CN112594922A

CN112594922A - Device for controlling water body temperature

Info

Publication number: CN112594922A
Application number: CN202011477272.2A
Authority: CN
Inventors: 雷冬阁; 吴飞; 刘江南; 王海伦
Original assignee: Quzhou University
Current assignee: Quzhou University
Priority date: 2020-12-15
Filing date: 2020-12-15
Publication date: 2021-04-02

Abstract

The invention provides a device for controlling the temperature of a water body, and belongs to the field of water tanks. It includes the thermostated container, the thermostated container in be equipped with the water cavity, the water cavity communicate respectively and have hot warm chamber and cold warm chamber, hot warm chamber through hot warm import and hot warm export and water cavity intercommunication, cold warm chamber through cold warm import and cold warm export and water cavity intercommunication, hot warm intracavity be equipped with the piece that heats, cold warm intracavity be equipped with the refrigeration piece, just hot warm chamber and cold warm intracavity all be equipped with the drive flow piece that makes water follow import flow direction export, hot warm chamber and cold warm chamber correspond respectively and have a circulation mechanism that makes the import of rivers flow direction correspondence.

Description

Device for controlling water body temperature

Technical Field

The invention belongs to the field of water tanks, and particularly relates to a device for controlling the temperature of a water body.

Background

In the pharmaceutical industry, whether in research or general storage of drugs, the placement of some drugs is temperature conditioned, requiring the drugs to be placed in an incubator for a long time and conditioned at a specified temperature. Because the specific heat capacity of water is greater than the specific heat capacity of air, consequently compare in air thermostated container, thermostated container has better heat preservation effect, but because the propagation velocity of water is slower than the air, hotter speed is slow, and the while heating in-process temperature is inhomogeneous, influences the accurate control of temperature, also leads to heating efficiency low, consequently needs a mechanism that can quick temperature regulation water level.

For example, chinese patent document discloses a constant temperature circulation tank [ patent application No.: CN201810090268.7], including water tank shell, water tank box, water pump, play water assembly, subassembly, heating plate, controlling means and temperature sensor, the water tank box sets up in the water tank shell, the end of intaking of water pump with the water tank box passes through the tube coupling, the play water end of water pump with it connects to go out the water assembly, it is used for holding the intercommunication with the intaking of treating homothermal equipment or article to go out the water assembly, it sets up to intake the subassembly on the water tank box, intake the subassembly with the water tank box intercommunication, it is used for holding the play water end intercommunication of homothermal equipment or article to intake the subassembly.

Disclosure of Invention

The invention aims to solve the problems and provide a device for controlling the temperature of a water body.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a device for water temperature control, includes the thermostated container, the thermostated container in be equipped with the water cavity, the water cavity communicate respectively and have hot warm chamber and cold warm chamber, hot warm chamber through hot temperature import and hot temperature export and water cavity intercommunication, cold warm chamber through cold temperature import and cold temperature export and water cavity intercommunication, hot warm intracavity be equipped with the piece that heats, cold warm intracavity be equipped with the piece that refrigerates, just hot warm chamber and cold warm intracavity all be equipped with the drive flow piece that makes water follow import flow direction export, hot warm chamber and cold warm chamber correspond respectively and have a circulation mechanism that makes the import of rivers flow direction correspondence.

In foretell a device for water temperature control, hot warm chamber and cold warm chamber be vertical setting, hot warm import be located the one of them one end in hot warm chamber and water cavity, hot warm export is located the other end in hot warm chamber and water cavity, cold warm import be located the one of them one end in cold warm chamber and water cavity, cold warm export is located the other end in cold warm chamber and water cavity, drive flow move the piece for promoting the auger, two promote the auger and rotate with hot warm chamber and cold warm chamber respectively and be connected, and two promote the auger and extend to the other end from the one end in hot warm chamber and cold warm chamber respectively. .

In foretell a device for water temperature control, the jackshaft cavity that is located the promotion auger of hot temperature intracavity sets up, and is equipped with a plurality of connecting strips that set up along its central line on this the jackshaft that promotes the auger, connecting strip make this inner space and the hot temperature chamber intercommunication of the jackshaft that promotes the auger, the piece that heats be the heating rod, the heating rod set up the inner space at this jackshaft that promotes the auger.

In foretell a device for water temperature control, two wherein one ends that promote the auger extend into the thermostated container respectively and all are connected with driven gear, each driven gear meshing is connected with the driving gear, the driving gear be connected with and rotate the motor, the diameter of driving gear be greater than driven gear's diameter, the tip that the rotation motor was kept away from in hot temperature chamber have the heating power supply that sets up on the thermostated container and be connected with the heating rod.

In foretell a device for water temperature control, the refrigeration piece including the refrigeration case, the refrigeration case be connected with the exchange tube, the exchange tube extend into cold warm intracavity, and the exchange tube from the one end spiral winding that promotes the auger to the other end.

In the above device for controlling the temperature of the water body, the density of the exchange tube near the cold-temperature inlet is less than that near the cold-temperature outlet.

In foretell a device for water temperature control, hot temperature import and cold temperature import be located the top and the bottom in water cavity respectively, circulation mechanism include first crossbearer, two first crossbearers correspond with hot temperature import and cold temperature import respectively, and two first crossbearers are located the top and the bottom in water cavity respectively, rotate respectively on two first crossbearers and be connected with a plurality of pivot, the pivot on be equipped with a plurality of flabellum.

In foretell a device for water temperature control, the tip that the hot temperature import was kept away from to the first crosspiece that is located the top and the tip that the cold temperature import was kept away from to the first crosspiece that is located the bottom all is connected with the second crosspiece, the second crosspiece on also be connected with a plurality of pivot to and be equipped with a plurality of flabellum in the pivot.

In foretell a device for water temperature control, first crossbearer be L shape rather than the second crossbearer of being connected, the equal parallel arrangement in cold warm chamber in second crossbearer and hot warm chamber, first crossbearer is connected through a plurality of hold-in range rather than a plurality of pivot on the second crossbearer of being connected, and at least one pivot is connected with drives the commentaries on classics motor.

In the above device for controlling water temperature, thermometers are arranged in the hot temperature inlet, the hot temperature outlet, the cold temperature inlet, the cold temperature outlet and the water cavity.

Compared with the prior art, the invention has the advantages that:

1. the invention has the effects of refrigeration and heating, and in the process, the water flow enters the corresponding temperature adjusting cavity, flows towards the outlet of the temperature adjusting cavity, fully carries out heat exchange to reach the specified temperature and flows into the water cavity again.

2. The heating rod is arranged in the inner space of one intermediate shaft for pushing the packing auger, so that water flow continuously exchanges heat with the heating rod, and the effect of full exchange is achieved.

3. The pushing auger in the cold-warm cavity is spirally wound with the exchange tube, so that water flow continuously exchanges heat with the exchange tube, and the effect of full exchange is achieved.

4. The rotating shaft and the fan blades on the second transverse block arranged on the other side far away from the inlet and the outlet also rotate, and the fan blades on the first transverse block are matched to enable water flow to flow towards the corresponding inlet, so that the heat exchange efficiency is improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic cross-sectional view at the first cross-piece of FIG. 1;

FIG. 3 is a schematic cross-sectional view of the auger pushing in the cold and warm chamber.

In the figure: the device comprises a constant temperature box 10, a water cavity 11, a hot temperature cavity 12, a cold temperature cavity 13, a hot temperature inlet 14, a hot temperature outlet 15, a cold temperature inlet 16, a cold temperature outlet 17, a circulating mechanism 18, a pushing auger 19, a communicating strip 20, a heating rod 21, a driven gear 22, a driving gear 23, a rotating motor 24, a refrigerating box 25, an exchange tube 26, a first cross block 27, a rotating shaft 28, a fan blade 29, a second cross block 30, a synchronous belt 31 and a thermometer 32.

Detailed Description

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

Combine shown in fig. 1-3, a device for water temperature control, includes thermostated container 10, thermostated container 10 in be equipped with water cavity 11, water cavity 11 communicate respectively has hot temperature chamber 12 and cold temperature chamber 13, hot temperature chamber 12 through hot temperature import 14 and hot temperature export 15 and water cavity 11 intercommunication, cold temperature chamber 13 through cold temperature import 16 and cold temperature export 17 and water cavity 11 intercommunication, hot temperature chamber 12 in be equipped with the piece that heats, cold temperature chamber 13 in be equipped with the piece that refrigerates, just hot temperature chamber 12 and cold temperature chamber 13 in all be equipped with the drive flow piece that makes water follow import flow direction export, hot temperature chamber 12 and cold temperature chamber 13 respectively correspond and have a circulation mechanism 18 that makes the import that rivers flow direction corresponds.

In this embodiment, the temperature of the water in the water cavity 11 needs to be set at a constant temperature, and when the temperature of the water cavity 11 drops to a predetermined temperature, the driving flow member in the thermal cavity 12 and the circulation mechanism 18 corresponding to the thermal cavity 12 operate to make the water in the water cavity 11 flow into the thermal inlet 14, and make the water in the thermal cavity 12 flow from the thermal inlet 14 to the thermal outlet 15, so as to make the water flow circulate. In the process that water flows in the hot temperature cavity 12, the heating part heats the temperature of the water flow, so that the temperature of the water in the water cavity 11 is raised to a specified temperature;

when the temperature of the water cavity 11 rises to a specified temperature, the driving flow member in the cold-warm cavity 13 and the circulation mechanism 18 corresponding to the cold-warm cavity 13 work to make the water in the water cavity 11 flow into the cold-warm inlet 16, and make the water in the cold-warm cavity 13 flow from the cold-warm inlet 16 to the cold-warm outlet 17, so that the water flows circularly. During the water flow in the cold-warm chamber 3, the cooling element reduces the temperature of the water flow, so that the temperature of the water in the water chamber 11 is reduced to a specified temperature.

Hot warm chamber 12 and cold warm chamber 13 be vertical setting, hot warm import 14 be located the wherein one end in water chamber 11, hot warm export 15 is located the other end in water chamber 11, cold warm import 16 be located the wherein one end in water chamber 11, cold warm export 17 is located the other end in water chamber 11, drive flow move the piece for promoting auger 19, two promote auger 19 to rotate with hot warm chamber 12 and cold warm chamber 13 respectively and be connected, and two promote auger 19 and extend to the other end from the one end in hot warm chamber 12 and cold warm chamber 13 respectively.

In this embodiment, the hot temperature inlet 14 and the hot temperature outlet 15 are respectively located at two ends of the water cavity 11, and the cold temperature inlet 16 and the cold temperature outlet 17 are respectively located at two ends of the water cavity 11, so that water in the water cavity 11 is subjected to temperature adjustment of the hot temperature cavity 12 or the cold temperature cavity 13 and then is completely neutralized with water in the water cavity 11 for sufficient heat exchange, rather than being sucked into the hot temperature cavity 12 or the cold temperature cavity 13 by the inlets without sufficient heat exchange being performed uniformly. In addition, when the pushing auger 19 rotates, the rotation of the blades has the function of enabling the water flow to move forwards along the direction of the central line of the blades, and the rotation of the pushing auger 19 enables the water flow in the hot temperature cavity 12 or the cold temperature cavity 13 to flow from the inlet to the outlet.

The jackshaft cavity that promotes auger 19 that is located hot warm chamber 12 sets up, and should promote and be equipped with a plurality of intercommunication strips 20 that set up along its central line on auger 19's the jackshaft, intercommunication strip 20 make the inner space and the hot warm chamber 12 intercommunication of this jackshaft that promotes auger 19, the piece of heating be heating rod 21, heating rod 21 set up the inner space at this jackshaft that promotes auger 19.

In the embodiment, in the heating process, when water flows in the hot temperature cavity 12, the auger 19 is pushed to rotate so that the water flow in the hot temperature cavity 12 flows from the hot temperature inlet 14 to the hot temperature outlet 15, so that in the flowing process, the water flow continuously exchanges heat with the heating rod 21, thereby achieving the effect of sufficient exchange, and the water flow reaches the specified temperature when passing through the hot temperature outlet 15.

Two wherein one ends that promote auger 19 extend respectively and just all are connected with driven gear 22 in going into thermostated container 10, each driven gear 22 meshing is connected with driving gear 23, driving gear 23 be connected with rotation motor 24, driving gear 23's diameter be greater than driven gear 22's diameter, hot temperature chamber 12 keep away from the tip that rotates motor 24 and have the heating power supply who sets up on thermostated container 10 and be connected with heating rod 21.

In the embodiment, the diameter of the driving gear 23 is larger than that of the driven gear 22, so that the rotating speed of the pushing auger 19 is controlled in a proper state, and the water flow turbulence caused by the excessively high rotating speed of the pushing auger 19 is prevented. And the output power of the rotating motor 24 can be controlled to control the rotating speed of the auger 19, and the output power of the heating power supply is controlled to control the heating temperature of the heating rod 21.

The refrigeration piece including refrigeration case 25, refrigeration case 25 be connected with exchange tube 26, exchange tube 26 extend into cold warm chamber 13 in, and exchange tube 26 from the one end spiral winding that promotes auger 19 to the other end.

In this embodiment, when the water flows in the cold-warm chamber 13, the auger 19 is pushed to rotate so that the water flow in the cold-warm chamber 13 flows from the cold-warm inlet 16 to the cold-warm outlet 17, and the low-temperature liquid refrigerated by the refrigeration box 25 flows in the exchange tube 26, so that the water flow continuously exchanges heat with the exchange tube 26 in the flowing process, thereby achieving the effect of sufficient exchange, and reducing the water flow to the designated temperature when passing through the cold-warm outlet 17.

The density of the exchange tube 26 close to the cold-warm inlet 16 is less than that close to the cold-warm outlet 17.

In the present embodiment, since the temperature of the exchanging tube 26 is increased after the heat exchange with the water passing through the cold-hot inlet 16, the density of the exchanging tube 26 at the subsequent stage is increased for the purpose of performing the sufficient heat exchange.

Hot temperature import 14 and cold temperature import 16 be located the top and the bottom of water cavity 11 respectively, circulation mechanism 18 include first crosspiece 27, two first crosspieces 27 correspond with hot temperature import 14 and cold temperature import 16 respectively, and two first crosspieces 27 are located the top and the bottom of water cavity 11 respectively, rotate respectively on two first crosspieces 27 and are connected with a plurality of pivot 28, pivot 28 on be equipped with a plurality of flabellum 29.

In this embodiment, during the temperature adjustment process, the plurality of rotating shafts 28 on the corresponding first cross pieces 27 rotate, so that the water in the water cavity 11 is promoted to flow by the rotation of the fan blades 29, and during the flow process, the rotation of the fan blades 29 causes the water to flow to the corresponding inlets, so that the water rapidly enters the hot temperature cavity 12 or the cold temperature cavity 13 and performs the water circulation flow.

The end part of the first transverse block 27 at the top, which is far away from the hot temperature inlet 14, and the end part of the first transverse block 27 at the bottom, which is far away from the cold temperature inlet 16, are both connected with a second transverse block 30, the second transverse block 30 is also connected with a plurality of rotating shafts 28, and a plurality of fan blades 29 are arranged on the rotating shafts 28.

In this embodiment, since the inlet and the outlet are located at one side of the water cavity 11 during the cooling or heating process, the water on the opposite side is relatively far away from the inlet and the outlet, so that the circulation effect is relatively poor, and the water in this area can flow to the inlet only slowly or has relatively poor heat exchange effect with the water flowing out of the outlet, resulting in relatively slow water temperature change. The shaft 28 and the vanes 29 of the second cross-piece 30, which is disposed further away, rotate to cooperate with the vanes 29 of the first cross-piece 27 to direct the flow of water toward its respective inlet.

First horizontal piece 27 and the second horizontal piece 30 of being connected are L shape, second horizontal piece 30 and the equal parallel arrangement in the cold warm chamber 13 in hot warm chamber 12, a plurality of pivot 28 on first horizontal piece 27 and the second horizontal piece 30 of being connected is connected through a plurality of hold-in ranges 31, and at least one pivot 28 is connected with drives the commentaries on classics motor.

Thermometers 32 are arranged in the hot temperature inlet 14, the hot temperature outlet 15, the cold temperature inlet 16, the cold temperature outlet 17 and the water cavity 11.

In the present embodiment, the thermometer 32 in the water chamber 11 monitors the temperature in the water chamber 11, and starts the cooling or heating operation when the temperature deviates from a designated temperature. Thermometers 32 in the warm-temperature outlet 15 and the cold-temperature outlet 17 are used to monitor whether or not the water flowing out of the warm-temperature outlet 15 and the cold-temperature outlet 17 is sufficiently heat-exchanged to reach a prescribed temperature. Thermometers 32 in the warm inlet 14 and the cool inlet 16 are used to monitor whether the temperature in the water chamber 11 has reached a specified temperature and is not operating in need of cooling or heating.

Preferably, the first and

second cross pieces

27 and 30 are hidden in the inner wall of the water chamber 11 when not in use, and the first and

second cross pieces

27 and 30 are extended into the water chamber 11 by the traversing cylinder or oil cylinder when in use. When not in use, does not occupy the space of the water chamber 11.

The working principle of the invention is as follows: when the temperature in the water cavity 11 is reduced and deviates from the designated temperature, the heating step is started, the auger 19 in the hot-temperature cavity 12 is pushed to rotate, the fan blades 29 on the first transverse block 27 and the second transverse block 30 corresponding to the hot-temperature cavity 12 rotate, so that the water in the water cavity 11 enters the hot-temperature inlet 14 and flows in the hot-temperature cavity 12, the auger 19 is pushed to rotate, the water flow in the hot-temperature cavity 12 flows from the hot-temperature inlet 14 to the hot-temperature outlet 15, therefore, the water flow continuously exchanges heat with the heating rod 21 in the flowing process, the effect of sufficient exchange is achieved, and the water flow reaches the designated temperature when passing through the hot-temperature outlet 15. When the temperature in the water cavity 11 rises and deviates from the designated temperature, the refrigeration step is started, the auger 19 pushed in the cold-warm cavity 13 rotates, the fan blades 29 on the first cross block 27 and the second cross block 30 corresponding to the cold-warm cavity 13 rotate, so that the water in the water cavity 11 enters the cold-warm inlet 16 and flows in the cold-warm cavity 13, the auger 19 is pushed to rotate, the water flow in the cold-warm cavity 13 flows from the cold-warm inlet 16 to the cold-warm outlet 17, and the low-temperature liquid refrigerated by the refrigeration box 25 flows in the exchange tube 26, therefore, in the flowing process, the water flow continuously exchanges heat with the exchange tube 26, the effect of full exchange is achieved, and the water flow is reduced to the designated temperature when passing through the cold-warm outlet 17.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Although the incubator 10, the water chamber 11, the hot chamber 12, the cold chamber 13, the hot inlet 14, the hot outlet 15, the cold inlet 16, the cold outlet 17, the circulating mechanism 18, the pushing auger 19, the communication bar 20, the heating rod 21, the driven gear 22, the driving gear 23, the rotating motor 24, the refrigerating chamber 25, the exchanging pipe 26, the first cross piece 27, the rotating shaft 28, the fan blade 29, the second cross piece 30, the timing belt 31, the thermometer 32, etc. are used more frequently herein, these terms are used only for convenience of describing and explaining the essence of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims

1. A device for controlling the temperature of a water body comprises a constant temperature box (10), a water cavity (11) is arranged in the constant temperature box (10), the water cavity (11) is respectively communicated with a hot temperature cavity (12) and a cold temperature cavity (13), it is characterized in that the hot temperature cavity (12) is communicated with the water cavity (11) through a hot temperature inlet (14) and a hot temperature outlet (15), the cold-warm cavity (13) is communicated with the water cavity (11) through a cold-warm inlet (16) and a cold-warm outlet (17), a heating part is arranged in the hot temperature cavity (12), a refrigerating part is arranged in the cold temperature cavity (13), and the hot temperature cavity (12) and the cold temperature cavity (13) are internally provided with driving flow parts which enable water to flow from the inlet to the outlet, the hot temperature cavity (12) and the cold temperature cavity (13) are respectively and correspondingly provided with a circulating mechanism (18) which enables water flow to the corresponding inlet.

2. The device for controlling the temperature of the water body according to claim 1, wherein the hot temperature chamber (12) and the cold temperature chamber (13) are vertically arranged, the hot temperature inlet (14) is located at one end of the water chamber (11), the hot temperature outlet (15) is located at the other end of the water chamber (11), the cold temperature inlet (16) is located at one end of the water chamber (11), the cold temperature outlet (17) is located at the other end of the water chamber (11), the driving flow member is a pushing auger (19), the two pushing augers (19) are respectively connected with the hot temperature chamber (12) and the cold temperature chamber (13) in a rotating manner, and the two pushing augers (19) respectively extend to the other end from one ends of the hot temperature chamber (12) and the cold temperature chamber (13).

3. The device for controlling the temperature of the water body according to claim 2, wherein an intermediate shaft of the pushing auger (19) positioned in the hot temperature chamber (12) is arranged in a hollow manner, a plurality of communication bars (20) arranged along the central line of the pushing auger (19) are arranged on the intermediate shaft of the pushing auger (19), the communication bars (20) enable the inner space of the intermediate shaft of the pushing auger (19) to be communicated with the hot temperature chamber (12), the heating piece is a heating rod (21), and the heating rod (21) is arranged in the inner space of the intermediate shaft of the pushing auger (19).

4. The device for controlling the temperature of the water body according to claim 3, wherein one end of each of the two pushing augers (19) extends into the thermostat (10) and is connected with a driven gear (22), each driven gear (22) is meshed with a driving gear (23), the driving gear (23) is connected with a rotating motor (24), the diameter of the driving gear (23) is larger than that of the driven gear (22), and the end part of the hot cavity (12) far away from the rotating motor (24) is provided with a heating power supply which is arranged on the thermostat (10) and connected with the heating rod (21).

5. The device for controlling the temperature of the water body as claimed in claim 2, wherein the refrigerating part comprises a refrigerating box (25), an exchange tube (26) is connected to the refrigerating box (25), the exchange tube (26) extends into the cold-warm chamber (13), and the exchange tube (26) is spirally wound from one end of the pushing auger (19) to the other end.

6. An apparatus for temperature control of a body of water as claimed in claim 5, wherein the density of the exchanger tubes (26) near the cold temperature inlet (16) is less than the density near the cold temperature outlet (17).

7. The device for controlling the temperature of the water body according to claim 1, wherein the hot inlet (14) and the cold inlet (16) are respectively located at the top end and the bottom end of the water cavity (11), the circulating mechanism (18) comprises first cross blocks (27), the two first cross blocks (27) respectively correspond to the hot inlet (14) and the cold inlet (16), the two first cross blocks (27) are respectively located at the top end and the bottom end of the water cavity (11), the two first cross blocks (27) are respectively connected with a plurality of rotating shafts (28) in a rotating manner, and the rotating shafts (28) are provided with a plurality of fan blades (29).

8. The device for controlling the temperature of the water body according to claim 7, wherein the end part of the first transverse block (27) at the top, which is far away from the hot temperature inlet (14), and the end part of the first transverse block (27) at the bottom, which is far away from the cold temperature inlet (16), are both connected with a second transverse block (30), the second transverse block (30) is also connected with a plurality of rotating shafts (28), and the rotating shafts (28) are provided with a plurality of fan blades (29).

9. The device for controlling the temperature of the water body according to claim 8, wherein the first transverse block (27) is L-shaped with the second transverse block (30) connected with the first transverse block, the second transverse block (30) and the cold-warm chamber (13) of the hot-warm chamber (12) are arranged in parallel, the first transverse block (27) is connected with a plurality of rotating shafts (28) on the second transverse block (30) connected with the first transverse block through a plurality of synchronous belts (31), and at least one rotating shaft (28) is connected with a driving motor.

10. The device for controlling the temperature of the water body according to any one of claims 1 to 9, wherein thermometers (32) are arranged in the hot temperature inlet (14), the hot temperature outlet (15), the cold temperature inlet (16), the cold temperature outlet (17) and the water cavity (11).