CN113375950A - Circulating water cooling tower equipment capability evaluation system - Google Patents

Abstract

The invention discloses a capability evaluation system for circulating water cooling tower equipment, which comprises a circulating cold water conveying water tank, a vacuum hot water unit, a temperature-adjusting transition water tank, a rated constant temperature water tank and circulating water cooling equipment, wherein the circulating cold water conveying water tank, the vacuum hot water unit, the temperature-adjusting transition water tank, the rated constant temperature water tank and the circulating water cooling equipment are connected through water pipes; the baffle is provided with a first through groove, a first movable groove is arranged on the inner wall of the first through groove, a sealing plate is arranged in the first movable groove, and when the liquid level in the upper cavity is higher than that in the lower cavity, the sealing plate moves into the first movable groove.

Description

Circulating water cooling tower equipment capability evaluation system

Technical Field

The invention belongs to the technical field of cooling tower evaluation, and particularly relates to a circulating water cooling tower equipment capacity evaluation system.

Background

The cooling tower (The cooling tower) is a device which uses water as a circulating coolant, absorbs heat from a system and discharges The heat to The atmosphere so as to reduce The water temperature; the cold is an evaporation and heat dissipation device which utilizes the principle that water is in flowing contact with air and then carries out heat exchange to generate steam, the steam volatilizes and takes away heat to achieve evaporation and heat dissipation, convection heat transfer, radiation heat transfer and the like to dissipate waste heat generated in industry or refrigeration air conditioners to reduce the water temperature so as to ensure the normal operation of the system, and the device is generally barrel-shaped and is named as a cooling tower.

For knowing the cooling tower performance makes the cooling tower can better use, need carry out the evaluation to the cooling tower ability when the cooling tower comes into operation, it is less to have the device of evaluating to the cooling tower now, and the cooling tower performance can't survey, causes the circumstances that the cooling tower ability is not enough or excessive extravagant, consequently needs a device of evaluating to the cooling tower.

Disclosure of Invention

The invention provides a system for evaluating the capacity of circulating water cooling tower equipment, aiming at overcoming the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: a capability evaluation system for circulating water cooling tower equipment comprises a circulating cold water conveying water tank, a vacuum hot water unit, a temperature-adjusting transition water tank, a rated constant-temperature water tank and circulating water cooling equipment, wherein the circulating cold water conveying water tank, the vacuum hot water unit, the temperature-adjusting transition water tank, the rated constant-temperature water tank and the circulating water cooling equipment are connected through water pipes; a first through groove is formed in the partition plate, a first movable groove is formed in the inner wall of the first through groove, a sealing plate is arranged in the first movable groove, and when the liquid level in the upper cavity is higher than that in the lower cavity, the sealing plate moves into the first movable groove; when the evaluation system is used, water flow is stored in the circulating cold water conveying water tank, the water flow in the circulating cold water conveying water tank enters the vacuum hot water unit through the water pipe, the vacuum hot water unit heats the water flow to a specified temperature, the water flow enters the temperature-adjusting transition water tank along the water pipe, the temperature-adjusting transition water tank measures the temperature of the water heated by the vacuum hot water unit, if the temperature of the water is higher, cold water is added from the second water inlet or the firepower of the vacuum hot water unit is adjusted, if the temperature of the water is lower, the heating capacity of the vacuum hot water unit is increased, the water is adjusted until the rated temperature is reached, and the water is conveyed to the constant-temperature water conveying water tank; so as to ensure that the warm water with rated water temperature reaches the circulating water cooling tower equipment; the rated constant temperature water tank conveys rated constant temperature water into circulating water cooling equipment for cooling; the circulating water cooling equipment cools the delivered rated warm water, the water temperature is reduced to rated cooling water, when the circulating water cooling equipment cools the warm water, various performance indexes of the circulating water cooling equipment are measured to obtain various performance data of the circulating water cooling equipment, and the measurement operation of the circulating water cooling equipment is completed; hot water is fed from a first water inlet, cold water is fed from a second water inlet, the hot water is temporarily stored in an upper cavity after entering a temperature-adjusting transition water tank, a temperature sensor measures the temperature of water flow in the upper cavity, when the temperature in the upper cavity does not reach a specified value, a sealing plate seals a first through groove, the upper cavity and the lower cavity are in a cut-off state, a vacuum hot water unit and the second water inlet are used for adjusting the water temperature in the upper cavity, when the water temperature in the upper cavity reaches the specified temperature, the sealing plate enters a first movable groove, after the first through groove is opened, the water flow in the upper cavity enters a lower cavity, after the liquid level in the lower cavity is supplemented, the water flow flows out from a water outlet, and the water flow is conveyed to a rated constant-temperature water tank; under the arrangement of the partition plate, the temperature-adjusting transition water tank continuously discharges water, so that the whole system is prevented from being in a pause state when the temperature-adjusting transition water tank adjusts the water temperature, the continuous operation of the whole evaluation system is ensured, and the test efficiency of circulating water cooling equipment is improved; after the water temperature in the upper cavity is adjusted, water flow in the lower cavity flows out from the water outlet all the time, the liquid level in the lower cavity descends, the liquid level in the upper cavity rises, the liquid level difference between the upper cavity and the lower cavity increases, the liquid level in the upper cavity increases to enable the sealing plate to enter the first movable groove, the opening of the first through groove increases, the water flow in the upper cavity enters the lower cavity through the first through groove, water flow is rapidly supplemented into the lower cavity, and after the liquid levels in the upper cavity and the lower cavity are in a level state, the sealing plate resets to adjust the opening of the first through groove, so that the liquid levels of the upper cavity and the lower cavity tend to be stable, and continuous warm water is sent out from the temperature-adjusting transition water tank.

The partition board is provided with a rotating roller, the rotating roller is provided with a first push plate, and the top of the temperature-adjusting transition water tank is provided with a cylinder for driving the rotating roller to rotate; the temperature sensor is arranged above the first through groove; the sealing plate is provided with a sealing spring and a first sliding block, an electromagnet is arranged in the first movable groove, a first sliding groove matched with the first sliding block is arranged on the inner wall of the first movable groove, and a first balancing weight used for pulling the sealing plate into the first movable groove is arranged in the temperature-adjusting transition water tank.

A first movable cavity is arranged on the inner wall of the temperature-adjusting transition water tank, a second movable groove is arranged on the side wall of the first movable cavity, the second movable groove is arranged in the lower cavity, the first balancing weight is arranged in the first movable cavity, a first floating plate is arranged at the bottom of the first balancing weight, the first floating plate is arranged in the second movable groove in a penetrating manner, a first connecting rod is arranged on the first balancing weight, a first connecting block is arranged at the top of the first connecting rod, a second connecting block is arranged in the first movable cavity, a first limiting block for fixing the first connecting block is arranged on the second connecting block, a third movable groove is arranged on the inner wall of the upper cavity, and a second floating plate for driving the first limiting block to move towards the direction away from the first connecting block is arranged in the third movable groove; and a first connecting rope is arranged on the first balancing weight, and one end of the first connecting rope is fixedly connected to the first sliding block.

A third movable groove is formed in the second connecting block, the first limiting block is arranged in the third movable groove, a first connecting spring is arranged on the first limiting block, and a limiting groove matched with the first limiting block is formed in the first connecting block; the connecting device is characterized in that a fourth movable groove is formed in the second connecting block, a second sliding block is arranged in the fourth movable groove, a first connecting plate is arranged on the second sliding block, a fifth movable groove communicated with the third movable groove is formed in the inner wall of the fourth movable groove, a second connecting spring is arranged in the fifth movable groove, a fifth push plate is arranged at one end of the second connecting spring, and a first push block is arranged on the first connecting plate.

A second movable cavity is formed in the first connecting plate, a second connecting plate is hinged to the inner wall of the second movable cavity, a third connecting plate is hinged to one end of the second connecting plate, a sixth movable groove is formed in the second sliding block, a through cavity communicated with the sixth movable groove is formed in the side wall of the second movable cavity, the first push block is arranged in the sixth movable groove, a third connecting spring is arranged on the first push block, a first push rod penetrates through the through cavity, and a first limiting plate is arranged at one end of the first push rod; the bottom of the second movable cavity is provided with a second through groove, a second push block penetrates through the second through groove, the inner wall of the second through groove is provided with a second connecting rod, the second push block is provided with a seventh movable groove matched with the second connecting rod, and the second connecting rod is provided with a first reset spring.

A third connecting block is arranged above the second connecting block, a third movable cavity is arranged on the third connecting block, a fourth connecting plate is arranged in the third movable cavity, a fourth connecting spring is arranged on the fourth connecting plate, a third connecting rod is arranged at the bottom of the fourth connecting plate, and the third connecting rod is fixedly connected to the first connecting plate; the third connecting block is provided with a fourth movable cavity communicated with the third movable cavity, a second push plate and a second balancing weight are arranged in the fourth movable cavity, and a second limiting block matched with the second balancing weight is arranged on the inner wall of the fourth movable cavity.

A fifth movable cavity is arranged on one side of the fourth movable cavity, a third connecting rod and a fourth connecting rod are arranged in the fifth movable cavity, a second connecting rope is arranged on the second balancing weight, and one end of the second connecting rope is fixedly connected to the third connecting rod; a fifth connecting rod is arranged on the third connecting rod, and a sixth connecting rod is arranged on the fifth connecting rod; and a fifth connecting plate is arranged in the third movable groove, a sixth connecting plate and a third sliding block are arranged on the fifth connecting plate, the second floating plate is arranged on the sixth connecting plate, a second sliding groove matched with the third sliding block is arranged on the inner wall of the third movable groove, and the fifth connecting rod is arranged in the second sliding groove in a penetrating manner.

A twenty-first movable groove is formed in the bottom of the third movable groove, a tenth connecting rod is arranged at the bottom of the fifth connecting plate, the tenth connecting rod penetrates through the twenty-first movable groove, and a seventh push plate is arranged at the bottom end of the tenth connecting rod; a second cavity communicated with the twenty-first movable groove is formed in the side wall of the fourth movable cavity, a seventh connecting plate is arranged in the second cavity, and an eighth connecting plate is arranged at the bottom of the seventh connecting plate; the fourth movable cavity is provided with a third movable groove, the second limiting block is arranged in the third movable groove, the third limiting block is provided with a third connecting spring and a third connecting rope, and one end of the third connecting rope is fixedly connected to the seventh connecting plate.

A sucker and a tenth movable groove are arranged at the top of the fourth movable cavity, the tenth movable groove is communicated with the inside of the sucker, a fourth push plate is arranged in the tenth movable groove, a sixth connecting rod is arranged on the fourth push plate, a ninth connecting plate is arranged on the sixth connecting rod, a seventh connecting rod is arranged on the ninth connecting plate, an eleventh movable groove matched with the seventh connecting rod is arranged at the top of the tenth movable groove, a second push rod is arranged on the seventh connecting rod, a twelfth movable groove is arranged on the side wall of the fifth movable cavity, a third push rod is arranged on the fourth connecting rod, and the third push rod is arranged at the bottom of the second push rod; the side wall of the fourth connecting rod is provided with a fourth sliding block, the inner wall of the fifth movable cavity is provided with a third sliding groove matched with the fourth sliding block, the fourth sliding block is provided with a second reset spring, the third connecting rod is provided with a fifth sliding block, and the fourth connecting rod is provided with a fourth sliding groove matched with the fifth sliding block.

An eighth movable groove is formed in the inner wall of the first movable cavity, a first movable plate is arranged in the eighth movable groove, a first cavity is formed in the side wall of the eighth movable groove, a third push plate is arranged on the first movable plate, and the third push plate penetrates through the first cavity; a thirteenth movable groove is formed in the inner wall of the tenth movable groove, a tenth connecting plate is arranged in the thirteenth movable groove, and a ratchet matched with the ninth connecting plate is arranged on the tenth connecting plate; a third return spring and a sixth sliding block are arranged on the tenth connecting plate; an air outlet is formed in the side wall of the tenth movable groove, a fourteenth movable groove communicated with the air outlet is formed in the side wall of the thirteenth movable groove, an eleventh connecting plate matched with the fourteenth movable groove is arranged on the tenth connecting plate, and a third through groove matched with the air outlet is formed in the eleventh connecting plate; still be equipped with on the tenth activity inslot wall with sixth slider matched with fifth spout, fifth spout one end be equipped with the communicating sixth movable chamber of first cavity, be equipped with the fourth push rod in the sixth movable chamber, fourth push rod one end is equipped with the second limiting plate, be equipped with sixth connecting spring on the second limiting plate.

The invention has the following advantages: when the evaluation system is used, water flow is stored in the circulating cold water conveying water tank, the water flow in the circulating cold water conveying water tank enters the vacuum hot water unit through the water pipe, the vacuum hot water unit heats the water flow to a specified temperature, the water flow enters the temperature-adjusting transition water tank along the water pipe, the temperature-adjusting transition water tank measures the temperature of the water heated by the vacuum hot water unit, if the temperature of the water is higher, cold water is added from the second water inlet or the firepower of the vacuum hot water unit is adjusted, if the temperature of the water is lower, the heating capacity of the vacuum hot water unit is increased, the water is adjusted until the rated temperature is reached, and the water is conveyed to the constant-temperature water conveying water tank; so as to ensure that the warm water with rated water temperature reaches the circulating water cooling tower equipment; the rated constant temperature water tank conveys rated constant temperature water into circulating water cooling equipment for cooling; the circulating water cooling equipment cools the delivered rated warm water, the water temperature is reduced to rated cooling water, and when the circulating water cooling equipment cools the warm water, various performance indexes of the circulating water cooling equipment are measured to obtain various performance data of the circulating water cooling equipment, so that the measurement operation of the circulating water cooling equipment is completed.

Drawings

Fig. 1 is a schematic flow diagram of a system for evaluating the capacity of a circulating water cooling tower device according to the present invention.

FIG. 2 is a schematic structural diagram of a temperature-regulating transition water tank of the invention.

Fig. 3 is a front view of a temperature-regulating transitional water tank of the invention.

Fig. 4 is a cross-sectional view taken along a-a in fig. 3.

Fig. 5 is an enlarged view of a portion a in fig. 4.

Fig. 6 is a cross-sectional view taken along line B-B of fig. 3.

Fig. 7 is an enlarged view of fig. 6 at B.

Fig. 8 is an enlarged view of fig. 7 at C.

Fig. 9 is a cross-sectional view taken along line C-C of fig. 3.

Fig. 10 is an enlarged view of fig. 9 at D.

Fig. 11 is an enlarged view of fig. 10 at E.

Fig. 12 is a cross-sectional view taken along line D-D in fig. 3.

Fig. 13 is an enlarged view of fig. 12 at F.

Fig. 14 is an enlarged view at G in fig. 13.

Fig. 15 is a cross-sectional view taken along line E-E of fig. 3.

Fig. 16 is an enlarged view at H in fig. 15.

Fig. 17 is a cross-sectional view taken along F-F in fig. 3.

FIG. 18 is an enlarged view of the point I of Table 17.

Fig. 19 is a cross-sectional view taken along G-G in fig. 3.

Fig. 20 is an enlarged view at J in fig. 19.

Fig. 21 is a right side view of the temperature-regulated transition water tank of the present invention.

Fig. 22 is a cross-sectional view taken along H-H in fig. 21.

Fig. 23 is an enlarged view at K in fig. 22.

Fig. 24 is a cross-sectional view taken along line P-P of fig. 21.

Fig. 25 is an enlarged view at L in fig. 24.

Fig. 26 is an enlarged view of fig. 25 at M.

Fig. 27 is an enlarged view of fig. 25 at N.

Fig. 28 is a cross-sectional view taken along line Q-Q of fig. 21.

Fig. 29 is an enlarged view at O in fig. 28.

Fig. 30 is an enlarged view at P in fig. 29.

Detailed Description

As shown in fig. 1-30, a system for evaluating the capacity of a circulating water cooling tower device comprises a circulating cold water conveying tank, a vacuum hot water unit, a temperature-adjusting transition water tank 1, a rated constant temperature water tank and a circulating water cooling device, wherein the circulating cold water conveying tank, the vacuum hot water unit, the temperature-adjusting transition water tank 1, the rated constant temperature water tank and the circulating water cooling device are connected through water pipes, the circulating water cooling device is a cooling tower, the temperature-adjusting transition water tank 1 is provided with a first water inlet 11, a second water inlet 12 and a water outlet 15, a partition plate 13 is arranged in the temperature-adjusting transition water tank 1, the temperature-adjusting transition water tank 1 is divided into an upper cavity and a lower cavity by the partition plate 13, and the inner wall of the temperature-adjusting transition water tank 1 is provided with a temperature sensor 150; a first through groove is formed in the partition plate 13, a first movable groove is formed in the inner wall of the first through groove, a sealing plate 16 is arranged in the first movable groove, and when the liquid level in the upper cavity is higher than the liquid level in the lower cavity, the sealing plate 16 moves into the first movable groove; when the evaluation system is used, water flow is stored in the circulating cold water conveying water tank, the water flow in the circulating cold water conveying water tank enters the vacuum hot water unit through the water pipe, the vacuum hot water unit heats the water flow to a specified temperature, the water flow enters the temperature-adjusting transition water tank along the water pipe, the temperature-adjusting transition water tank measures the temperature of the water heated by the vacuum hot water unit, if the temperature of the water is higher, cold water is added from the second water inlet or the firepower of the vacuum hot water unit is adjusted, if the temperature of the water is lower, the heating capacity of the vacuum hot water unit is increased, the water is adjusted until the rated temperature is reached, and the water is conveyed to the constant-temperature water conveying water tank; so as to ensure that the warm water with rated water temperature reaches the circulating water cooling tower equipment; the rated constant temperature water tank conveys rated constant temperature water into circulating water cooling equipment for cooling; the circulating water cooling equipment cools the delivered rated warm water, the water temperature is reduced to rated cooling water, when the circulating water cooling equipment cools the warm water, various performance indexes of the circulating water cooling equipment are measured to obtain various performance data of the circulating water cooling equipment, and the measurement operation of the circulating water cooling equipment is completed; hot water is fed from a first water inlet, cold water is fed from a second water inlet, the hot water is temporarily stored in an upper cavity after entering a temperature-adjusting transition water tank, a temperature sensor measures the temperature of water flow in the upper cavity, when the temperature in the upper cavity does not reach a specified value, a sealing plate seals a first through groove, the upper cavity and the lower cavity are in a cut-off state, a vacuum hot water unit and the second water inlet are used for adjusting the water temperature in the upper cavity, when the water temperature in the upper cavity reaches the specified temperature, the sealing plate enters a first movable groove, after the first through groove is opened, the water flow in the upper cavity enters a lower cavity, after the liquid level in the lower cavity is supplemented, the water flow flows out from a water outlet, and the water flow is conveyed to a rated constant-temperature water tank; under the arrangement of the partition plate, the temperature-adjusting transition water tank continuously discharges water, so that the whole system is prevented from being in a pause state when the temperature-adjusting transition water tank adjusts the water temperature, the continuous operation of the whole evaluation system is ensured, and the test efficiency of circulating water cooling equipment is improved; after the water temperature in the upper cavity is adjusted, water flow in the lower cavity flows out from the water outlet all the time, the liquid level in the lower cavity descends, the liquid level in the upper cavity rises, the liquid level difference between the upper cavity and the lower cavity increases, the liquid level in the upper cavity increases to enable the sealing plate to enter the first movable groove, the opening of the first through groove increases, the water flow in the upper cavity enters the lower cavity through the first through groove, water flow is rapidly supplemented into the lower cavity, and after the liquid levels in the upper cavity and the lower cavity are in a level state, the sealing plate resets to adjust the opening of the first through groove, so that the liquid levels of the upper cavity and the lower cavity tend to be stable, and continuous warm water is sent out from.

The partition plate 13 is provided with a rotating roller 14, the rotating roller 14 is provided with a first push plate 141, and the top of the temperature-adjusting transition water tank 1 is provided with a cylinder 22 for driving the rotating roller 14 to rotate; the temperature sensor 150 is arranged above the first through groove; a sealing spring 161 and a first sliding block are arranged on the sealing plate 16, an electromagnet is arranged in the first movable groove, a first sliding groove matched with the first sliding block is arranged on the inner wall of the first movable groove, and a first balancing weight 17 used for pulling the sealing plate 16 into the first movable groove is arranged in the temperature-adjusting transition water tank 1; when the temperature of water flow in the upper cavity does not reach the specified temperature, the electromagnet is electrified to push the sealing plate to move in the first through groove, the sealing plate seals the first through groove, the upper cavity and the lower cavity are in a cut-off state, the water flow in the lower cavity continuously flows out from the water outlet, the water temperature in the upper cavity is adjusted by the upper cavity in a mode of introducing cold water or hot water, after the cold water or the hot water enters the upper cavity, the air cylinder drives the rotating roller to rotate, the first push plate plays a role in stirring the water flow in the upper cavity, so that the cold water and the hot water in the upper cavity are quickly mixed, and the water temperature in the upper cavity tends to a steady value; the temperature sensor is arranged at a position far away from the water inlet, so that the water flow stirred by the first push plate flows to the temperature sensor, the accuracy of the temperature sensor in measuring the overall temperature of the water flow in the upper cavity is ensured, and the influence of the added cold water or hot water directly flowing to the temperature sensor on the temperature measurement result is avoided; after the temperature adjustment in the upper cavity is completed, the upper cavity continuously replenishes water, the lower cavity continuously discharges water, the liquid level in the upper cavity rises, the liquid level in the lower cavity falls, the first through groove is opened after the electromagnet is powered off, the sealing plate continues to move towards the first movable groove under the action of the first balancing weight, the opening of the first through groove is increased, water in the upper cavity can flow into the lower cavity more quickly, the water yield in the upper cavity is greater than the water yield, the water yield in the lower cavity is greater than the water yield, the liquid level of the upper cavity falls, the liquid level of the lower cavity rises, the liquid level in the lower cavity is replenished, the continuous water flow outflow in the lower cavity is ensured, and the whole testing system can stably run.

A first movable cavity is arranged on the inner wall of the temperature-adjusting transition water tank 1, a second movable groove is arranged on the side wall of the first movable cavity, the second movable groove is arranged in the lower cavity, the first balancing weight 17 is arranged in the first movable cavity, a first floating plate 171 is arranged at the bottom of the first balancing weight 17, the first floating plate 171 is arranged in the second movable groove in a penetrating manner, a first connecting rod 172 is arranged on the first balancing weight 17, a first connecting block 173 is arranged at the top of the first connecting rod 172, a second connecting block 180 is arranged in the first movable cavity, a first limiting block 1801 for fixing the first connecting block 173 is arranged on the second connecting block 180, a third movable groove is arranged on the inner wall of the upper cavity, and a second floating plate 18 for driving the first limiting block 1801 to move away from the first connecting block 173 is arranged in the third movable groove; a first connecting rope is arranged on the first balancing weight 17, and one end of the first connecting rope is fixedly connected to the first sliding block; the area of the first floating plate is smaller than that of the second floating plate, and the buoyancy borne by the second floating plate is larger than that borne by the first floating plate; when the upper cavity and the lower cavity are in a communicated state, the sealing plate is partially positioned in the first movable groove, the first connecting block is fixed at the top of the first movable cavity by the first limiting block, and the first connecting rope is in a loose state; when the water temperature in the upper cavity is abnormal, the electromagnet is electrified to close the first through groove, cold water or hot water is introduced into the upper cavity to adjust the water temperature, the liquid level in the upper cavity rises to push the second floating plate to move upwards, the second floating plate drives the first limiting block to move in the direction away from the first connecting block, and the first limiting block loses fixation on the first connecting block; when the electromagnet is powered off, the liquid level in the lower cavity descends, the first balancing weight drives the first connecting block to move downwards after the second floating plate loses buoyancy, the first connecting rope pulls the first sliding block to move towards one end of the first sliding groove, the sealing plate continues to move towards the first movable groove, water flow in the upper cavity rapidly flows towards the lower cavity after the opening of the first through groove is increased, the liquid level in the lower cavity is rapidly supplemented, the liquid levels in the upper cavity and the lower cavity tend to be in an equivalent state, the first floating plate is pushed to move upwards after the liquid level in the lower cavity rises, the first balancing weight is driven by the first floating plate to move upwards, the sealing plate moves towards the first through groove under the action of the sealing spring, the opening of the first through groove is reduced under the action of the sealing plate, the water inflow and the water outflow in the upper cavity and the lower cavity are approximately equivalent, the liquid levels in the upper cavity and the lower cavity are gradually stabilized, and stable operation of the whole evaluation system is ensured.

A third movable groove is formed in the second connecting block 180, the first limiting block 1801 is arranged in the third movable groove, a first connecting spring 1802 is arranged on the first limiting block 1801, and a limiting groove matched with the first limiting block 1801 is formed in the first connecting block 173; a fourth movable groove is formed in the second connecting block 180, a second sliding block 11030 is arranged in the fourth movable groove, a first connecting plate 1104 is arranged on the second sliding block 11030, a fifth movable groove communicated with the third movable groove is formed in the inner wall of the fourth movable groove, a second connecting spring 1803 is arranged in the fifth movable groove, a fifth push plate 1804 is arranged at one end of the second connecting spring 1803, and a first push block 11040 is arranged on the first connecting plate 1104; after the liquid level in the lower cavity rises, the liquid level promotes the first floating plate to move upwards, the first floating plate drives the first connecting block to move upwards to the bottom of the first connecting plate, the first connecting block is positioned on one side of the second connecting block at the moment, the first push block moves towards the fifth movable groove, the first push block promotes the fifth push plate to move towards the fifth movable groove, the fifth push plate promotes the air in the fifth movable groove to enter the third movable groove, the third movable groove promotes the first limiting block to enter the limiting groove after the air pressure is increased, the first connecting block is fixed in the first movable cavity under the mutual cooperation of the first limiting block and the limiting groove, the sealing plate extends out from the first movable groove under the action of the sealing spring, the opening degree of the first through groove is adjusted, and the liquid level in the upper cavity and the lower cavity is controlled.

A second movable cavity is arranged on the first connecting plate 1104, a second connecting plate 1108 is hinged to the inner wall of the second movable cavity, a third connecting plate 1109 is hinged to one end of the second connecting plate 1108, a sixth movable groove is formed in the second sliding block 11030, a through cavity communicated with the sixth movable groove is formed in the side wall of the second movable cavity, the first push block 11040 is arranged in the sixth movable groove, a third connecting spring is arranged on the first push block 11040, a first push rod 11010 penetrates through the through cavity, and a first limiting plate 11020 is arranged at one end of the first push rod 11010; a second through groove is formed in the bottom of the second movable cavity, a second push block 1105 penetrates through the second through groove, a second connecting rod 1107 is arranged on the inner wall of the second through groove, a seventh movable groove matched with the second connecting rod 1107 is formed in the second push block 1105, and a first return spring 1108 is arranged on the second connecting rod 1107; after the liquid level in the lower cavity rises, the liquid level pushes the first floating plate to move upwards, the first floating plate drives the first balancing weight to move upwards, the first connecting block moves towards the top of the first movable cavity, the first connecting block moves to the bottom of the first connecting plate, the first connecting block pushes the second pushing block to move upwards, the second pushing block abuts against the second connecting plate and the third connecting plate, the second connecting plate and the third connecting plate are pushed to rotate under the action of the second pushing block, the third connection pushes the first limiting plate to move in the second movable cavity, the first limiting plate drives the first pushing rod to move, the first pushing rod pushes the first pushing block to move towards the outside of the sixth movable groove, the first pushing block extends out of the sixth movable groove and enters the fifth movable groove, the first pushing rod pushes the second pushing plate to move towards the fifth movable groove, the first limiting block extends out when air in the fifth movable groove enters the third movable groove, and the first limiting block fixes the first connecting block in the first movable cavity; adopt the mode that first connecting block promoted the second ejector pad to fix first connecting block, reduce the spacing power of first connecting block, make first connecting block can fix in first activity intracavity automatically after the liquid level of lower chamber rises.

A third connecting block 110 is arranged above the second connecting block 180, a third movable cavity is arranged on the third connecting block 110, a fourth connecting plate 1102 is arranged in the third movable cavity, a fourth connecting spring 1101 is arranged on the fourth connecting plate 1102, a third connecting rod 1103 is arranged at the bottom of the fourth connecting plate 1102, and the third connecting rod 1103 is fixedly connected to the first connecting plate 1104; a fourth movable cavity communicated with the third movable cavity is arranged on the third connecting block 110, a second push plate 1301 and a second balancing weight 1302 are arranged in the fourth movable cavity, and a second limiting block 1303 matched with the second balancing weight 1302 is arranged on the inner wall of the fourth movable cavity; when the first connecting block moves upwards, the second balancing weight moves downwards, the second balancing weight falls on the second push plate, the second balancing weight pushes the second push plate to move downwards, the second push plate moves downwards to push air in the fourth movable cavity into the third movable cavity, the air pressure in the third movable cavity pushes the fourth connecting plate to move downwards, the first connecting plate moves downwards along with the fourth connecting plate, the second sliding block moves to the bottom end of the fourth movable groove, the first connecting block moves upwards to the bottom of the first connecting plate, the distance between the second pushing block and the first connecting block is shortened through the first connecting plate, the first connecting block is guaranteed to push the second pushing block to move towards the second movable cavity after moving one side of the second connecting block, so that the first limiting block extends out of the third movable groove and enters the first limiting groove, and the first connecting block is fixedly connected by the first limiting block; the second limiting block has a limiting effect on the second balancing weight, the second balancing weight cannot move upwards, and the fourth connecting plate has a fixing effect, so that the first connecting plate is fixed, and the first connecting plate is prevented from being pushed to move when the first connecting block pushes the second pushing block to move upwards; when the second floating plate moves upwards, the second limiting block loses limiting on the second balancing weight, the second balancing weight moves upwards, the fourth connecting spring pulls the fourth connecting plate to move upwards after the second push plate loses supporting force, the fourth connecting plate drives the first connecting plate to move upwards, the second push block is separated from the first connecting block in winter to be in contact with the first connecting block, the second push block extends out of the second movable cavity, the first push block enters the sixth movable groove, air in the third movable groove enters the fifth movable groove again, the first limiting block extends out of the limiting groove to enter the third movable groove, the first connecting block moves downwards under the action of the first balancing weight after losing fixation, the first sliding block is pulled to move by the falling force of the first balancing weight, the opening degree of the first through groove is increased, liquid level in the lower cavity is quickly replenished, and stable operation of the evaluation system is guaranteed.

A fifth movable cavity is arranged on one side of the fourth movable cavity, a third connecting rod 19 and a fourth connecting rod 193 are arranged in the fifth movable cavity, a second connecting rope is arranged on the second balancing weight 1302, and one end of the second connecting rope is fixedly connected to the third connecting rod 19; a fifth connecting rod 191 is arranged on the third connecting rod 19, and a sixth connecting rod 192 is arranged on the fifth connecting rod 191; a fifth connecting plate 184 is arranged in the third movable groove, a sixth connecting plate 185 and a third sliding block 183 are arranged on the fifth connecting plate 184, the second floating plate 18 is arranged on the sixth connecting plate 185, a second sliding groove matched with the third sliding block 183 is arranged on the inner wall of the third movable groove, and a fifth connecting rod 191 penetrates through the second sliding groove; when the second floating plate moves upwards, the third sliding block moves towards the top of the second sliding groove, the third sliding block contacts with the sixth connecting rod after moving to the top of the second sliding groove, the third sliding block moves to drive the sixth connecting rod to move upwards together, the third connecting rod pulls the second connecting rope to move upwards along with the upward movement of the sixth connecting rod, the second connecting rope pulls the second balancing weight to move upwards, the second push plate loses the fixing force and then pulls the fourth connecting plate to move upwards by the fourth connecting spring, the air in the third movable cavity enters the fourth movable cavity again, the first limiting block is separated from the limiting groove, the first connecting block directly drops downwards, the sealing plate is pulled to move under the action of the first connecting rope, the opening degree of the first through groove is increased, and the liquid level in the lower cavity is quickly supplemented.

A twenty-first movable groove is formed in the bottom of the third movable groove, a tenth connecting rod 181 is arranged at the bottom of the fifth connecting plate, the tenth connecting rod penetrates through the twenty-first movable groove, and a seventh push plate 182 is arranged at the bottom end of the tenth connecting rod; a second cavity communicated with the twenty-first movable groove is formed in the side wall of the fourth movable cavity, a seventh connecting plate 1305 is arranged in the second cavity, and an eighth connecting plate 1306 is arranged at the bottom of the seventh connecting plate 1305; a ninth movable groove is formed in the inner wall of the fourth movable cavity, the second limiting block 1303 is arranged in the ninth movable groove, a fifth connecting spring 1304 and a third connecting rope 1307 are arranged on the second limiting block 1303, and one end of the third connecting rope 1307 is fixedly connected to the seventh connecting plate 1305; when the second floating plate moves upwards after the liquid level in the upper cavity rises, the seventh push plate moves towards the top of the twenty-first movable groove, the seventh push plate pushes the cavity in the twenty-first movable groove into the second cavity, the seventh connecting plate is pushed to move upwards after the air pressure in the second cavity increases, the seventh connecting plate pulls the third connecting rope to move upwards, the third connecting rope pulls the second limiting block to enter the ninth movable groove, after the limit of the second balancing weight disappears, the second balancing weight can be easily pulled to move upwards when the second floating plate moves upwards, so that the first limiting block is automatically separated from the limiting groove, the opening degree of the first through groove is controlled by the movement of the second floating plate, a stable working environment is formed in the temperature-adjusting transition water tank, and the stable operation of the whole evaluation system is ensured.

A suction cup 1401 and a tenth movable groove are arranged at the top of the fourth movable cavity, the tenth movable groove is communicated with the inside of the suction cup 1401, a fourth push plate 1402 is arranged in the tenth movable groove, a sixth connecting rod 1403 is arranged on the fourth push plate 1402, a ninth connecting plate 1404 is arranged on the sixth connecting rod 1403, a seventh connecting rod 1405 is arranged on the ninth connecting plate 1404, an eleventh movable groove matched with the seventh connecting rod 1405 is arranged at the top of the tenth movable groove, a second push rod 1406 is arranged on the seventh connecting rod 1405, a twelfth movable groove is arranged on the side wall of the fifth movable cavity, a third push rod 195 is arranged on the fourth connecting rod 193, and the third push rod 195 is arranged at the bottom of the second push rod 1406; a fourth sliding block is arranged on the side wall of the fourth connecting rod 193, a third sliding groove matched with the fourth sliding block is arranged on the inner wall of the fifth movable cavity, a second reset spring is arranged on the fourth sliding block, a fifth sliding block 194 is arranged on the third connecting rod 19, and a fourth sliding groove matched with the fifth sliding block 194 is arranged on the fourth connecting rod 193; the second floating plate drives a third connecting rod to move upwards when moving upwards, the third connecting rod drives a second balancing weight to move upwards, the second balancing weight is moved to the bottom of the sucker and then is abutted to the bottom of the sucker, the sucker deforms under the extrusion of the second balancing weight to enable the sucker to be preliminarily connected with the balancing weight, the third connecting rod drives the second balancing weight to move upwards, a fifth sliding block is moved to the top of a fourth sliding groove, the third connecting rod continues to move upwards to drive a fourth connecting rod to move upwards, the fourth connecting rod drives a third push rod to move upwards, the third push rod pushes the second push rod to move upwards, the second push rod drives a fourth push plate to move upwards, the air exhaust function is achieved inside the sucker when the fourth push plate moves upwards, a better vacuum state is formed inside the sucker when the fourth push plate moves upwards, the fixing effect of the sucker on the second balancing weight is increased, and the second balancing weight is fixed at the top of a fourth movable cavity, the first balancing weight is made to descend normally so as to increase the opening of the first through groove.

Because the sixth connecting rod is arranged above the second sliding groove, the seventh push plate moves before the third connecting rod, so that the second counterweight block is pulled to move after the second limiting block enters the ninth movable groove, and the second counterweight block can normally move upwards.

An eighth movable groove is formed in the inner wall of the first movable cavity, a first movable plate 120 is arranged in the eighth movable groove, a first cavity is formed in the side wall of the eighth movable groove, a third push plate 1201 is arranged on the first movable plate 120, and the third push plate 1201 is arranged in the first cavity in a penetrating mode; a thirteenth movable groove is formed in the inner wall of the tenth movable groove, a tenth connecting plate 1407 is arranged in the thirteenth movable groove, and a ratchet matched with the ninth connecting plate 1404 is formed in the tenth connecting plate 1407; a third return spring 1408 and a sixth sliding block 14010 are arranged on the tenth connecting plate 1407; an air outlet is formed in the side wall of the tenth movable groove, a fourteenth movable groove communicated with the air outlet is formed in the side wall of the thirteenth movable groove, an eleventh connecting plate 1409 matched with the fourteenth movable groove is formed in the tenth connecting plate 1407, and a third through groove matched with the air outlet is formed in the eleventh connecting plate 1409; a fifth sliding chute matched with the sixth sliding block 14010 is further arranged on the inner wall of the tenth movable chute, a sixth movable cavity communicated with the first cavity is arranged at one end of the fifth sliding chute, a fourth push rod 160 is arranged in the sixth movable cavity, a second limiting plate 1601 is arranged at one end of the fourth push rod 160, and a sixth connecting spring 1602 is arranged on the second limiting plate 1601; under the mutual matching of the ratchet and the ninth connecting plate, the ninth connecting plate is fixed at the current position after moving, so that a vacuum environment is formed in the sucker, and the fixing effect of the sucker on the second balancing weight is improved; when the first connecting block moves upwards, the first connecting block pushes the first movable plate to move upwards, the third push plate moves upwards along with the first movable plate, the third push plate pushes the air in the first cavity into the second cavity and the sixth movable cavity, the air pressure in the sixth movable cavity is increased and then pushes the fourth push rod to move towards the fifth sliding groove, the fourth push rod pushes the sixth sliding block to move in the fifth sliding groove, the tenth connecting plate enters the thirteenth movable groove and then is separated from the ninth connecting plate, the tenth connecting plate drives the eleventh connecting plate to move towards one end of the fourteenth movable groove when moving, the third sliding groove moves to the position of the air outlet, the air in the first movable cavity enters the tenth movable groove through the air outlet, the fixing effect on the second balancing weight is lost after the internal and external air pressures of the sucking disc are balanced, the second balancing weight falls on the second push plate and pushes the second push plate to move downwards, the air in the fourth activity intracavity is crowded into the third activity intracavity, and the second stopper stretches out behind the second stopper removal to the second stopper one side and fixes the second balancing weight, fixes first connecting plate on current position to guarantee the fixed effect of first stopper to first connecting block.

A seventh movable cavity is formed in the top of the temperature-adjusting transition water tank, a transmission shaft 142 is arranged on the rotating roller and penetrates through the seventh movable cavity, a transmission frame 2 is arranged in the seventh movable cavity, an equipment cavity is formed in the side wall of the seventh movable cavity, an air cylinder is arranged in the equipment cavity, a piston rod of the air cylinder is connected with the transmission frame, and transmission teeth matched with the transmission shaft are arranged on the inner wall of the transmission frame; a fifteenth movable groove is formed in the inner wall of the seventh movable cavity, a sixteenth movable groove is formed in the inner wall of the other side of the seventh movable cavity, and the fifteenth movable groove and the sixteenth movable groove are vertically arranged; a fifth push rod 24 is arranged in the fifteenth movable groove, a seventh sliding block 241 is arranged on the fifth push rod, a sixth sliding groove matched with the seventh sliding block is arranged on the inner wall of the fifteenth movable groove, a seventh connecting spring 242 is arranged on the seventh sliding block, a sixth push rod 26 is arranged in the sixteenth movable cavity, and an eighth connecting spring 261 is arranged on the sixth push rod; a connecting cavity for communicating the fifteenth movable groove and the sixteenth movable groove is arranged on the side wall of the seventh movable cavity, a first air bag 25 is arranged in the connecting cavity, and a second air bag 243 is arranged in the fifteenth movable groove; a seventeenth movable groove communicated with the fifteenth movable groove is formed in the inner wall of the sixteenth movable groove, a third limiting block 27 is arranged in the seventeenth movable groove, a groove matched with the third limiting block is formed in the sixth push rod, a third limiting plate 271 is arranged on the third limiting block, a fourth reset spring 272 is arranged on the third limiting block, an eighth connecting rod 273 is arranged on the third limiting block, a ninth connecting rod 274 is arranged on the eighth connecting rod, and the ninth connecting rod penetrates through the fifteenth movable groove; two groups of fifteenth movable grooves and sixteenth movable grooves are respectively arranged on the inner wall of the seventh movable cavity, and the two groups of fifteenth movable grooves are arranged in a central symmetry manner; when the transmission frame moves to one end of the seventh movable cavity, the transmission frame abuts against the fifth push rod, the fifth push rod extrudes the second air bag when moving into the fifteenth movable groove, air in the second air bag enters the first air bag, the third limiting block is positioned in the groove at the moment, the sixth push rod cannot move, and the first air bag expands after being inflated; when the fifth push rod moves to one side of the ninth connecting rod, the fifth push rod pushes the ninth connecting rod to move, the ninth connecting rod drives the third limiting block to move, the third limiting block is separated from the groove, air in the first air bag is sprayed out of the first air bag and enters the sixteenth movable groove, the sixth push rod pushes the transmission frame to move towards the other side of the seventh movable groove, the inner wall of the other side of the transmission frame is in contact with the side wall of the transmission shaft, the cylinder drives the transmission frame to move back, the transmission shaft drives the rotary roller to rotate back, the first push plate is stopped suddenly after rotating for a specified angle under the action of the rotary roller, and then the first push plate rotates reversely, so that more impacts are generated on water flow in the upper cavity, the water temperature in the upper cavity is more uniform, and the water flow mixing effect in the upper cavity is improved; under the cooperation of the two groups of the fifteenth movable grooves and the sixteenth movable grooves, the transmission frame moves back and forth on two sides of the seventh movable cavity, so that the roller rotates each time and then stays for a certain time, and water flow generates more impact under the action of inertia.

An eighteenth movable groove is formed in the transmission frame, a connecting frame 21 is arranged in the eighteenth movable groove, an eighth connecting spring is arranged on the inner wall of the connecting block, a fourth connecting block 221 is arranged on a piston rod of the air cylinder, an eighth sliding block 222 is arranged on the fourth connecting block, and a seventh sliding groove matched with the eighth sliding block is formed in the connecting frame; a nineteenth movable groove is respectively formed in each of two ends of the seventh movable cavity, a ninth connecting spring 231 is arranged in each nineteenth movable groove, a sixth push plate 23 is arranged on each ninth connecting spring, a third air bag 232 is arranged in each nineteenth movable groove, a through hole is formed in each seventh movable cavity, the transmission shaft penetrates through the through hole, a twentieth movable groove is formed in each through hole, a fixed block 28 is arranged in each twentieth movable groove, a tenth connecting spring 281 is arranged on each fixed block, and each twentieth movable groove is communicated with the third air bag; after the transmission frame moves to seventh activity chamber one end, the cylinder continues to promote the connection frame and removes, the connecting block removes for the transmission frame, the connection frame enters into nineteenth activity inslot and promotes the sixth push pedal, sixth push pedal extrusion third gasbag, the air in the third gasbag enters into the twentieth activity inslot, atmospheric pressure promotes the fixed block and removes toward the transmission shaft direction, the fixed block supports to fix the transmission shaft on the transmission shaft, make first push pedal fix on current position promptly after rotating, flow to the water and produce the hindrance, thereby make the water produce more collisions, mix the rivers of different temperatures in the epicoele, make the temperature in the epicoele more even, in order to obtain more accurate test data.

The drawings in the present application are only schematic and the specific dimensions thereof are subject to practical implementation.

Claims (10)

1. The utility model provides a circulating water cooling tower equipment ability system of appraising which characterized in that: the temperature-regulating water tank comprises a circulating cold water conveying water tank, a vacuum water heating unit, a temperature-regulating transition water tank (1), a rated constant-temperature water tank and circulating water cooling equipment, wherein the circulating cold water conveying water tank, the vacuum water heating unit, the temperature-regulating transition water tank (1), the rated constant-temperature water tank and the circulating water cooling equipment are connected through water pipes, a first water inlet (11), a second water inlet (12) and a water outlet (15) are formed in the temperature-regulating transition water tank (1), a partition plate (13) is arranged in the temperature-regulating transition water tank (1), the temperature-regulating transition water tank (1) is divided into an upper cavity and a lower cavity by the partition plate (13), and a temperature sensor (150) is arranged on the inner wall of the temperature-regulating transition water tank (1); the baffle (13) is provided with a first through groove, the inner wall of the first through groove is provided with a first movable groove, the first movable groove is internally provided with a sealing plate (16), and when the liquid level in the upper cavity is higher than the liquid level in the lower cavity, the sealing plate (16) moves towards the inside of the first movable groove.

2. The system for evaluating the capacity of the circulating water cooling tower equipment according to claim 1, wherein: a rotating roller (14) is arranged on the partition plate (13), a first push plate (141) is arranged on the rotating roller (14), and a cylinder (22) for driving the rotating roller (14) to rotate is arranged at the top of the temperature-adjusting transition water tank (1); the temperature sensor (150) is arranged above the first through groove; the sealing plate is characterized in that a sealing spring (161) and a first sliding block are arranged on the sealing plate (16), an electromagnet is arranged in the first movable groove, a first sliding groove matched with the first sliding block is formed in the inner wall of the first movable groove, and a first balancing weight (17) used for pulling the sealing plate (16) into the first movable groove is arranged in the temperature-adjusting transition water tank (1).

3. The system for evaluating the capacity of the circulating water cooling tower equipment according to claim 2, wherein: a first movable cavity is arranged on the inner wall of the temperature-adjusting transition water tank (1), a second movable groove is arranged on the side wall of the first movable cavity, the second movable groove is arranged in the lower cavity, the first balancing weight (17) is arranged in the first movable cavity, a first floating plate (171) is arranged at the bottom of the first balancing weight (17), the first floating plate (171) is arranged in the second movable groove in a penetrating way, a first connecting rod (172) is arranged on the first balancing weight (17), a first connecting block (173) is arranged at the top of the first connecting rod (172), a second connecting block (180) is arranged in the first movable cavity, a first limiting block (1801) for fixing the first connecting block (173) is arranged on the second connecting block (180), a third movable groove is formed in the inner wall of the upper cavity, and a second floating plate (18) used for driving the first limiting block (1801) to move towards the direction far away from the first connecting block (173) is arranged in the third movable groove; and a first connecting rope is arranged on the first balancing weight (17), and one end of the first connecting rope is fixedly connected to the first sliding block.

4. The system for evaluating the capacity of the circulating water cooling tower equipment according to claim 3, wherein: a third movable groove is formed in the second connecting block (180), the first limiting block (1801) is arranged in the third movable groove, a first connecting spring (1802) is arranged on the first limiting block (1801), and a limiting groove matched with the first limiting block (1801) is formed in the first connecting block (173); be equipped with the fourth activity groove on second connecting block (180), be equipped with second slider (11030) in the fourth activity groove, be equipped with first connecting plate (1104) on second slider (11030), be equipped with on the fourth activity inslot wall with the communicating fifth activity groove of third activity groove, be equipped with second connecting spring (1803) in the fifth activity groove, second connecting spring (1803) one end is equipped with fifth push pedal (1804), be equipped with first ejector pad (11040) on first connecting plate (1104).

5. The system for evaluating the capacity of the circulating water cooling tower equipment according to claim 4, wherein: a second movable cavity is arranged on the first connecting plate (1104), a second connecting plate (1108) is hinged to the inner wall of the second movable cavity, a third connecting plate (1109) is hinged to one end of the second connecting plate (1108), a sixth movable groove is formed in the second sliding block (11030), a through cavity communicated with the sixth movable groove is formed in the side wall of the second movable cavity, the first push block (11040) is arranged in the sixth movable groove, a third connecting spring is arranged on the first push block (11040), a first push rod (11010) penetrates through the through cavity, and a first limiting plate (11020) is arranged at one end of the first push rod (11010); the bottom of the second movable cavity is provided with a second through groove, a second push block (1105) is arranged in the second through groove in a penetrating mode, a second connecting rod (1107) is arranged on the inner wall of the second through groove, a seventh movable groove matched with the second connecting rod (1107) is arranged on the second push block (1105), and a first reset spring (1108) is arranged on the second connecting rod (1107).

6. The system for evaluating the capacity of the circulating water cooling tower equipment according to claim 4, wherein: a third connecting block (110) is arranged above the second connecting block (180), a third movable cavity is arranged on the third connecting block (110), a fourth connecting plate (1102) is arranged in the third movable cavity, a fourth connecting spring (1101) is arranged on the fourth connecting plate (1102), a third connecting rod (1103) is arranged at the bottom of the fourth connecting plate (1102), and the third connecting rod (1103) is fixedly connected to the first connecting plate (1104); a fourth movable cavity communicated with the third movable cavity is arranged on the third connecting block (110), a second push plate (1301) and a second balancing weight (1302) are arranged in the fourth movable cavity, and a second limiting block (1303) matched with the second balancing weight (1302) is arranged on the inner wall of the fourth movable cavity.

7. The system for evaluating the capacity of the circulating water cooling tower equipment according to claim 6, wherein: a fifth movable cavity is arranged on one side of the fourth movable cavity, a third connecting rod (19) and a fourth connecting rod (193) are arranged in the fifth movable cavity, a second connecting rope is arranged on the second balancing weight (1302), and one end of the second connecting rope is fixedly connected to the third connecting rod (19); a fifth connecting rod (191) is arranged on the third connecting rod (19), and a sixth connecting rod (192) is arranged on the fifth connecting rod (191); a fifth connecting plate (184) is arranged in the third movable groove, a sixth connecting plate (185) and a third sliding block (183) are arranged on the fifth connecting plate (184), the second floating plate (18) is arranged on the sixth connecting plate (185), a second sliding groove matched with the third sliding block (183) is formed in the inner wall of the third movable groove, and a fifth connecting rod (191) penetrates through the second sliding groove.

8. The system for evaluating the capacity of the circulating water cooling tower equipment according to claim 7, wherein: a twenty-first movable groove is formed in the bottom of the third movable groove, a tenth connecting rod (181) is arranged at the bottom of the fifth connecting plate (184), the tenth connecting rod (181) penetrates through the twenty-first movable groove, and a seventh push plate (182) is arranged at the bottom end of the tenth connecting rod (181); a second cavity communicated with the twenty-first movable groove is formed in the side wall of the fourth movable cavity, a seventh connecting plate (1305) is arranged in the second cavity, and an eighth connecting plate (1306) is arranged at the bottom of the seventh connecting plate (1305); a ninth movable groove is formed in the inner wall of the fourth movable cavity, the second limiting block (1303) is arranged in the ninth movable groove, a fifth connecting spring (1304) and a third connecting rope (1307) are arranged on the second limiting block (1303), and one end of the third connecting rope (1307) is fixedly connected to the seventh connecting plate (1305).

9. The system for evaluating the capacity of the circulating water cooling tower equipment according to claim 7, wherein: a sucker (1401) and a tenth movable groove are arranged at the top of the fourth movable cavity, the tenth movable groove is communicated with the inside of the sucker (1401), a fourth push plate (1402) is arranged in the tenth movable groove, a sixth connecting rod (1403) is arranged on the fourth push plate (1402), a ninth connecting plate (1404) is arranged on the sixth connecting rod (1403), a seventh connecting rod (1405) is arranged on the ninth connecting plate (1404), an eleventh movable groove matched with the seventh connecting rod (1405) is arranged at the top of the tenth movable groove, a second push rod (1406) is arranged on the seventh connecting rod (1405), a twelfth movable groove is arranged on the side wall of the fifth movable cavity, a third push rod (195) is arranged on the fourth connecting rod (193), and the third push rod (195) is arranged at the bottom of the second push rod (1406); the side wall of the fourth connecting rod (193) is provided with a fourth sliding block, the inner wall of the fifth movable cavity is provided with a third sliding groove matched with the fourth sliding block, the fourth sliding block is provided with a second reset spring, the third connecting rod (19) is provided with a fifth sliding block (194), and the fourth connecting rod (193) is provided with a fourth sliding groove matched with the fifth sliding block (194).

10. The system for evaluating the capacity of the circulating water cooling tower equipment according to claim 9, wherein: an eighth movable groove is formed in the inner wall of the first movable cavity, a first movable plate (120) is arranged in the eighth movable groove, a first cavity is formed in the side wall of the eighth movable groove, a third push plate (1201) is arranged on the first movable plate (120), and the third push plate (1201) penetrates through the first cavity; a thirteenth movable groove is formed in the inner wall of the tenth movable groove, a tenth connecting plate (1407) is arranged in the thirteenth movable groove, and a ratchet matched with the ninth connecting plate (1404) is arranged on the tenth connecting plate (1407); a third return spring (1408) and a sixth sliding block (14010) are arranged on the tenth connecting plate (1407); an air outlet is formed in the side wall of the tenth movable groove, a fourteenth movable groove communicated with the air outlet is formed in the side wall of the thirteenth movable groove, an eleventh connecting plate (1409) matched with the fourteenth movable groove is arranged on the tenth connecting plate (1407), and a third through groove matched with the air outlet is formed in the eleventh connecting plate (1409); still be equipped with on the tenth activity inslot wall with sixth slider (14010) matched with fifth spout, fifth spout one end be equipped with the communicating sixth activity chamber of first cavity, be equipped with fourth push rod (160) in the sixth activity intracavity, fourth push rod (160) one end is equipped with second limiting plate (1601), be equipped with sixth connecting spring (1602) on second limiting plate (1601).

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