatic feeding device comprises a base plate, 11, a strut frame, 111, a strut, 1111, a strut rotating groove, 1112, a strut rotating groove cover plate, 112, a strut pulley, 1121, a strut pulley shaft, 113, an entrainment device, 114, a reinforcing plate, 12, a feeding column, 121, a feeding pulley, 1211, a feeding pulley shaft, 122, a feeding column rotating groove, 123, a feeding column rotating groove cover plate, 13, a motor mounting frame, 14, a driving shaft fixing frame, 15, a motor, 151, a worm gear reducer, 152, an output shaft, 153, a driving wheel, 154, a chain, 16, a driving shaft, 161, a take-up pulley, 162, a driven wheel and 163, a bearing seat; 2. feeding a material belt; 3. a cutting platform, 31 a conveyor belt; 4. a long tube.

Detailed Description

The following is a detailed description by way of example, but the description of the example is not intended to limit the scope of the present invention, and any equivalent changes made according to the present invention, which are merely formal and insubstantial, should be considered as technical solutions of the present invention.

In the following description, all the concepts related to the directions or orientations of up, down, left, right, front and rear are based on the position shown in fig. 1, and thus, should not be interpreted as a specific limitation to the technical solution provided by the present invention.

Referring to fig. 1, the present invention relates to a radiator oil tube cutting and feeding device for an oil-immersed transformer, including a bottom plate 1, at least two support posts 11 are disposed on the left side of the bottom plate 1 at intervals along the front-rear direction, in this embodiment, the number of the support posts 11 indicates two, one end of each support post 11 is upward formed with a support post 111, the upper end of each support post 111 is rotatably supported with a support post pulley 112, the left side of each support post 111 is provided with an entrainment device 113, a feeding post 12 is upward disposed above the bottom plate 1 at a position corresponding to the support post 111, the end of each feeding post 12 is rotatably supported with a feeding pulley 121, the right side of the bottom plate 1 is provided with at least two driving shaft fixing frames 14 at intervals along the front-rear direction, in this embodiment, the number of the driving shaft fixing frames 14 indicates two, a motor mounting frame 13 is further disposed on the right side of the bottom plate 1, a motor 15 is mounted on the motor mounting frame 13, a driving shaft 16 is rotatably supported between the driving shaft mounting frames 14 along the front-back direction, a driven wheel 162 is fixed on the driving shaft 16 at a position corresponding to the motor 15, the driven wheel 162 is in transmission connection with the motor 15, a take-up pulley 161 is respectively fixed on the driving shaft 16 at a position corresponding to the feeding column 12, a feeding belt 2 is respectively disposed on the take-up pulleys 161, one end of the feeding belt 2 is fixedly connected with the take-up pulley 161, and the other end of the feeding belt 2 is fixedly connected with the corresponding entrainment device 113 downward after passing over the corresponding feeding pulley 121 and the corresponding support column pulley 112 from above.

Further, a pair of strut rotation grooves 1111 are formed at the upper end of the strut 111, the strut pulley 112 is rotatably supported in the strut rotation grooves 1111 by a strut pulley shaft 1121 at both front and rear sides, and a strut rotation groove cover plate 1112 is provided above the strut rotation grooves 1111, respectively.

Further, a reinforcing plate 114 connected to the pillar frame 11 is provided on each of the left and right sides of the lower end of the pillar 111.

Further, a pair of charging column rotary grooves 122 are formed at the upper end of the charging column 12, the charging pulley 121 is rotatably supported in the charging column rotary grooves 122 by a charging pulley shaft 1211 disposed at the front and rear sides, and a charging column rotary groove cover plate 123 is respectively disposed above the charging column rotary grooves 122.

Further, a worm gear reducer 151 is connected to the motor 15, an output shaft 152 is provided on the worm gear reducer 151, a driving wheel 153 is fixed on the output shaft 152, and the driving wheel 153 is in transmission connection with a driven wheel 162 through a chain 154.

Further, a bearing block 163 is fixed to each of the drive shaft holders 14, and the drive shaft 16 is rotatably supported by the bearing block 163.

Referring to fig. 1, when the conveyor belt 31 on the cutting platform 3 needs to be loaded, the long tube 4 is stacked on the feeding belt 2 between the pillar 111 and the feeding column 12, then the motor 15 is driven to operate, the motor 15 drives the worm gear reducer 151 and the output shaft 152 to rotate, the driving wheel 153 drives the driven wheel 162 and the driving shaft 16 to rotate, the take-up pulley 161 rotates to tighten the feeding belt 2, the long tube is driven to move upwards along with the tightening of the feeding belt 2 and rolls into the conveyor belt 31 of the cutting platform 3 along the slope of the feeding belt 2, so as to realize quick and effective loading, the automation efficiency is high, the labor and the time are saved, and the cost is reduced.

Claims (6)

1. The utility model provides a radiator oil pipe cutting loading attachment of oil-immersed transformer, includes a bottom plate (1), its characterized in that: the left side of the bottom plate (1) is provided with at least two support column frames (11) at intervals along the front-rear direction, one end of each support column frame (11) is upwards formed to be provided with a support column (111), the upper end part of each support column (111) is rotatably supported with a support column pulley (112), the left side surface of each support column (111) is provided with an entrainment device (113), the upper part of the bottom plate (1) is respectively upwards provided with a feeding column (12) at the position corresponding to the support column (111), the end part of the feeding column (12) is rotatably supported with a feeding pulley (121), the right side of the bottom plate (1) is provided with at least two drive shaft fixing frames (14) at intervals along the front-rear direction, the right side of the bottom plate (1) is also provided with a motor mounting frame (13), a motor (15) is mounted on the motor mounting frame (13), and a drive shaft (16) is rotatably supported between the drive shaft fixing frames (14) along the front-rear direction, the driving shaft (16) is fixedly provided with a driven wheel (162) at a position corresponding to the motor (15), the driven wheel (162) is in transmission connection with the motor (15), the driving shaft (16) is respectively fixedly provided with a take-up pulley (161) at a position corresponding to the feeding column (12), the take-up pulleys (161) are respectively provided with a feeding belt (2), one end of the feeding belt (2) is fixedly connected with the take-up pulley (161), and the other end of the feeding belt passes through the corresponding feeding pulley (121) and the support pulley (112) from the upper part and then is fixedly connected with the corresponding entrainment device (113) downwards.

2. The oil-immersed transformer radiator pipe cutting and feeding device according to claim 1, wherein a pair of strut rotation grooves (1111) are formed at the upper end of the strut (111), the strut pulley (112) is rotatably supported in the strut rotation grooves (1111) through a strut pulley shaft (1121) at the front and rear sides, and a strut rotation groove cover plate (1112) is respectively covered above the strut rotation grooves (1111).

3. The oil-filled transformer radiator pipe cutting and feeding device according to claim 1, wherein the left and right sides of the lower end of the pillar (111) are respectively provided with a reinforcing plate (114) connected with the pillar frame (11).

4. The oil-immersed transformer radiator oil pipe cutting and feeding device according to claim 1, wherein a pair of feeding column rotating grooves (122) are formed at the upper end of the feeding column (12), the feeding pulley (121) is rotatably supported in the feeding column rotating grooves (122) through a feeding pulley shaft (1211) at the front side and the rear side, and a feeding column rotating groove cover plate (123) is respectively covered above the feeding column rotating grooves (122).

5. The oil-immersed transformer radiator oil pipe cutting and feeding device according to claim 1, wherein the motor (15) is connected with a worm gear reducer (151), the worm gear reducer (151) is provided with an output shaft (152), the output shaft (152) is fixed with a driving wheel (153), and the driving wheel (153) is in transmission connection with a driven wheel (162) through a chain (154).

6. The oil-filled transformer radiator pipe cutting and feeding device according to claim 1, wherein a bearing seat (163) is fixed on each drive shaft fixing frame (14), and the drive shaft (16) is rotatably supported on the bearing seats (163).

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