CN220685195U - Steel heat treatment cooling device for pipeline filter - Google Patents

Abstract

The utility model belongs to the technical field of steel cooling technology and specifically relates to a steel heat treatment cooling device for pipeline filter is related to, which comprises an outer shell, the inside water tank that soaks that is equipped with of shell, inside roller frame and the electric telescopic handle of being provided with of water tank, feed inlet and discharge gate have been seted up on the water tank, the shell is encircled and is provided with spiral pipe and spiral pipe intercommunication in the water tank, the shell outside is provided with the refrigerator, be connected with the water pump between the one end of water tank is kept away from to the water inlet end of refrigerator and spiral pipe, the play water end of refrigerator communicates in the water tank, the inside rotary piece that is provided with of spiral pipe, be provided with the transmission shaft on the rotary piece, the transmission shaft rotates and passes through the spiral pipe to inside the water tank, the transmission shaft is provided with rotating vane on the shaft body that the transmission shaft is located the water tank inside. The application has the effect of realizing the even cooling of steel immersed in the water dipping bin.

Description

Steel heat treatment cooling device for pipeline filter

Technical Field

The application relates to the technical field of metal cooling, in particular to a steel heat treatment cooling device for a pipeline filter.

Background

A pipe filter is a device for filtering gas or liquid inside a pipe, which is connected to the pipe, and is generally made of steel, and is subjected to a heat treatment process during the manufacturing process to improve the service performance of the filter.

The Chinese patent with the bulletin number of CN216039678U discloses a rapid cooling device for heat treatment processing of steel, which comprises a housing, wherein a water soaking bin, a spraying bin and a heat dissipation bin are sequentially arranged inside the housing, a steel inlet and a steel outlet are formed in the housing, and a rolling shaft frame for placing steel and an electric telescopic rod for lifting the rolling shaft frame are arranged inside the water soaking bin.

In the using process of the cooling device, as the cooling water in the soaking bin possibly does not flow, the water temperatures at different positions in the soaking bin are different, so that the problem of uneven cooling of steel in the cooling process of the soaking bin possibly occurs, and the defect exists.

Disclosure of Invention

In order to solve the problem that the cooling is uneven in the cooling process, the application provides a steel heat treatment cooling device for a pipeline filter.

The application provides a steel heat treatment cooling device for pipeline filter adopts following technical scheme:

the utility model provides a steel heat treatment cooling device for pipeline filter, includes the shell, the inside water tank that is equipped with of shell, inside roller frame and the electric telescopic handle of being provided with of water tank, feed inlet and discharge gate have been seted up on the water tank, the shell is encircled outward and is provided with spiral pipe and spiral pipe intercommunication in the water tank, the shell is provided with the refrigerator outward, be connected with the water pump between the one end that water tank was kept away from to the water inlet end of refrigerator and spiral pipe, the play water end intercommunication of refrigerator in the water tank, the inside rotary piece that is provided with of spiral pipe, be provided with the transmission shaft on the rotary piece, the transmission shaft rotates out spiral pipe to the inside water tank, the transmission shaft is provided with rotating vane on the shaft body that the inside water tank was located.

By adopting the technical scheme, the temperatures of the cooling water in the soaking bin are equal, and the uniformity of the whole cooling of the steel can be improved.

Optionally, a plurality of radiating fins are arranged on the outer side wall of the spiral tube.

Through adopting above-mentioned technical scheme, radiating fin has increased the area of contact of heat with external world, is favorable to improving the radiating effect in the cooling water flow process.

Optionally, a plurality of cooling fins are circumferentially arranged on the shaft body of the transmission shaft outside the shell.

Through adopting above-mentioned technical scheme, the transmission shaft drives cooling fin and rotates for the velocity of flow of shell surrounding air, and then improves the radiating effect of cooling water in the soaking bin.

Optionally, a water outlet net pipe is arranged in the water soaking bin at a position below the rolling shaft frame, water outlet holes are densely distributed on the water outlet net pipe, and the water outlet net pipe is communicated with a water outlet end of the refrigerator.

By adopting the technical scheme, the water outlet net pipe injects the low-temperature cooling water cooled by the refrigerator to the bottom of the soaking bin through the water outlet hole, so that the low-temperature cooling water can be more uniformly dispersed into the soaking bin.

Optionally, a liquid level sensor and an alarm are arranged on the water dipping bin, and the liquid level sensor and the alarm are electrically connected to the control system.

Through adopting above-mentioned technical scheme, because cooling water absorbs heat and evaporates, lead to the water yield of cooling water in the flooding storehouse to reduce gradually, when the liquid level of cooling water in the flooding storehouse is less than level sensor, control system sends the alarm through the alarm to this reminds the workman in time to the flooding storehouse supplementary cooling water.

Optionally, a water supplementing pipe is communicated with the water soaking bin.

Through adopting above-mentioned technical scheme, when cooling water is not enough in the soaking storehouse, the cooling water pours into the soaking storehouse through moisturizing pipe to satisfy normal cooling needs.

Optionally, a temperature sensor electrically connected to the control system is arranged on the water immersion bin.

Through adopting above-mentioned technical scheme, temperature sensor can carry out the temperature measurement to the inside water of different positions of soaking storehouse, makes things convenient for the refrigerator to control the inside refrigerated temperature of soaking storehouse within suitable range to improve the cooling effect to the steel.

Optionally, a separation net is arranged in the soaking bin at a position between the relative rolling shaft frame and the rotary piece.

Through adopting above-mentioned technical scheme, the separation net plays the separation effect to roller frame and rotating vane, has reduced the steel submergence in the in-process of cooling water, and the steel touches the possibility of touching rotating vane.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the cooling water drives the rotary blade to rotate in the process of flowing in the spiral pipe, and the rotary blade drives the rotary blade to rotate through the transmission shaft, so that the rotary blade can stir the cooling water in the water soaking bin, and the rotary blade drives the water in the water soaking bin to flow, and the uniform cooling effect on steel is improved;

2. the water outlet net pipe injects the low-temperature cooling water cooled by the refrigerator to the bottom of the soaking bin through the water outlet hole, so that the low-temperature cooling water can be more uniformly dispersed into the soaking bin.

Drawings

Fig. 1 is a schematic structural view of an embodiment of the present application.

Fig. 2 is a cross-sectional view of the positional relationship among the housing, the partition net and the outlet net pipe in the embodiment of the present application.

Fig. 3 is a cross-sectional view of the positional relationship among the spiral pipe, the heat radiating fins, and the rotary plate in the embodiment of the present application.

Reference numerals illustrate: 1. a housing; 2. a water immersing bin; 3. a roller frame; 4. an electric telescopic rod; 5. a feed inlet; 6. a discharge port; 7. a spiral tube; 8. a heat radiation fin; 9. a refrigerating machine; 10. a water pump; 11. a rotary piece; 12. a transmission shaft; 13. rotating the blades; 14. a heat radiation blade; 15. a water outlet network pipe; 16. a liquid level sensor; 17. an alarm; 18. a water supplementing pipe; 19. a temperature sensor; 20. a separation net; 21. a water outlet hole; 22. a convex cap.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-3.

The embodiment of the application discloses a steel heat treatment cooling device for a pipeline filter.

Referring to fig. 1 and 2, a steel heat treatment cooling device for a pipeline filter comprises a shell 1, wherein a water soaking bin 2, a spraying bin and a heat dissipation bin are sequentially arranged inside the shell 1, a rolling shaft frame 3 and an electric telescopic rod 4 are arranged inside the water soaking bin 2, the electric telescopic rod 4 is welded at the bottom of water soaking, and the rolling shaft frame 3 is welded on a telescopic rod of the electric telescopic rod 4.

The water soaking bin 2 is provided with a feed inlet 5 and a discharge outlet 6, the top of the water soaking bin 2 is provided with a vent pipe for discharging steam, the top of the spraying bin is welded with a water storage tank, and the water storage tank is communicated with a water injection pipe.

Referring to fig. 1, 2 and 3, the outer ring of the shell 1 is provided with a spiral pipe 7, a plurality of supporting rods are welded between the spiral pipe 7 and the outer wall of the shell 1, the water inlet end of the spiral pipe 7 is communicated with the water immersing bin 2, a refrigerator 9 is placed outside the shell 1, a water pump 10 is communicated between the water inlet end of the refrigerator 9 and the water outlet end of the spiral pipe 7, the water outlet end of the refrigerator 9 is communicated with the water immersing bin 2, a plurality of convex caps 22 are welded on the spiral pipe 7 along the direction of the spiral line of the convex caps 22, the convex caps 22 are hollow and are communicated with the spiral pipe 7, a rotary plate 11 is arranged inside each convex cap 22, the rotary plate 11 extends into the spiral pipe 7, a transmission shaft 12 is welded on each rotary plate 11, and the axis of the transmission shaft 12 is positioned at the junction of the convex cap 22 and the spiral pipe 7.

The transmission shaft 12 rotates and passes through the spiral pipe 7 to the inside of the water soaking bin 2, the transmission shaft 12 is positioned on the shaft body in the water soaking bin 2 and is welded with the rotary blades 13, the rotary blades 11 are driven to rotate by the cooling water in the process of flowing in the spiral pipe 7, the rotary blades 11 drive the rotary blades 13 to rotate through the transmission shaft 12, and then the rotary blades 13 stir the cooling water in the water soaking bin 2, so that the temperature of the cooling water at different positions in the water soaking bin 2 is in a proper temperature range, and the uniformity effect of the whole cooling of steel is improved.

Referring to fig. 2, the inner bottom of the water immersion bin 2 is tiled with a water outlet net pipe 15, water outlet holes 21 are densely distributed on the water outlet net pipe 15, the water outlet holes 21 are opened towards the roller frame 3, and the water outlet net pipe 15 is communicated with the water outlet end of the refrigerator 9, so that the low-temperature cooling water after being cooled by the refrigerator 9 can be more uniformly dispersed into the water immersion bin 2.

A separation net 20 is arranged between the rolling shaft frame 3 and the rotary blades 13, a connecting rod is welded between the separation net 20 and the inner side wall of the water soaking bin 2, the separation net 20 is positioned above the water outlet net pipe 15 and below the discharge port 6, and the possibility that steel placed on the rolling shaft frame 3 touches the rotary blades 13 when immersed in cooling water is reduced.

Referring to fig. 1 and 3, a plurality of heat radiating fins 8 are welded on the outer side wall of the spiral tube 7, the heat radiating fins 8 increase the contact area between the heat inside the spiral tube 7 and the outside, the heat radiating effect of the spiral tube 7 is improved, and then the heat radiating effect of cooling water in the flowing process is improved.

The transmission shaft 12 is located a plurality of cooling blades 14 of circumferential welding on the shaft body outside shell 1, and the flow of cooling water drives rotary piece 11 rotation, and rotary piece 11 passes through transmission shaft 12 and drives cooling blade 14 rotation, and rotatory cooling blade 14 has accelerated the air velocity of flow around shell 1 to the radiating effect of cooling water in the flooding storehouse 2 has been improved.

Referring to fig. 2, the inner side wall of the soaking bin 2 is provided with a liquid level sensor 16 in a threaded manner, the liquid level sensor 16 is higher than the communication position between the spiral pipe 7 and the soaking bin 2, the top of the soaking bin 2 is connected with an alarm 17 in a threaded manner, and the liquid level sensor 16 and the alarm 17 are electrically connected to a control system.

When the liquid level sensor 16 is higher than the liquid level of the cooling water in the soaking bin 2, the alarm 17 gives an alarm under the control of the control system, so that workers are reminded to timely supplement the cooling water to the soaking bin 2.

The water supplementing pipe 18 is communicated with the water soaking bin 2, and when the worker hears the alarm 17 to alarm, the worker supplements cooling water for the water soaking bin 2 through the water supplementing pipe 18 so as to meet the normal cooling requirement of steel.

Referring to fig. 2, a plurality of temperature sensors 19 are connected to the inner side wall of the soaking bin 2 in a threaded manner, the plurality of temperature sensors 19 are distributed at different water levels of the soaking bin 2, and the refrigerating effect on steel is improved by detecting the temperature of cooling water at different positions of the soaking bin 2, so that the refrigerating machine 9 can conveniently adjust the refrigerating temperature of the cooling water.

The implementation principle of the steel heat treatment cooling device for the pipeline filter is as follows: the water pump 10 draws the cooling water in the soaking bin 2 into the spiral pipe 7, the cooling water drives the rotary blade 11 to rotate in the flowing process of the spiral pipe 7, the rotary blade 11 drives the radiating blade 14 and the rotary blade 13 to rotate through the transmission shaft 12, the rotary blade 13 can stir the cooling water in the soaking bin 2, the rotary blade 13 drives the water in the water inlet bin to flow, the cooling water flows into the refrigerator 9 from the spiral pipe 7, the refrigerator 9 cools the cooling water in a cooling mode, the cooled cooling water is injected into the soaking bin 2 through the densely distributed water outlet holes 21 on the water outlet net pipe 15, the circulating flow of the cooling water is achieved, and the even cooling effect of steel heat treatment is improved.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. The utility model provides a steel heat treatment cooling device for pipeline filter, includes shell (1), the inside water dipping bin (2) that is equipped with of shell (1), water dipping bin (2) inside is provided with spin stand (3) and electric telescopic handle (4), feed inlet (5) and discharge gate (6), its characterized in that have been seted up on water dipping bin (2): the utility model discloses a water pump, including shell (1), spiral pipe (7) and spiral pipe (7) are located outside shell (1), shell (1) is located outside spiral pipe (7) and is provided with refrigerator (9), be connected with water pump (10) between the one end that soaking storehouse (2) was kept away from to refrigerator (9) and spiral pipe (7), the play water end of refrigerator (9) is located soaking storehouse (2), spiral pipe (7) inside is provided with rotary piece (11), be provided with transmission shaft (12) on rotary piece (11), transmission shaft (12) rotate and pass through spiral pipe (7) to inside soaking storehouse (2), transmission shaft (12) are located inside pedestal of soaking storehouse (2) and are provided with rotary vane (13).

2. A steel heat treatment cooling device for a pipe filter according to claim 1, characterized in that: the outer side wall of the spiral tube (7) is provided with a plurality of radiating fins (8).

3. A steel heat treatment cooling device for a pipe filter according to claim 1, characterized in that: the transmission shaft (12) is circumferentially provided with a plurality of radiating blades (14) on the shaft body outside the shell (1).

4. A steel heat treatment cooling device for a pipe filter according to claim 1, characterized in that: the water outlet net pipe (15) is arranged at the lower part of the water soaking bin (2) relative to the rolling shaft frame (3), water outlet holes (21) are densely distributed on the water outlet net pipe (15), and the water outlet net pipe (15) is communicated with the water outlet end of the refrigerator (9).

5. A steel heat treatment cooling device for a pipe filter according to claim 1, characterized in that: the water immersing bin (2) is provided with a liquid level sensor (16) and an alarm (17), and the liquid level sensor (16) and the alarm (17) are electrically connected to a control system.

6. A steel heat treatment cooling device for a pipe filter according to claim 1, characterized in that: the water-immersed bin (2) is communicated with a water supplementing pipe (18).

7. A steel heat treatment cooling device for a pipe filter according to claim 1, characterized in that: the soaking bin (2) is provided with a temperature sensor (19) electrically connected with the control system.

8. A steel heat treatment cooling device for a pipe filter according to claim 1, characterized in that: a separation net (20) is arranged in the soaking bin (2) at a position between the relative rolling shaft frame (3) and the rotary blades (13).