CN215483249U - Automatic water replenishing control device for cooling water pool - Google Patents

Abstract

The utility model discloses an automatic water supply control device of a cooling water pool, which comprises a main water pool, the auxiliary water tank is arranged underground, the auxiliary water tank is arranged on the side face of the main water tank, a tap water pipeline A is arranged at the edge of the upper end of the main water tank, an electromagnetic valve A is connected to the outlet of the tap water pipeline A, a filtering device is arranged on the inner side of the main water tank, a water level sensor A is arranged on the inner side of the main water tank, a temperature sensor is arranged below the water level sensor A, a tap water pipeline B is arranged at the edge of the upper end of the auxiliary water tank, an electromagnetic valve B is connected to the outlet of the tap water pipeline B, a water pump A is arranged between the main water tank and the auxiliary water tank, the input end of the water pump A is communicated with the auxiliary water tank through an auxiliary water tank water suction pipe, the output end of the water pump A is communicated with the main water tank through a main water tank water inlet pipe, the automatic water replenishing, the water grading cooling and water temperature cooling can be achieved, the sudden water temperature rising and the manual consumption can be reduced.

Description

Automatic water replenishing control device for cooling water pool

Technical Field

The utility model relates to the technical field of water supplement control devices, in particular to an automatic water supplement control device for a cooling water pool.

Background

The cooling water that daily production of tubular product, section bar manufacture factory used generally all is the water of storing in the underground cooling pond, and water in the cooling pond can become less along with using gradually, and traditional moisturizing mode is through artifical visual measurement water level, then carries out the manual control moisturizing when the water level is lower, consumes artifical inefficiency, still needs often to patrol.

The temperature in cooling water pond is along with going on of production, can be higher and higher, need open cooling tower cooling water temperature when reaching certain temperature, but temperature is higher, the phenomenon that can not satisfy the production demand can appear in the cooling effect of cooling tower when the production speed is too fast, traditional solution is adding and establishes more cooling towers, but the use can be but the tower fairly consumes the electric energy, the water yield also has scattering and disappearing of certain degree, especially when the temperature rose fast in the short time, the cooling tower can not satisfy the demand of cooling.

Therefore, the design of the control device which can automatically replenish water, cool water temperature in a grading way, cool water temperature in a sudden rise and reduce labor consumption is just the problem to be solved by the utility model.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model aims to provide an automatic water supplementing control device for a cooling water pool, which can realize the functions of automatically supplementing water, grading the cooling water temperature, cooling the suddenly rising water temperature and reducing the manual consumption.

The technical scheme adopted by the device is as follows: the utility model provides a cooling water pond automatic water supply controlling means, it includes main pond, vice pond, temperature sensor, level sensor A, water pump A, main pond inlet tube, vice pond drinking-water pipe, vice pond inlet tube, water pump B, overhead pump, main pond drinking-water pipe, filter equipment, wet return, control box, feed pump, feed pipe, cooling tower, solenoid valve A, running water pipeline A, solenoid valve B, running water pipeline B, level sensor B, main pond, vice pond setting are underground, vice pond setting is in the side of main pond, the upper end edge of main pond is provided with running water pipeline A, the exit of running water pipeline A is connected with solenoid valve A, the main pond inboard is provided with filter equipment, the main pond inboard is provided with level sensor A, level sensor A's below is provided with temperature sensor, the utility model discloses a cooling tower, subaerial control box, the upper end edge in vice pond is provided with water pipeline B, water pipeline B's exit is connected with solenoid valve B, be provided with water pump A between main pond and the vice pond, water pump A's input is linked together and the output is linked together through main pond inlet tube and main pond through vice pond drinking-water pipe and vice pond, water pump A's input is linked together and the output is linked together through vice pond inlet tube and vice pond through vice pond drinking-water pipe, subaerial water pump that is provided with, water pump passes through the water-feeding pipe and main pond intercommunication, filter equipment is connected with the wet return, main pond has the cooling tower through the pipe connection, is provided with the control box subaerial, the control box respectively with solenoid valve A, solenoid valve B, water pump A, water pump B, elevator, The water level sensor A, the water level sensor B and the temperature sensor are electrically connected.

Furthermore, a water inlet pipe of the cooling tower is communicated with the main water tank through a lifting pump, and a return pipe of the cooling tower is communicated with the main water tank.

Further, the auxiliary water pool water inlet pipe is arranged on the inner side of the pipeline channel, and the pipeline channel is communicated with the side face of the main water pool from the lower part of the auxiliary water pool.

Further, the outlet of the main water tank water inlet pipe is close to the bottom of the main water tank, and the inlet of the main water tank water pumping pipe is arranged on the upper portion of the space in the main water tank.

Further, the inlet of the auxiliary pool water pumping pipe is arranged at the bottom of the auxiliary pool, and the outlet of the auxiliary pool water inlet pipe is close to the bottom of the auxiliary pool.

Further, a controller is arranged on the inner side of the control box and connected with a touch screen.

Further, the temperature sensor is arranged on the side wall of the middle depth of the main water pool.

Further, the distance between the water level sensor A and the bottom of the main water tank is not more than two thirds of the depth of the main water tank, and the distance between the water level sensor B and the bottom of the auxiliary water tank is not more than two thirds of the depth of the auxiliary water tank.

The device of the utility model has the beneficial effects that:

1. the utility model is provided with the auxiliary water tank, when the water temperature in the main water tank rises suddenly, the water pump is automatically started to partially circulate the water in the two water tanks, the water with low temperature is used for neutralizing the water temperature in the main water tank, the suddenly rising water temperature is reduced, the water level sensors monitor the water levels of the two water tanks in real time, the water inlets are controlled by the electromagnetic valves, the water can be automatically supplemented in time according to signals sent back by the sensors, the circulating cooling of the two water tanks and the cooling of the cooling tower are simultaneously used, the cooling effect is further enhanced, the automatic water supplementation, the graded water temperature cooling and the sudden rising water temperature cooling are realized, and the function of manual consumption is reduced.

Drawings

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

Description of reference numerals: 1-a main water pool; 2-auxiliary pool; 3-a temperature sensor; 4-water level sensor a; 5-a water pump A; 6-water inlet pipe of main water pool; 7-auxiliary pool water pumping pipe; 8-a conduit channel; 9-auxiliary water pool water inlet pipe; 10-a water pump B; 11-main pool water pumping pipe; 12-a filtration device; 13-a water return pipe; 14-a control box; 15-a feed pump; 16-a water supply pipe; 17-an ascending pump; 18-a cooling tower; 19-solenoid valve a; 20-tap water pipe a; 21-electromagnetic valve B; 22-tap water line B; 23-water level sensor B.

Detailed Description

The device of the present invention will be further illustrated with reference to specific examples, which are provided only for illustrating the present invention and not for limiting the scope of the present invention. Furthermore, it should be understood that various changes and modifications can be made by those skilled in the art after reading the teaching of the present invention, and these equivalents also fall within the scope of the claims appended hereto.

Referring to fig. 1, which is a structural view of the present invention, an automatic water supply control device for a cooling water pool comprises a main water pool 1, an auxiliary water pool 2, a temperature sensor 3, a water level sensor a4, a water pump a5, a main water pool water inlet pipe 6, an auxiliary water pool water suction pipe 7, an auxiliary water pool water inlet pipe 9, a water pump B10, a lift pump 17, a main water pool water suction pipe 11, a filter device 12, a water return pipe 13, a control box 14, a water feed pump 15, a water feed pipe 16, a cooling tower 18, an electromagnetic valve a19, a tap water pipeline a20, an electromagnetic valve B21, a tap water pipeline B22, a water level sensor B23, wherein the main water pool 1 and the auxiliary water pool 2 are arranged underground, the auxiliary water pool 2 is arranged at a side of the main water pool 1, a tap water pipeline a20 is arranged at an upper end edge of the main water pool 1, an electromagnetic valve a19 is connected at an outlet of the tap water pipeline a20, the filter device 12 is arranged at the inner side of the main water pool 1, a water level sensor a4 is arranged at the inner side of the main water pool 1, a temperature sensor 3 is arranged below the water level sensor A4, a tap water pipeline B22 is arranged at the upper end edge of the auxiliary water pool 2, an electromagnetic valve B21 is connected at the outlet of a tap water pipeline B22, a water pump A5 is arranged between the main water pool 1 and the auxiliary water pool 2, the input end of a water pump A5 is communicated with the auxiliary water pool 2 through an auxiliary water pool water pumping pipe 7, the output end of the water pump A5 is communicated with the main water pool 1 through a main water pool water inlet pipe 6, a water pump B10 is arranged at the upper end edge of the auxiliary water pool 2, the input end of the water pump B10 is communicated with the main water pool 1 through a main water pool water pumping pipe 11, the output end of the water pump B10 is communicated with the auxiliary water pool 2 through an auxiliary water inlet pipe 9, a water feed pump 15 is arranged on the ground, the water feed pump 15 is communicated with the main water pool 1 through a water feed pipe 16, the filter device 12 is connected with a return pipe 13, the main water pool 1 is connected with a cooling tower 18 through a pipeline, a control box 14 is arranged on the ground, and a control box 14 is respectively connected with the electromagnetic valve A19, The electromagnetic valve B21, the water pump A5, the water pump B10, the rising pump 17, the water level sensor A4, the water level sensor B23 and the temperature sensor 3 are electrically connected.

The inlet pipe of the cooling tower 18 is communicated with the main water tank 1 through the ascending pump 17, the return pipe of the cooling tower 18 is communicated with the main water tank 1, the auxiliary water tank inlet pipe 9 is arranged on the inner side of the pipeline channel 8, and the pipeline channel 8 is communicated to the side face of the main water tank 1 from the lower part of the auxiliary water tank 2.

The outlet of the main water tank water inlet pipe 6 is close to the bottom of the main water tank 1, the inlet of the main water tank water pumping pipe 11 is arranged on the upper portion of the space in the main water tank 1, the inlet of the auxiliary water tank water pumping pipe 7 is arranged at the bottom of the auxiliary water tank 2, and the outlet of the auxiliary water tank water inlet pipe 9 is close to the bottom of the auxiliary water tank 2.

The controller is arranged on the inner side of the control box 14 and connected with a touch screen, the temperature sensor 3 is arranged on the side wall of the middle depth of the main water pool 1, the distance between the water level sensor A4 and the bottom of the main water pool 1 is not more than two thirds of the depth of the main water pool 1, and the distance between the water level sensor B23 and the bottom of the auxiliary water pool 2 is not more than two thirds of the depth of the auxiliary water pool 2.

The controller of the utility model is responsible for overall work of all electronic equipment, after long-time production and use, the water level changes, after the water level sensors A4 and B in the main water tank 1 and the auxiliary water tank 2 sense the water level drop, electric signals are transmitted to the controller, the controller controls the solenoid valve A19 and the solenoid valve B21 to be opened for a specified time, the opening time of the solenoid valve A19 and the solenoid valve B21 is a fixed set value, and after the solenoid valve A19 and the solenoid valve B21 are opened, the tap water pipeline A20 and the tap water pipeline B22 start water discharge until the solenoid valve is closed and then stop water discharge.

The temperature sensor 3 connected with the controller monitors the water temperature in real time, when the temperature in the main water pool 1 reaches a set value for starting the cooling tower 18, the controller controls the ascending pump 17 to supply water, the cooling tower 18 starts to work, the water temperature maintains the temperature required by production, the cooling tower 18 always runs, and when the water temperature is lower than the set value for stopping the cooling tower 18, the controller controls the cooling tower 18 to stop running.

When the water temperature rises within a short time due to the influence of external factors and the cooling tower 18 cannot lower the temperature in time, the temperature sensor 3 senses the water temperature, transmits an electric signal to the controller, the controller controls the water pump A5 and the water pump B10 to simultaneously operate for a fixed time, the water with higher temperature at the upper part of the main water pool 1 is pumped out and conveyed to the auxiliary water pool 2, the water with lower water temperature in the auxiliary water pool 2 is pumped out and injected into the main water pool 1 to neutralize and lower the whole water temperature in the main water pool 1, so that the water temperature is controlled, the cooling tower 18 can effectively dissipate heat constantly, and the effect of reducing the water temperature is kept.

The continuous opening time of the electromagnetic valves A19 and B21 is designed according to the volumes of the main water tank 1 and the auxiliary water tank 2, and the time for simultaneously operating the water pumps A5 and B10 is designed according to the solvent of the auxiliary water tank 2

The utility model is provided with the auxiliary water tank 2, when the water temperature in the main water tank 1 rises suddenly, the auxiliary water tank 2 automatically starts the water pump to partially circulate the water in the two water tanks, the water with low temperature is used for neutralizing the water temperature in the main water tank 1, the sudden rising water temperature is reduced, the water level sensors monitor the water levels of the two water tanks in real time, the water inlets are controlled by the electromagnetic valves, the water can be automatically supplemented in time according to signals sent back by the sensors, the circulating cooling of the two water tanks and the cooling of the cooling tower 18 are simultaneously used, the cooling effect is further enhanced, the automatic water supplementing, the graded cooling water temperature and the sudden rising water temperature can be realized, and the function of reducing the manual consumption is realized.

Claims (8)

1. The utility model provides an automatic controlling means that mends of cooling water pond which characterized in that: including main pool, vice pool, temperature sensor, level sensor A, water pump A, main pool inlet tube, vice pool drinking-water pipe, vice pool inlet tube, water pump B, overhead pump, main pool drinking-water pipe, filter equipment, wet return, control box, feed pump, water-feeding pipe, cooling tower, solenoid valve A, running water pipeline A, solenoid valve B, running water pipeline B, level sensor B, main pool, vice pool setting are in the underground, vice pool sets up the side in main pool, the upper end edge in main pool is provided with running water pipeline A, the exit of running water pipeline A is connected with solenoid valve A, the main pool inboard is provided with filter equipment, the main pool inboard is provided with level sensor A, level sensor A's below is provided with temperature sensor, the upper end edge in vice pool is provided with running water pipeline B, an electromagnetic valve B is connected at the outlet of the tap water pipeline B, a water pump A is arranged between the main water pool and the auxiliary water pool, the input end of the water pump A is communicated with the auxiliary water tank through an auxiliary water tank water pumping pipe and the output end is communicated with the main water tank through a main water tank water inlet pipe, a water pump B is arranged at the edge of the upper end of the auxiliary water tank, the input end of the water pump B is communicated with the main water tank through a main water tank water pumping pipe, the output end of the water pump B is communicated with the auxiliary water tank through an auxiliary water tank water inlet pipe, a water feed pump is arranged on the ground, the water feeding pump is communicated with a main water tank through a water feeding pipe, the filtering device is connected with a water return pipe, the main water tank is connected with a cooling tower through a pipeline, a control box is arranged on the ground, the control box is respectively and electrically connected with the electromagnetic valve A, the electromagnetic valve B, the water pump A, the water pump B, the ascending pump, the water level sensor A, the water level sensor B and the temperature sensor.

2. The automatic water replenishing control device for the cooling water pool as claimed in claim 1, wherein: the water inlet pipe of the cooling tower is communicated with the main water tank through the ascending pump, and the return pipe of the cooling tower is communicated with the main water tank.

3. The automatic water replenishing control device for the cooling water pool as claimed in claim 1, wherein: the auxiliary water pool water inlet pipe is arranged on the inner side of the pipeline channel, and the pipeline channel is communicated with the side face of the main water pool from the lower part of the auxiliary water pool.

4. The automatic water replenishing control device for the cooling water pool as claimed in claim 1, wherein: the outlet of the main water tank water inlet pipe is close to the bottom of the main water tank, and the inlet of the main water tank water pumping pipe is arranged on the upper portion of the space in the main water tank.

5. The automatic water replenishing control device for the cooling water pool as claimed in claim 1, wherein: the inlet of the auxiliary pool water pumping pipe is arranged at the bottom of the auxiliary pool, and the outlet of the auxiliary pool water inlet pipe is close to the bottom of the auxiliary pool.

6. The automatic water replenishing control device for the cooling water pool as claimed in claim 1, wherein: the controller is arranged on the inner side of the control box and connected with a touch screen.

7. The automatic water replenishing control device for the cooling water pool as claimed in claim 1, wherein: the temperature sensor is arranged on the side wall of the middle depth of the main water tank.

8. The automatic water replenishing control device for the cooling water pool as claimed in claim 1, wherein: the distance between the water level sensor A and the bottom of the main water tank is not more than two thirds of the depth of the main water tank, and the distance between the water level sensor B and the bottom of the auxiliary water tank is not more than two thirds of the depth of the auxiliary water tank.

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