CN210569343U - Energy-saving cooling device for production of hydraulic oil pipe - Google Patents

Abstract

An energy-saving cooling device for hydraulic oil pipe production effectively solves the problem of cooling in the production process of hydraulic oil pipes; the device comprises a stand column, wherein a sleeve is rotatably arranged at the upper end of the stand column, four material frames uniformly extend out of the sleeve and are connected with the stand column through a connecting device, the sleeve rotates to drive the material frames to rotate around the stand column and move up and down, a cooling pool is arranged at the position of the lowest point of the material frames and is connected with a reservoir, a temperature difference engine is arranged between the cooling pool and the reservoir, and the temperature difference engine is electrically connected with a motor for controlling the sleeve to rotate; the utility model discloses the structure is ingenious, and the operation of blowing and unloading is made things convenient for in rotary type material frame design, and the cooling can be incessant goes on, and the heat that volatilizees during the cooling can utilize the energy saving.

Description

Energy-saving cooling device for production of hydraulic oil pipe

Technical Field

The utility model relates to a hydraulic pressure oil pipe production facility technical field especially relates to an energy-conserving cooling device of hydraulic pressure oil pipe production.

Background

In the production process of the hydraulic oil pipe, the oil pipe needs to be heated and cooled after being heated due to process requirements, and the existing equipment does not have a good device for cooling the hydraulic oil pipe.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming the defect of prior art, the utility model aims at providing an energy-conserving cooling device of hydraulic oil pipe production, the effectual refrigerated problem in hydraulic oil pipe production process of having solved.

The technical scheme of its solution problem is, an energy-conserving cooling device of hydraulic oil pipe production, including the stand, the stand upper end is rotated and is equipped with the sleeve, and the sleeve evenly stretches out outward has four material frames, and the material frame is connected with the stand through connecting device, and the sleeve rotates and drives the material frame and rotate and reciprocate at the stand circumference, and the material frame is located minimum position department and is equipped with the cooling tank, and the cooling tank is connected with the cistern, is equipped with the temperature difference engine between cooling tank and the cistern, and the temperature difference engine electricity is connected with control sleeve pivoted motor.

The utility model discloses the structure is ingenious, and the operation of blowing and unloading is made things convenient for in rotary type material frame design, and the cooling can be incessant goes on, and the heat that volatilizees during the cooling can utilize the energy saving.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a schematic front view of the present invention.

Fig. 3 is a schematic view of the connection structure of the feeding side material frame and the upright post of the utility model.

Fig. 4 is a schematic view of the connection structure of the cooling side material frame and the upright post of the present invention.

Fig. 5 is an expanded schematic view of the groove on the center pillar of the present invention.

Detailed Description

The following describes the embodiments of the present invention in further detail with reference to fig. 1 to 5.

It can be known from fig. 1 to 5 that, an energy-conserving cooling device of hydraulic oil pipe production, including stand 1, 1 upper end of stand rotates and is equipped with sleeve 2, sleeve 2 evenly stretches out outward and has four material frames 3, material frame 3 is connected with stand 1 through connecting device, sleeve 2 rotates and drives material frame 3 and just reciprocates at the circumference of stand 1, material frame 3 is located minimum position department and is equipped with cooling tank 4, cooling tank 4 is connected with cistern 5, be equipped with thermoelectric generator 76 between cooling tank 4 and the cistern 5, thermoelectric generator 76 electricity is connected with control sleeve 2 pivoted motor 7.

The connecting device comprises two first connecting rods 8 which are parallel and the end parts of which are hinged with the material frame 3, wherein the end parts of the first connecting rods 8 are hinged with second connecting rods 9, the end parts of the second connecting rods 9 are fixed on a sliding block 10, a groove 11 is formed in the circumference of the upright post 1, and the sliding block 10 is in sliding connection in the groove 11.

The upper end of the sleeve 2 is fixed with a telescopic rod 12, the end part of the telescopic rod 12 is fixed with a third connecting rod 13 in the vertical direction, and the third connecting rod 13 is hinged with the middle section of the first connecting rod 8.

The groove 11 on the side of the cooling bath 4 has an upward bend.

A sealing cover 14 is fixed above the material frame 3.

The material frame 3 is woven by a steel wire mesh.

When the utility model is used, the utility model,

starting the device, placing a hydraulic oil pipe to be cooled in a higher material frame 3, rotating a motor 7 to drive a sleeve 2 to rotate, driving a connecting device and the material frame 3 to rotate by the sleeve 2, sliding a sliding block 10 in a groove 11 on an upright post 1, when the sliding block 10 rotates to one side of a cooling pool 4, sliding the sliding block 10 upwards to drive a second connecting rod 9 to move upwards, moving the second connecting rod 9 upwards to enable a first connecting rod 8 to rotate under the action of a third connecting rod 13, so that the material frame 3 moves downwards to enter the cooling pool 4, sealing a sealing cover 14 on the material frame 3 through the top of the cooling pool 4, pumping cold water in a water reservoir 5 into the cooling pool 4 through a water pump to cool the hydraulic oil pipe in the material frame 3, heating the cooling water and then returning the cooling water to the water reservoir 5, arranging a temperature difference generator 76 between the water reservoir 5 and the cooling pool 4, wherein the water before and after cooling has a certain temperature difference, this difference in temperature is utilized the electricity generation by thermoelectric generator 76, and electric power storage is in the battery to connect motor 7, for motor 7 provides electric power, after material frame 3 stayed certain time in cooling tank 4, motor 7 rotated 90, turned out the hydraulic pressure oil pipe after will cooling from cooling tank 4, put into cooling tank 4 with the hydraulic pressure oil pipe in the next material frame 3 that needs the cooling again, so on, accomplish the cooling of all hydraulic pressure oil pipes.

The material frame 3 is connected with the sleeve 2 through the connecting device, the first connecting rod 8 and the second connecting rod 9 of the connecting device are of a double-row structure which is arranged in parallel, a parallelogram structure is formed between the first connecting rod 8 and the material frame 3 and the second connecting rod 9 in the rotating process, the level of the material frame 3 is guaranteed, and due to the fact that after the first connecting rod 8 is inclined, the distance between the hinged position of the first connecting rod 8 and the third connecting rod 13 and the sleeve 2 is shortened, the telescopic rod 12 is arranged between the third connecting rod 13 and the sleeve 2, the connecting device can smoothly operate and cannot be clamped.

Connecting device is connected with stand 1 through slider 10, slider 10 slides in the recess 11 on stand 1, recess 11 is around stand 1 a week, and be equipped with ascending bending on one side of cooling bath 4, when slider 10 was in the department of bending, second connecting rod 9 moved up, first connecting rod 8 drives material frame 3 downward sloping under the effect of third connecting rod 13, thereby put into cooling bath 4 with material frame 3 in, the closing cap 14 of material frame 3 top is with cooling bath 4 top seal, make the scattering and disappearing of heat that reduces when the cooling.

Material frame 3 adopts the wire net to work out and forms, when material frame 3 got into cooling tank 4 in, made things convenient for the cooling of cooling water to hydraulic pressure oil pipe, also can not residual water in the material frame 3, the water after the intensification is whole to flow back to supply thermoelectric generator 76 to use.

Compared with the prior art, the utility model, following beneficial effect has: 1) the whole cooling process can be completed by placing the hydraulic oil pipe in the material frame 3 and taking out the cooled hydraulic oil pipe from the material frame 3, and the operation is simple and convenient; 2) the whole structure is in a circumferential rotation type, and the occupied area is reduced compared with other structures; 3) the thermoelectric generator 76 arranged between the cooling pond 4 and the water storage pond 5 can greatly utilize the heat emitted in the cooling process, and the energy waste is reduced.

Claims (6)

1. The utility model provides an energy-conserving cooling device of hydraulic oil pipe production, a serial communication port, including stand (1), stand (1) upper end is rotated and is equipped with sleeve (2), sleeve (2) evenly stretch out outward and have four material frames (3), material frame (3) are connected with stand (1) through connecting device, sleeve (2) are rotated and are driven material frame (3) and rotate and reciprocate at stand (1) circumference, material frame (3) are located minimum position department and are equipped with cooling pond (4), cooling pond (4) are connected with cistern (5), be equipped with the difference in temperature engine between cooling pond (4) and cistern (5), the difference in temperature engine electricity is connected with control sleeve (2) pivoted motor (7).

2. The energy-saving cooling device for producing the hydraulic oil pipe as recited in claim 1, wherein the connecting device comprises two first connecting rods (8) which are parallel and have ends hinged to the material frame (3), the ends of the first connecting rods (8) are hinged to second connecting rods (9), the ends of the second connecting rods (9) are fixed to the sliding blocks (10), grooves (11) are formed in the circumference of the upright column (1), and the sliding blocks (10) are slidably connected in the grooves (11).

3. The energy-saving cooling device for hydraulic oil pipe production according to claim 2, characterized in that an expansion link (12) is fixed at the upper end of the sleeve (2), a third connecting rod (13) in the vertical direction is fixed at the end of the expansion link (12), and the third connecting rod (13) is hinged with the middle section of the first connecting rod (8).

4. The energy-saving cooling device for producing the hydraulic oil pipe as claimed in claim 2, wherein the groove (11) on one side of the cooling pool (4) is bent upwards.

5. The energy-saving cooling device for hydraulic oil pipe production according to claim 1, characterized in that a sealing cover (14) is fixed above the material frame (3).

6. The energy-saving cooling device for hydraulic oil pipe production according to claim 1, wherein the material frame (3) is woven by a steel wire mesh.

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