CN216111563U - Siphon type oil cooler - Google Patents

Abstract

The utility model relates to the field of oil cooling devices, in particular to a siphon type oil cooler. This hydrocone type oil cooler can carry out the jet cooling work through siphon principle with treating cooling fluid, reduces the pressure effect in the fluid conveying when increasing area of contact. The main function realization part of the siphon oil cooler is provided with a tank structure, an oil injection structure and a cooling structure. Wherein oil spout structure and cooling structure all set up on the tank structure, and oil spout structure and cooling structure all with tank structure fixed connection. The tank body structure mainly provides a working environment for oil cooling work of the device, oil and cooling liquid can be conveyed, and other working structures of the device are arranged on the basis of the tank body structure; the oil injection structure can inject oil into the tank structure according to different height positions by a siphon principle to perform corresponding cooling work; the cooling structure can carry out the cooling work of contact heat dissipation to the fluid in the tank structure.

Description

Siphon type oil cooler

Technical Field

The utility model relates to the field of oil cooling devices, in particular to a siphon type oil cooler.

Background

An oil cooler is an oil cooling apparatus commonly used in hydraulic systems and lubrication systems. The device can realize heat exchange between two fluid media with certain temperature difference, thereby achieving the purposes of reducing the oil temperature and ensuring the normal operation of the system, for example, a hydraulic system and a lubricating system are important components of various mechanical devices, wherein the hydraulic system needs to continuously maintain high pressure during operation to generate a large amount of heat, the oil temperature rises after long-time operation, if the heat is not timely dissipated, the sealing elements of the system are aged and damaged, the viscosity of the oil becomes lower along with the rise of the oil temperature, the oil pressure does not meet the requirements of the operation, in order to ensure the safe and reliable operation of a unit, the oil temperature must be controlled within a specified range, the main reason for the rise of the oil temperature of the lubricating system is different from that of the hydraulic system, but the oil temperature also needs to be controlled within the specified range, so an oil cooler needs to be adopted to carry out corresponding cooling operation, however, the general oil cooler cannot perform the oil jet cooling operation having a large cooling contact area.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a siphon type oil cooler which can spray and cool oil to be cooled by a siphon principle.

The purpose of the utility model is realized by the following technical scheme:

the main function realization part of the siphon oil cooler is provided with a tank structure, an oil injection structure and a cooling structure. Wherein oil spout structure and cooling structure all set up on the tank structure, and oil spout structure and cooling structure all with tank structure fixed connection.

The tank structure of the siphon oil cooler mainly comprises an upper cover body, an oil inlet pipe, a device tank body, a device base, a water inlet and a water outlet. Wherein the oil inlet pipe is arranged on the upper cover body, and the upper cover body is fixedly connected with the oil inlet pipe. The device tank body is arranged below the upper cover body and is fixedly connected with the upper cover body. The device base is arranged below the device tank body and is fixedly connected with the device tank body. The water inlet is fixedly arranged on one side of the device base, and the water outlet is fixedly arranged on the other side of the device base.

This hydrocone type oil cooler's oil spout structure can carry out corresponding cooling work through siphon principle with fluid according to the position blowout of co-altitude not to tank structure in. The oil injection structure mainly comprises a vertical oil pipe, an annular pipe and an oil injection port. Wherein vertical oil pipe is provided with two, and two vertical oil pipes all set up on the device base, and two vertical oil pipes all with device base fixed connection. The annular tube is provided with five, and five annular tubes all set up in the middle of two vertical oil pipe, every annular tube all with two vertical oil pipe fixed connection, the oil spout is provided with five, and five oil spouts set up respectively on five annular tubes, oil spout of fixedly connected with on every annular tube.

This hydrocone type oil cooler's cooling structure can carry out the radiating cooling work of contact to the fluid in the tank structure. The cooling structure mainly comprises a cooling plate, a connecting rod and a water supply pipe. Wherein the water supply pipe is provided with two, and two water supply pipes all set up on the device base, and two water supply pipes all are connected with device base fixed connection. The connecting rod is provided with five, and five connecting rods set up respectively on two flow pipe, three connecting rods of fixedly connected with on the flow pipe, two connecting rods of fixedly connected with on another flow pipe. The cooling plate is provided with five, and five cooling plates set up on five connecting rods, and equal fixedly connected with connecting rod on every cooling plate, five cooling plates set up respectively on two flow pipe, three cooling plate of fixedly connected with on the flow pipe, two cooling plates of fixedly connected with on another flow pipe.

Drawings

The utility model is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 shows schematically in perspective an assembly view of the utility model;

FIG. 2 schematically illustrates a decapper view of the present invention in perspective view;

FIG. 3 schematically illustrates a can body structure of the present invention in a perspective view;

FIG. 4 shows schematically in perspective view a device base of the utility model;

FIG. 5 shows schematically in a perspective view an oil injection structure according to the utility model;

FIG. 6 schematically illustrates in perspective view a cooling structure of the present invention;

fig. 7 shows schematically in perspective view the internal structure of the device of the utility model.

In the figure: a tank structure 11; a fuel injection structure 12; a cooling structure 13; an upper cover body 21; an oil inlet pipe 22; an apparatus tank 23; a device base 24; a water inlet 25; a water outlet 26; a vertical oil pipe 31; an annular tube 32; an oil jet 33; a cooling plate 41; a connecting rod 42; a water supply pipe 43.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

A siphon-type oil cooler according to the present invention, embodiments of which are shown in conjunction with fig. 1 to 7, wherein it can be seen that:

this hydrocone type oil cooler can carry out the jet cooling work through siphon principle with treating cooling fluid, reduces the pressure effect in the fluid conveying when increasing area of contact. The main function realization part of the siphon oil cooler is provided with a tank structure 11, an oil injection structure 12 and a cooling structure 13. Wherein oil spout structure 12 and cooling structure 13 all set up on tank structure 11, and oil spout structure 12 and cooling structure 13 all with tank structure 11 fixed connection. The tank structure 11 mainly provides a working environment for oil cooling work of the device, oil and cooling liquid can be conveyed, and other working structures of the device are arranged on the basis of the tank structure 11; the oil injection structure 12 can inject oil into the tank structure 11 according to different height positions by a siphon principle to perform corresponding cooling work; the cooling structure 13 can perform a cooling operation of contact heat dissipation on the oil in the tank structure 11.

The tank structure 11 of the siphon oil cooler mainly comprises an upper cover body 21, an oil inlet pipe 22, a device tank body 23, a device base 24, a water inlet 25 and a water outlet 26. Wherein, the oil inlet pipe 22 is arranged on the upper cover body 21, and the upper cover body 21 is fixedly connected with the oil inlet pipe 22. The device tank 23 is arranged below the upper cover 21, and the device tank 23 is fixedly connected with the upper cover 21. The device base 24 is arranged below the device tank 23, and the device base 24 is fixedly connected with the device tank 23. The water inlet 25 is fixedly arranged at one side of the device base 24, and the water outlet 26 is fixedly arranged at the other side of the device base 24. Go up lid 21 and advance oil pipe 22 and link to each other, take refrigerated fluid to lead to this device in through advancing oil pipe 22, go up lid 21 and can carry out reposition of redundant personnel work to fluid for two strands of fluid enter into two vertical oil pipe 31 in oil spout structure 12 respectively. The device tank body 23 is a main body bearing structure of the device, the device base 24 can support all the weight of the working structure of the device, the middle position of the upper surface of the device base 24 is communicated with the inner space of the device tank body 23, a collecting port is arranged in the middle of the device base 24, and oil liquid after the cooling work is finished flows out of the device through the collecting port in a centralized mode. The water inlet 25 and the water outlet 26 arranged on the base 24 of the device can be responsible for supplying and discharging cooling water in the device.

This hydrocone type oil cooler's oil spout structure 12 can carry out corresponding cooling work through siphon principle with fluid according to the position blowout of different heights to tank structure 11 in. The oil injection structure 12 mainly includes a vertical oil pipe 31, an annular pipe 32, and an oil injection port 33. Wherein vertical oil pipe 31 is provided with two, and two vertical oil pipe 31 all set up on device base 24, and two vertical oil pipe 31 all with device base 24 fixed connection. The annular pipe 32 is provided with five, and five annular pipes 32 all set up in the middle of two vertical oil pipe 31, and every annular pipe 32 all with two vertical oil pipe 33 fixed connection, oil spout 33 are provided with five, and five oil spout 33 set up respectively on five annular pipes 32, oil spout 33 of fixedly connected with on every annular pipe 32. The vertical oil pipe 31 and the annular pipe 32 should be ensured to be filled with oil all the time, wherein the vertical oil pipe 31, the annular pipe 32, the oil inlet pipe 22 and a front device for storing the oil form a siphon structure, so that the oil in the front device is extracted into the device tank 23 and is sprayed out through the oil nozzle 33. Be provided with a plurality of openings on nozzle 33, can make fluid disperse the blowout, effectively increase fluid and device internal environment's area of contact for cooling efficiency is better.

The cooling structure 13 of the siphon oil cooler can cool the oil in the tank structure 11 by contact heat dissipation. The cooling structure 13 mainly includes a cooling plate 41, a connecting rod 42, and a water feed pipe 43. Wherein the water supply pipe 43 is provided with two, and two water supply pipes 43 all set up on device base 24, and two water supply pipes 43 all with device base 24 fixed connection. The connecting rods 42 are provided with five connecting rods 42, the five connecting rods 42 are respectively arranged on the two water feeding pipes 43, one water feeding pipe 43 is fixedly connected with three connecting rods 42, and the other water feeding pipe 43 is fixedly connected with two connecting rods 42. The cooling plates 41 are provided with five cooling plates 41, the five cooling plates 41 are arranged on five connecting rods 42, each cooling plate 41 is fixedly connected with one connecting rod 42, the five cooling plates 41 are respectively arranged on two water supply pipes 43, one water supply pipe 43 is fixedly connected with three cooling plates 41, and the other water supply pipe 43 is fixedly connected with two cooling plates 41. The trend of cooling water in the device is as follows: the cooling water enters the device base 24 from the water inlet 25 and is conveyed to the water supply pipe 43 through the passage in the device base 24, then the water supply pipe 43 on the side can convey the cooling water to the water supply pipe 43 on the other side through the connecting rod 42 and the cooling plate 41, and finally the cooling water is conveyed to the water outlet 26 from the water supply pipe 43 on the other side to leave the device, so that the process is completed. Wherein the area of contact of cooling plate 41 with fluid is great, and the inside cooling water that is full of can be comparatively abundant absorb the heat that exists in the fluid, and the setting of cooling plate 41 straggling relatively can guarantee that fluid can carry out corresponding cooling work in each cooling plate 41 of contact respectively after the blowout for the cooling effect promotes.

This hydrocone type oil cooler can carry out the jet cooling work through siphon principle with treating cooling fluid, reduces the pressure effect in the fluid conveying when increasing area of contact. For general oil cooling device, this device can reduce corresponding transport structure setting to the transport work of fluid, and the cost of cooling work can also be reduced to occuping to workspace in the use of all the other structures such as the compressor of corresponding reduction. In conclusion, the device has the advantages of simple working principle, practical and reliable integral structure, strong flexibility and better cooling effect, and can be put into practical production and use.

Claims (10)

1. A siphon-type oil cooler comprises a tank structure (11), an oil injection structure (12) and a cooling structure (13), and is characterized in that: the oil injection structure (12) and the cooling structure (13) are both arranged on the tank body structure (11).

2. The siphonic oil cooler according to claim 1, wherein: the tank structure (11) comprises an upper cover body (21) and an oil inlet pipe (22), wherein the oil inlet pipe (22) is arranged and communicated with the upper cover body (21).

3. The siphonic oil cooler according to claim 2, wherein: the tank structure (11) further comprises a device tank body (23), and the device tank body (23) is arranged below the upper cover body (21).

4. The siphonic oil cooler according to claim 3, wherein: the tank structure (11) further comprises a device base (24), and the device base (24) is arranged below the device tank (23).

5. The siphonic oil cooler according to claim 4, wherein: the tank structure (11) further comprises a water inlet (25) and a water outlet (26), the water inlet (25) is fixedly arranged on one side of the device base (24), and the water outlet (26) is fixedly arranged on the other side of the device base (24).

6. The siphonic oil cooler according to claim 4, wherein: the oil injection structure (12) comprises two vertical oil pipes (31), and the two vertical oil pipes (31) are arranged on the device base (24).

7. The siphonic oil cooler according to claim 6, wherein: the oil injection structure (12) further comprises annular pipes (32) and oil injection ports (33), the number of the annular pipes (32) is five, the five annular pipes (32) are arranged between the two vertical oil pipes (31), the number of the oil injection ports (33) is five, and the five oil injection ports (33) are respectively arranged on the five annular pipes (32).

8. The siphonic oil cooler according to claim 4, wherein: the cooling structure (13) comprises two water supply pipes (43), and the two water supply pipes (43) are arranged on the device base (24).

9. The siphonic oil cooler according to claim 8, wherein: the cooling structure (13) further comprises five connecting rods (42), and the five connecting rods (42) are respectively arranged on the two water feeding pipes (43).

10. The siphonic oil cooler according to claim 9, wherein: the cooling structure (13) further comprises five cooling plates (41), the five cooling plates (41) are arranged on the five connecting rods (42), and the five cooling plates (41) are respectively arranged on the two water feeding pipes (43).

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