CN213634236U - Automatic temperature measuring water distributor - Google Patents

Abstract

The utility model discloses an automatic temperature measurement water knockout drum, including the water storage tank, the raceway, the high-pressure pump, the cooling tank, detection module, control module and a plurality of distributive pipe, wherein, the one end of a plurality of distributive pipes communicates with the water storage tank respectively, the other end extends to the quilt cooling thing respectively, water piping connection is between water storage tank and cooling tank, the high-pressure pump sets up on the raceway, be provided with the refrigeration piece in the cooling tank, detection module is including setting up the first temperature detection piece on the water storage tank and setting up the second temperature detection piece on the quilt cooling thing, control module has a plurality of outputs and a plurality of input, refrigeration piece and high-pressure pump respectively with the output electric connection that corresponds, first temperature detection piece and second temperature detection piece respectively with the input electric connection that corresponds. The utility model discloses an automatic temperature measurement water knockout drum can come the control cooling water temperature according to the concrete temperature in real time, prevents that unfavorable condition such as the concrete high temperature or cooling rate is too fast from appearing, avoids causing the hidden danger to construction quality.

Description

Automatic temperature measuring water distributor

Technical Field

The utility model relates to a concrete construction technical field, in particular to automatic temperature measurement water knockout drum.

Background

In bulky concrete construction, traditional concrete's cooling measures to lean on the cooling cycle water cooling, but in actual work progress, the temperature of cooling water is difficult to control to can not adjust cooling water temperature according to the inside temperature condition of cooling water in real time, appear the unfavorable condition such as the inside high temperature of concrete easily and cooling rate is too fast, lead to the concrete to appear the crack very probably, cause the hidden danger to construction quality.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides an automatic temperature measurement water knockout drum can come the control cooling water temperature according to the concrete temperature in real time, prevents that unfavorable condition such as the concrete high temperature or cooling rate are too fast from appearing, avoids causing the hidden danger to construction quality.

According to the utility model discloses automatic temperature measurement water knockout drum, include: a water storage tank; one end of each water distribution pipe is communicated with the water storage tank, and the other end of each water distribution pipe extends towards the cooled object; one end of the water delivery pipe is communicated with the water storage tank; the high-pressure pump is arranged on the water conveying pipe; the cooling tank is internally provided with a refrigerating piece and is communicated with the other end of the water conveying pipe; the detection module comprises a first temperature detection piece arranged on the water storage tank and a second temperature detection piece arranged on the cooled object; the control module is provided with a plurality of output ends and a plurality of input ends, the refrigeration piece and the high-pressure pump are respectively electrically connected with the corresponding output ends, and the first temperature detection piece and the second temperature detection piece are respectively electrically connected with the corresponding input ends.

According to the utility model discloses automatic temperature measurement water knockout drum has following beneficial effect at least: the water storage tank is used for containing cooling water, and the cooling water is conveyed to the cooled object through a plurality of water distribution pipes arranged on the water storage tank to cool the cooled object; a refrigerating piece is arranged in the cooling tank, the refrigerating piece can refrigerate the water body in the cooling tank, and the cooling water in the cooling tank can be conveyed to the water storage tank through a water conveying pipe; the high-pressure pump is arranged on the water conveying pipe and used for providing power for conveying cooling water; the detection module comprises a first temperature detection piece arranged on the water storage tank and a second temperature detection piece arranged on a cooled object, the first temperature detection piece and the second temperature detection piece are temperature sensors in the actual construction process, the cooled object is concrete, and the first temperature detection piece and the second temperature detection piece are respectively used for detecting the temperature of cooling water in the water storage tank and the temperature of the concrete; control module has a plurality of outputs and a plurality of input, first temperature detects the piece and the second temperature detects the piece and exports the temperature signal of cooling water and the temperature signal of concrete to control module through the input that corresponds respectively, control module receives corresponding temperature signal, and the output that the accessible corresponds controls refrigeration piece, take the mode control cooling water temperature that changes refrigeration piece power, prevent unfavorable condition such as the too high temperature or cooling rate is too fast that appear in the concrete, improve construction quality.

According to some embodiments of the utility model, every all be provided with first valve, every on the distributive pipe first valve respectively with correspond output electric connection.

Through all setting up first valve on every distributive pipe to every first valve and the output electric connection that control module corresponds make control module accessible control first valve realize the control to corresponding distributive pipe flow, reach the purpose of accurate control concrete temperature.

According to some embodiments of the utility model, every still be provided with the flowmeter on the distributive pipe, every the flowmeter respectively with correspond input electric connection.

The flow meters are arranged on each water distribution pipe, so that the flow of each water distribution pipe can be monitored in real time, and the first valve can be adjusted conveniently through corresponding flow information.

According to some embodiments of the utility model, be provided with the second valve on the raceway, the second valve with correspond output electric connection.

Set up the second valve on the raceway to second valve and control module's output electric connection, but control module is through controlling the cooling water flow on the second valve real-time control raceway, prevents that cooling water flow from too big causing the impact to the water storage tank, and prevents that cooling water flow undersize makes the water storage tank can't in time go out water through the distributive pipe.

According to some embodiments of the utility model, be provided with the circulation water inlet on the cooling tank, every the distributive pipe all passes by the cooling thing and respectively with circulation water inlet intercommunication.

The distributive pipe passes through the object to be cooled to realize the cooling of the inside of the object to be cooled, and the distributive pipe also conveys cooling water back to the cooling tank through the circulating water inlet, so that the cyclic utilization of the cooling water is realized, and the resource waste is prevented.

According to some embodiments of the utility model, still be provided with the circulation water inlet on the cooling tank, every the distributive pipe all twine in on the quilt cooling object and respectively with circulation water inlet intercommunication.

The distributive pipe is wound on the cooled object, the cooled object is cooled from the outside of the cooled object, and the distributive pipe also conveys cooling water back to the cooling tank through the circulating water inlet, so that the cooling water is recycled, and the resource waste is prevented.

According to some embodiments of the utility model, be provided with the installing port on the water storage tank, the one end of first temperature detection spare is passed the installing port to the inside extension of water storage tank, first temperature detection spare with be provided with ring type seal between the installing port.

The one end of first temperature detection spare passes the installing port and extends to water storage tank inside, and the one end of first temperature detection spare can contact with the cooling water in the water storage tank, realizes that the temperature detects, and ring packing sets up between first temperature detection spare and installing port, realizes sealedly, prevents that the cooling water from flowing from the installing port.

According to some embodiments of the utility model, still be provided with the safety cover on the water storage tank, first temperature detection spare is located in the safety cover.

The first temperature detection piece is protected by a protection cover to prevent damage.

In some embodiments of the present invention, the water storage tank further comprises a water level gauge disposed in the cooling tank and/or the water storage tank.

Through set up the fluviograph in cooling tank and/or water storage tank, be convenient for observe the cooling water depth in cooling tank and/or the water storage tank, detect when the cooling water is not enough, but in time supply.

In some embodiments of the present invention, the cooling tank and/or the water storage tank further comprises an ultrasonic generator disposed on the cooling tank and/or the water storage tank.

By providing an ultrasonic generator in the cooling tank and/or the water storage tank, the ultrasonic generator can be used to emit ultrasonic waves to prevent scale from being generated in the cooling tank and/or the water storage tank.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural view of the automatic temperature measuring water separator according to the embodiment of the present invention.

Reference numerals:

the water storage tank 100, the water distribution pipe 200, the water delivery pipe 300, the high-pressure pump 400, the cooling tank 500 and the refrigerating element 510;

the temperature detection device comprises a detection module 600, a first temperature detection piece 610 and a second temperature detection piece 620;

a first valve 700, a flowmeter 800, a second valve 900, a water level gauge 1000, an ultrasonic generator 1100, and an object to be cooled 1200.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, the meaning of a plurality is two or more, and if there is a description that the first and the second are only used for distinguishing technical features, it is not understood that the indication or the implication of relative importance or the implication of indicating the number of the indicated technical features or the implication of indicating the precedence of the indicated technical features.

In the description of the present invention, unless there is an explicit limitation, the words such as setting, installation, connection, etc. should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above words in combination with the specific contents of the technical solution.

Referring to fig. 1, the automatic temperature measuring water separator according to the embodiment of the present invention includes a water storage tank 100, a water pipe 300, a high pressure pump 400, a cooling tank 500, a detection module 600, a control module (not shown), and a plurality of water separation pipes 200.

Wherein, the one end of a plurality of distributive pipes 200 communicates with water storage tank 100 respectively, the other end extends to cooled object 1200 respectively, raceway 300 is connected between water storage tank 100 and cooling tank 500, high-pressure pump 400 sets up on raceway 300, be provided with refrigeration piece 510 in cooling tank 500, detection module 600 is including setting up first temperature detection piece 610 on water storage tank 100 and setting up the second temperature detection piece 620 on cooled object 1200, control module has a plurality of outputs and a plurality of input, refrigeration piece 510 and high-pressure pump 400 respectively with the output electric connection that corresponds, first temperature detection piece 610 and second temperature detection piece 620 respectively with the input electric connection that corresponds.

The water storage tank 100 may be used to store cooling water, one end of each of the plurality of water distribution pipes 200 is respectively communicated with the water storage tank 100, and the other end of each of the plurality of water distribution pipes extends toward the object 1200 to be cooled, so as to guide the cooling water toward the object 1200 to be cooled, the object 1200 may be concrete during actual use, the refrigerating member 510 is disposed in the cooling tank 500 and is used to refrigerate the water in the cooling tank 500, the water pipe 300 is communicated with the water storage tank 100 and the cooling tank 500, so that the cooling water in the cooling tank 500 may be transported toward the water storage tank 100 through the water pipe 300, the high-pressure pump 400 is disposed on the water pipe 300 and is used to provide power for the transmission of the cooling water, the detection module 600 includes a first temperature detection member 610 disposed on the water storage tank 100 and a second temperature detection member 620 disposed on the object 1200, the first temperature detection member 610 and the second temperature detection member 620 are respectively used to detect the temperature of the cooling water in the water storage, the control module has a plurality of outputs and a plurality of inputs, first temperature detection piece 610 and second temperature detection piece 620 respectively through the input that corresponds with the temperature signal of cooling water and the temperature signal of concrete to control module output, refrigeration piece 510 and high-pressure pump 400 respectively with the output electric connection that corresponds, control module receives corresponding temperature signal, and the output that the accessible corresponds controls refrigeration piece 510, adopt the mode control cooling water temperature of changing refrigeration piece 510 power, also can be through the start-up or the stop of control high-pressure pump 400, and then control water knockout drum cooling water flow state, prevent unfavorable condition such as the concrete high temperature or cooling rate is too fast from appearing, construction quality is improved.

It is worth mentioning that the embodiment of the present invention provides a first temperature detecting element 610 and a second temperature detecting element both capable of being temperature sensors or thermometers, and a control module capable of being an electric cabinet or a PLC.

It is conceivable that each of the water distribution pipes 200 is provided with a first valve 700, and each of the first valves 700 is electrically connected to a corresponding output terminal.

Referring to fig. 1, each of the water distribution pipes 200 is provided with a first valve 700, and each of the first valves 700 is electrically connected to the corresponding output end of the control module, so that the control module can control the flow of the corresponding water distribution pipe 200 by controlling the first valve 700, thereby achieving the purpose of accurately controlling the temperature of the concrete.

It should be noted that the first valve 700 may be a throttle valve, a speed regulating valve, or other valves with flow regulating function.

It is contemplated that a flow meter 800 is also disposed on each of the knock out pipes 200, each flow meter 800 being electrically connected to a corresponding input.

The flow meter 800 is arranged on each water distribution pipe 200, so that the flow of each water distribution pipe 200 can be monitored in real time, the corresponding first valve 700 can be adjusted according to the detected temperature of cooling water and the cooled object 1200 and the flow of each water distribution pipe 200, and the purpose of accurately controlling the temperature of the cooled object 1200 is achieved. The flow information read by the flow meter 800 can effectively reflect the corresponding operating state of the first valve 700.

It is conceivable that the water pipe 300 is further provided with a second valve 900, and the second valve 900 is electrically connected to the corresponding output end.

Referring to fig. 1, the second valve 900 is disposed on the water pipe 300, and the second valve 900 is electrically connected to the output end of the control module, and the control module can control the cooling water flow on the water pipe 300 in real time by controlling the second valve 900, so as to prevent the water storage tank 100 from being impacted by the excessively large cooling water flow, and prevent the water storage tank 100 from being discharged water through the water distribution pipe 200 in time due to the excessively small cooling water flow.

It is conceivable that the cooling tank 500 is provided with a circulation water inlet, and each of the water distribution pipes 200 passes through the object to be cooled 1200 and is respectively communicated with the circulation water inlet.

Referring to fig. 1, the water diversion pipes 200 may pass through an object 1200 to be cooled, so that cooling water flows through the inside of the object 1200 to cool the inside of the object 1200, and a circulation water inlet is further disposed in the cooling tank 500, and the other end of each water diversion pipe 200 is communicated with the circulation water inlet, so that the cooling water is transported back to the cooling tank 500, thereby achieving recycling of the cooling water and preventing resource waste.

It is conceivable that the cooling tank 500 is further provided with a circulation water inlet, and each of the water distribution pipes 200 is wound around the object 1200 to be cooled and is respectively communicated with the circulation water inlet.

The water diversion pipe 200 is wound on the cooled object 1200, the contact area between the water diversion pipe 200 and the cooled object 1200 is increased, the cooled object 1200 is cooled from the outside of the cooled object 1200, and the water diversion pipe 200 conveys cooling water back to the cooling tank 500 through a circulating water inlet, so that the cooling water is recycled, and the resource waste is prevented.

It is conceivable that the water storage tank 100 is provided with a mounting opening, one end of the first temperature detector 610 passes through the mounting opening and extends into the water storage tank 100, and an annular sealing ring is arranged between the first temperature detector 610 and the mounting opening.

Referring to fig. 1, a mounting opening is formed in the water storage tank 100, one end of the first temperature detection piece 610 penetrates through the mounting opening and extends towards the inside of the water storage tank 100, one end of the first temperature detection piece 610 can be in contact with cooling water in the water storage tank 100 to achieve temperature detection, and the annular sealing ring is arranged between the first temperature detection piece 610 and the mounting opening to achieve sealing and prevent the cooling water from flowing out of the mounting opening.

It is conceivable that a protective cover is further provided on the water storage tank 100, and the first temperature detection member 610 is located inside the protective cover.

By providing the protection cover on the water storage tank 100 and the first temperature detection member 610 within the protection cover, the first temperature detection member 610 can be prevented from being damaged.

It is contemplated that a water level gauge 1000 is further provided in the cooling tank 500 and/or the water storage tank 100, and the water level gauge 1000 may be used to detect a water level in the cooling tank 500 and/or the water storage tank 100, detect that the cooling water is insufficient, stop the high pressure pump 400 and timely supplement the water, and prevent the high pressure pump 400 from operating in an abnormal state.

It is conceivable that the cooling tank 500 and/or the water storage tank 100 are further provided with an ultrasonic generator 1100, the ultrasonic generator 1100. By providing the ultrasonic generator 1100 in the cooling tank 500 and/or the water storage tank 100, the ultrasonic generator 1100 may be used to emit ultrasonic waves, prevent scale from being generated in the cooling tank 500 and/or the water storage tank 100, and prevent the scale from affecting the flowing effect of the cooling water.

So to mention, the refrigerating element 510 may be a refrigerator, and the evaporator of the refrigerator is disposed in the cooling tank 500, so that the cooling water may be cooled by evaporation of the refrigerant.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (10)

1. An automatic temperature measurement water knockout drum, its characterized in that includes:

a water storage tank;

one end of each water distribution pipe is communicated with the water storage tank, and the other end of each water distribution pipe extends towards the cooled object;

one end of the water delivery pipe is communicated with the water storage tank;

the high-pressure pump is arranged on the water conveying pipe;

the cooling tank is internally provided with a refrigerating piece and is communicated with the other end of the water conveying pipe;

the detection module comprises a first temperature detection piece arranged on the water storage tank and a second temperature detection piece arranged on the cooled object;

the control module is provided with a plurality of output ends and a plurality of input ends, the refrigeration piece and the high-pressure pump are respectively electrically connected with the corresponding output ends, and the first temperature detection piece and the second temperature detection piece are respectively electrically connected with the corresponding input ends.

2. The automatic temperature measuring water separator according to claim 1, wherein: and each water distribution pipe is provided with a first valve, and each first valve is electrically connected with the corresponding output end.

3. The automatic temperature measuring water separator according to claim 2, wherein: each water distribution pipe is also provided with a flow meter, and each flow meter is electrically connected with the corresponding input end.

4. The automatic temperature measuring water separator according to any one of claims 1-3, wherein: and the water conveying pipe is provided with a second valve which is electrically connected with the corresponding output end.

5. The automatic temperature measuring water separator according to any one of claims 1-3, wherein: and a circulating water inlet is formed in the cooling tank, and each water distribution pipe penetrates through the cooled object and is respectively communicated with the circulating water inlet.

6. The automatic temperature measuring water separator according to any one of claims 1-3, wherein: and the cooling tank is also provided with a circulating water inlet, and each water distribution pipe is wound on the cooled object and is respectively communicated with the circulating water inlet.

7. The automatic temperature measuring water separator according to claim 1, wherein: the water storage tank is provided with a mounting hole, one end of the first temperature detection piece penetrates through the mounting hole to the inside of the water storage tank, and an annular sealing ring is arranged between the first temperature detection piece and the mounting hole.

8. The automatic temperature measuring water separator according to claim 7, wherein: still be provided with the safety cover on the water storage tank, first temperature detects the piece and is located in the safety cover.

9. The automatic temperature measuring water separator according to any one of claims 1-3, wherein: the water-cooling water tank further comprises a water level meter arranged in the cooling tank and/or the water storage tank.

10. The automatic temperature measuring water separator according to any one of claims 1-3, wherein: the ultrasonic generator is arranged on the cooling tank and/or the water storage tank.

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