CN207991065U - A kind of coiled heat transmission equipment - Google Patents

Abstract

The utility model discloses a kind of coiled heat transmission equipments,Including cooler bin,Cooling chamber interior wall upper end is fixed with multiple heat sinks,Gap is equipped between heat sink,Cooler bin upper end is equipped with recovery tank,Recovery tank lower end is fixed with and its internal return pipe being connected to,Return pipe is located at the upper end of cooler bin,Return pipe upper end is fixed with water pump,Return pipe lower end is equipped with nozzle,Recovery tank upper end is equipped with anti-overflow case,Anti-overflow case is connected to recovery tank by connecting tube,Anti-overflow case bosom is equipped with annulus,Annulus is fixed by fixed link and anti-overflow chamber interior wall,Stifled ball is placed on annulus,Stifled ball makes outside using timber and is enclosed with rubber layer,Anti-overflow case upper end is fixed with and its internal vertical tube being connected to,The lower end of vertical tube is corresponding with stifled ball,The diameter of stifled ball is more than the diameter of vertical tube,Cooling water reduces unnecessary waste by the cooling recycling of heat sink,And the water rolling stirring in heat exchanger tube is made full use of by solenoid valve in heat transfer process,Cooling effect is more preferable.

Description

A kind of coiled heat transmission equipment

Technical field

The utility model is related to refrigerating fields, and in particular to a kind of coiled heat transmission equipment.

Background technology

The heat exchange cooling of usual equipment is to be bonded heat exchanger tube with cooling equipment is needed, and so that cooling tube is fixed on needs In the equipment to be cooled down, cooling water flows through cooling tube after entering from one end of cooling tube, will be taken away again after the heat absorption of equipment It is flowed out from the other end of cooling tube, achievees the purpose that cooling heat transferring, existing heat transmission equipment is complicated, and cost is higher, will inhale Water direct emission after heat causes to waste, and absorbs heat cooling close to the water of tube wall when water flows through heat exchanger tube, the water of pipeline center It cannot be stirred and be contacted with tube wall in time, keep cooling effect bad.

Utility model content

Above-mentioned in order to solve the problems, such as, the utility model provides a kind of coiled heat transmission equipment.

The utility model is achieved through the following technical solutions：

A kind of coiled heat transmission equipment, including including cooler bin, cooling chamber interior wall upper end is fixed with multiple heat sinks, described Gap is equipped between heat sink, cooler bin upper end is equipped with recovery tank, and the recovery tank lower end is fixed with and its internal time being connected to Water pipe, the return pipe are located at the upper end of cooler bin, and return pipe upper end is fixed with water pump, and return pipe lower end is equipped with nozzle, institute It states recovery tank upper end and is equipped with anti-overflow case, anti-overflow case is connected to recovery tank by connecting tube, and anti-overflow case bosom is equipped with annulus, institute It states annulus to fix by fixed link and anti-overflow chamber interior wall, stifled ball is placed on annulus, stifled ball makes external be enclosed with using timber Rubber layer, the anti-overflow case upper end are fixed with the vertical tube being connected to its inside, and the lower end of the vertical tube is corresponding with stifled ball, described stifled The diameter of ball is more than the diameter of vertical tube, and cooler bin side is horizontally fixed with transverse slat, and transverse slat upper end is respectively fixed with motor and vacuum Pump, motor are connected with vacuum pump by belt transmission, and the vacuum pump is connected to vertical tube by vacuum tube, is equipped on vacuum tube Safety valve, transverse slat lower end are fixed with control cabinet, and PLC controller and battery, the bottom of the cooler bin are separately installed in control cabinet Portion is connected to the water inlet of heat exchanger tube, is connected to the water outlet of heat exchanger tube among the side wall of the recovery tank, on the heat exchanger tube Solenoid valve is installed, is electrically connected between PLC controller, battery, solenoid valve.

Preferably, the anti-overflow case is made using transparent acrylic material.

Preferably, the fixed link is fixed at eight words with anti-overflow chamber interior wall.

Preferably, it the heat sink generally honeycomb structure and is made using copper product.

Compared with prior art, the utility model has the beneficial effects that：The utility model is designed reasonably makes simply, Have the function that cooling water circulation to equipment cooling heat transferring using vacuum pump, while cooling water passes through the cooling weight of heat sink Multiple utilize reduces unnecessary waste, and fully profit is stirred in the water rolling in heat exchanger tube by solenoid valve in heat transfer process With cooling effect is more preferable, and stifled ball ensures that equipment normal operation will not be damaged with safety valve.

Description of the drawings

Fig. 1 is the schematic diagram of structure described in the utility model；

Fig. 2 is heat sink schematic diagram described in the utility model.

In figure：Cooler bin 1, heat sink 2, recovery tank 3, return pipe 4, water pump 5, nozzle 6, anti-overflow case 7, connecting tube 8, annulus 9, fixed link 10, stifled ball 11, vertical tube 12, transverse slat 13, motor 14, vacuum pump 15, vacuum tube 16, safety valve 17, control cabinet 18, PLC controller 19, battery 20, heat exchanger tube 21, solenoid valve 22.

Specific implementation mode

The utility model is described in further detail with specific implementation mode below in conjunction with the accompanying drawings：

As shown in Figure 1 and Figure 2, a kind of coiled heat transmission equipment, including cooler bin 1,1 inner wall upper end of cooler bin are fixed with more A heat sink 2 is equipped with gap between the heat sink 2, and the water cooling heat dissipation after 2 heat exchanging of heat sink, 1 upper end of cooler bin is equipped with The cycle of recovery tank 3, water supply provides return water space, and 3 lower end of the recovery tank is fixed with and its internal return pipe 4 being connected to, use It is returned in cooler bin 1 in by flow, the return pipe 4 is located at the upper end of cooler bin 1, and 4 upper end of return pipe is fixed with water pump 5, is used for Water supply, which is pressurizeed, accelerates circulation, 4 lower end of return pipe to be equipped with nozzle 6, water sprinkling is easier to be quickly cooled down, the recovery tank 3 Upper end is equipped with anti-overflow case 7, and anti-overflow case 7 is connected to recovery tank 3 by connecting tube 8, and 7 bosom of anti-overflow case is equipped with annulus 9, described Annulus 9 is fixed by fixed link 10 and 7 inner wall of anti-overflow case, and stifled ball 11 is placed on annulus 9, is blocked up ball 11 and is made outside using timber It is enclosed with rubber layer, 7 upper end of anti-overflow case is fixed with and its internal vertical tube 12 being connected to, the lower end of the vertical tube 12 and stifled ball 11 correspond to, and the diameter of the stifled ball 11 is more than the diameter of vertical tube 12, plays the role of protection, prevents 5 failure and other reasons of water pump from making It is directly sucked in vacuum pump 15 and is damaged to after recovery tank 3 is full, 1 side of cooler bin is horizontally fixed with transverse slat 13,13 upper end of transverse slat Be respectively fixed with motor 14 and vacuum pump 15, motor 14 is connected with vacuum pump 15 by belt transmission, the vacuum pump 15 with it is perpendicular Pipe 12 is connected to by vacuum tube 16, and providing negative pressure to equipment ensures that cooling water can be installed on vacuum tube 16 with normal operating cycle There is safety valve 17, prevent stifled ball 11 from blocking the excessive damage vacuum tube of rear vacuum pressure, 13 lower end of transverse slat is fixed with control cabinet 18, control PLC controller 19 and battery 20 are separately installed in case 18 processed, the bottom of the cooler bin 1 connects with the water inlet of heat exchanger tube 21 It is logical, it is connected to the water outlet of heat exchanger tube 21 among the side wall of the recovery tank 3, ensures that water circulation is changed using heat exchanger tube 21 Heat is equipped with solenoid valve 22 on the heat exchanger tube 21, is electrically connected between PLC controller 19, battery 20, solenoid valve 22.

The anti-overflow case 7 is made using transparent acrylic material, blocks up whether ball 11 is blocked vertical tube 12 convenient for observing.

The fixed link 10 is fixed at eight words and 7 inner wall of anti-overflow case, and annulus 9 is fallen to automatically when being fallen convenient for stifled ball 11 Upper end.

It the generally honeycomb structure of the heat sink 2 and is made using copper product, honeycomb is saved material and protected simultaneously The maximum through hole of card, the strong rapid heat dissipation of the copper product capacity of heat transmission.

Operation principle：The utility model is related to a kind of coiled heat transmission equipments, and heat exchanger tube 21 is consolidated by modes such as windings It is scheduled on and needs in the equipment that exchanges heat, cooling water is directly added in cooler bin 1 by when use, is started motor 14 and is driven by belt Vacuum pump 15 is run, and vacuum pump 15 makes the pressure reduction in anti-overflow case 7, anti-overflow case 7 pass through company by vacuum tube 16 and vertical tube 12 It reduces the air pressure in recovery tank 3 in take over 8, the cooling water in cooler bin 1 is then drawn by heat exchange by heat exchanger tube 21 again In pipe 21, cooling water exchanges heat to equipment when passing through heat exchanger tube 21, and the cooling water after heat exchange passes through because endothermic temperature rises It is sprayed by nozzle 6 after heat exchanger tube 21 by the way that in vacuum suck to recovery tank 3, the water in water tank 3 is drawn into after return pipe 4 by water pump 5 Go out, water is sprayed onto on heat sink 2 by nozzle 6, water from heat sink 2 flow down during cooling, flow back into cooler bin 1 again Bottom reuses, and the generally honeycomb structure of heat sink 2 increases with the heat absorption of the contact area of water soon, and uses copper product system Make the good heat conductivity of copper, water fast cooling can be radiated and be allowed to cool, controlled by PLC controller 19 during equipment use Solenoid valve 22 processed periodically opens 3-5 seconds time, when cooling water recycles in heat exchanger tube 21 among enter air can make cooling Water generates surge effect and carries out rolling stirring, because being negative pressure in pipeline, manifold pressure is less than atmospheric pressure, so water when opening It will not be flowed out from solenoid valve 22, the water among water and pipeline being bonded with 21 inner wall of heat exchanger tube is mixed, and ensures cooling water It adequately exchanges heat to equipment, when the water pump 5 in recovery tank 3 cannot in time siphon away water, the water in recovery tank 3, which can accumulate, completely to be passed through Connecting tube 8 is drawn into anti-overflow case 7, and the stifled ball 11 in anti-overflow case 7 is made to float, and the inlet seal of 12 lower end of vertical tube is blocked, cold But water stops cycle, and preventing water from being sucked in vacuum pump 15 along pipeline accidentally can be damaged, when the pressure in vacuum tube 16 is excessive It triggers safety valve 17 and opens air inlet, prevent the excessive damage pipeline of pressure, anti-overflow case 7 from using the sight easy to make of transparent acrylic material The case where examining stifled ball 11, fixed link 10 are fixed at eight words and 7 inner wall of anti-overflow case, after stifled ball 11 blocks vertical tube 12, pass through water Pump 5 blocks up ball 11 after siphoning away the water in recovery tank 3 and automatically falls into annulus 9, and fixed link 10 plays the work of guiding at eight words With.

The basic principles and main features and advantage of the utility model have been shown and described above.The technical staff of the industry It should be appreciated that the present utility model is not limited to the above embodiments, the above embodiments and description only describe this The principle of utility model, on the premise of not departing from the spirit and scope of the utility model, the utility model also has various change And improvement, these various changes and improvements fall within the scope of the claimed invention.The utility model requires protection scope It is defined by the appending claims and its equivalent thereof.

Claims (4)

1. a kind of coiled heat transmission equipment, it is characterised in that：Including cooler bin (1), cooler bin (1) inner wall upper end is fixed with multiple Heat sink (2), gap is equipped between the heat sink (2), and cooler bin (1) upper end is equipped with recovery tank (3), the recovery tank (3) Lower end is fixed with is located at the upper end of cooler bin (1), return pipe (4) with its internal return pipe (4) being connected to, the return pipe (4) Upper end is fixed with water pump (5), and return pipe (4) lower end is equipped with nozzle (6), and recovery tank (3) upper end is equipped with anti-overflow case (7), Anti-overflow case (7) is connected to recovery tank (3) by connecting tube (8), and anti-overflow case (7) bosom is equipped with annulus (9), the annulus (9) it is fixed by fixed link (10) and anti-overflow case (7) inner wall, stifled ball (11) is placed on annulus (9), blocked up ball (11) and use timber It makes outside and is enclosed with rubber layer, anti-overflow case (7) upper end is fixed with and its internal vertical tube (12) being connected to, the vertical tube (12) lower end is corresponding with stifled ball (11), and the diameter of the stifled ball (11) is more than the diameter of vertical tube (12), cooler bin (1) side water Flat to be fixed with transverse slat (13), transverse slat (13) upper end is respectively fixed with motor (14) and vacuum pump (15), motor (14) and vacuum pump (15) it is connected by belt transmission, the vacuum pump (15) is connected to vertical tube (12) by vacuum tube (16), on vacuum tube (16) Safety valve (17) is installed, transverse slat (13) lower end is fixed with control cabinet (18), PLC controller is separately installed in control cabinet (18) (19) it is connected to the water inlet of heat exchanger tube (21) with battery (20), the bottom of the cooler bin (1), the side of the recovery tank (3) It is connected to the water outlet of heat exchanger tube (21) among wall, solenoid valve (22), PLC controller is installed on the heat exchanger tube (21) (19), battery (20), solenoid valve are electrically connected between (22).

2. a kind of coiled heat transmission equipment according to claim 1, it is characterised in that：The anti-overflow case (7) uses transparent Acrylic material makes.

3. a kind of coiled heat transmission equipment according to claim 1, it is characterised in that：The fixed link (10) is at eight word It is fixed with anti-overflow case (7) inner wall.

4. a kind of coiled heat transmission equipment according to claim 1, it is characterised in that：The heat sink (2) generally bee It nest shape structure and is made using copper product.