CN220250725U - Antifreezing closed cooling tower - Google Patents

Abstract

The utility model relates to an antifreezing closed cooling tower, which relates to the field of closed cooling towers and solves the problem that cooling efficiency is affected due to freezing of cooling water caused by low air temperature when a common cooling tower is used in winter. The technical characteristics include: a base; the support structure is mounted on the base and is used for supporting; the fixing structure is arranged at the lower end of the side surface of the base and is used for fixing. The cooling efficiency is not affected, the structure is relatively simple, and the use is convenient.

Description

Antifreezing closed cooling tower

Technical Field

The utility model relates to the technical field of closed cooling towers, in particular to an antifreezing closed cooling tower.

Background

The closed cooling tower is characterized in that a tubular heat exchanger is arranged in the tower, and the cooling effect is ensured through heat exchange of circulated air, spray water and circulating water. Due to the closed circulation, the water quality can be guaranteed not to be polluted, the efficient operation of the main equipment is well protected, and the service life is prolonged. Along with the implementation of national energy conservation and emission reduction policies and the increasing lack of water resources, closed cooling towers are widely applied in ferrous metallurgy, power electronics, machining, air conditioning systems and other industries in recent years.

However, when a general cooling tower is used in winter, cooling water is frozen due to low air temperature, so that the cooling efficiency is affected, and therefore, in order to solve the problem, it is necessary to design an antifreezing closed cooling tower.

Disclosure of Invention

The utility model aims to solve the technical problem that cooling water is frozen due to low air temperature when a common cooling tower in the prior art is used in winter, so that cooling efficiency is affected, and provides an antifreezing closed cooling tower.

In order to solve the technical problems, the technical scheme of the utility model is as follows:

an antifreeze closed cooling tower comprising:

a base;

the support structure is mounted on the base and is used for supporting;

the fixing structure is arranged at the lower end of the side surface of the base and is used for fixing;

the bearing structure is arranged on the supporting structure and is used for bearing;

a transfer structure mounted within the carrier structure, the transfer structure for transfer;

a cooling structure mounted within the load bearing structure, and configured to cool;

the heat insulation structure is arranged on the outer side of the bearing structure and is used for heat insulation;

the heat insulation structure is arranged on the outer side of the heat insulation structure and is used for insulating heat.

Preferably, the support structure comprises: two pairs of support bases, two pairs of support rods and two pairs of support plates;

the two pairs of support bases are arranged on the upper surface of the base, each support rod is arranged on the corresponding support base, and each support plate is arranged on the corresponding support rod.

Preferably, the fixing structure includes: two pairs of fixing rings and two pairs of fixing bolts;

the two pairs of fixed rings are arranged at the lower end of the side surface of the base, and each fixed bolt is arranged on the corresponding fixed ring.

Preferably, the load bearing structure comprises: a bearing housing;

the bearing shell is arranged on the two pairs of supporting plates.

Preferably, the conveying structure includes: a first transfer tube, a spiral tube, and a second transfer tube;

the first conveying pipe is arranged on the bearing shell, the second conveying pipe is arranged on the bearing shell, the spiral pipe is arranged on the first conveying pipe, and the spiral pipe is connected with the second conveying pipe.

Preferably, the cooling structure includes: the device comprises a water tank, a water inlet pipe, a first electric control valve, a water outlet pipe, a second electric control valve, a plurality of cooling pipes, a backflow shell, a first fixing frame, a backflow pump body and a backflow pipe;

the water tank is installed on the upper surface in the bearing shell, the water inlet pipe is installed on the water tank, the first electric control valve is installed on the water inlet pipe, the water outlet pipe is installed on the water tank, the second electric control valve is installed on the water outlet pipe, a plurality of cooling pipes are installed on the lower surface of the water tank, the reflux shell is installed on the lower surface in the bearing shell, a plurality of cooling pipes are communicated with the reflux shell, the first fixing frame is installed on the reflux shell, the reflux pump body is installed on the first fixing frame, the reflux pipe is installed on the reflux pump body, and the reflux pipe is communicated with the water tank.

Preferably, the heat insulation structure includes: a thermal insulation layer;

the heat insulation layer is arranged on the outer surface of the bearing shell.

Preferably, the heat insulation structure includes: the steam shell, the air inlet pipe and the air outlet pipe;

the steam shell is arranged on the outer surface of the heat insulation layer, the air inlet pipe is arranged on the steam shell, and the air outlet pipe is arranged on the steam shell.

Preferably, the base is provided with a controller, and the base is provided with a mains supply interface.

The utility model has the following beneficial effects:

this kind of closed cooling tower prevents frostbite can be better cool off, and is very convenient, has reduced unnecessary trouble, can not make the cooling water freeze because of weather condition, can not influence cooling efficiency, and the structure is simple relatively, convenient to use.

Drawings

The utility model is described in further detail below with reference to the drawings and the detailed description.

FIG. 1 is a schematic structural view of an antifreeze closed cooling tower according to the present utility model;

FIG. 2 is a front view block diagram of an antifreeze closed cooling tower according to the present utility model;

FIG. 3 is a front view of an antifreeze closed cooling tower of the present utility model;

fig. 4 is a top view of an antifreeze closed cooling tower of the present utility model.

Reference numerals in the drawings denote:

the device comprises a base 10, a supporting structure 20, a fixing structure 30, a bearing structure 40, a conveying structure 50, a cooling structure 60, a heat insulation structure 70, a heat insulation structure 80, a controller 90 and a mains interface 100;

a support base 21, a support rod 22 and a support plate 23;

a fixing ring 31 and a fixing bolt 32;

a carrying case 41;

a first transfer tube 51, a spiral tube 52, a second transfer tube 53;

the water tank 61, the water inlet pipe 62, the first electric control valve 63, the water outlet pipe 64, the second electric control valve 65, the cooling pipe 66, the reflux shell 67, the first fixing frame 68, the reflux pump body 69 and the reflux pipe 610;

a heat insulating layer 71;

a steam housing 81, an air inlet pipe 82, and an air outlet pipe 83.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, based on the embodiments of the utility model, which a person of ordinary skill in the art would obtain without inventive faculty, are within the scope of the utility model; it should be noted that, for convenience of description, in the present application, "left side" is "first end", "right side" is "second end", "upper side" is "first end", and "lower side" is "second end" in the current view, and the purpose of this description is to clearly express the technical solution, and should not be construed as unduly limiting the technical solution of the present application.

Referring to fig. 1-4, the support structure 20 on the base 10 is used for supporting, the fixing structure 30 at the lower end of the side surface of the base 10 is used for fixing, the carrying structure 40 on the support structure 20 is used for carrying, the carrying structure 50 in the carrying structure 40 is used for carrying, the cooling structure 60 in the carrying structure 40 is used for cooling, the heat insulation structure 70 outside the carrying structure 40 is used for heat insulation, and the heat insulation structure 80 outside the heat insulation structure 70 is used for heat insulation.

Preferably, the support structure 20 comprises: two pairs of support bases 21, two pairs of support rods 22, and two pairs of support plates 23; two pairs of support bases 21 are mounted on the upper surface of the base 10, each support bar 22 is mounted on the corresponding support base 21, and each support plate 23 is mounted on the corresponding support bar 22.

The bearing housing 41 is supported by the support base 21, the support bar 22, and the support plate 23.

Preferably, the fixing structure 30 includes: two pairs of fixing rings 31 and two pairs of fixing bolts 32; two pairs of fixing rings 31 are mounted on the lower end of the side surface of the base 10, and each fixing bolt 32 is mounted on the corresponding fixing ring 31.

The base 10 is fixed by fixing bolts 32 on the fixing ring 31.

Preferably, the load bearing structure 40 comprises: a carrying case 41; the bearing housing 41 is mounted on the two pairs of support plates 23.

The bearing is performed by the bearing housing 41 on the support plate 23.

Preferably, the transfer structure 50 includes: a first transfer pipe 51, a spiral pipe 52, and a second transfer pipe 53; the first transfer pipe 51 is installed on the carrier housing 41, the second transfer pipe 53 is installed on the carrier housing 41, the spiral pipe 52 is installed on the first transfer pipe 51, and the spiral pipe 52 is connected with the second transfer pipe 53.

Is conveyed through the first conveying pipe 51, the spiral pipe 52, and the second conveying pipe 53.

Preferably, the cooling structure 60 includes: the water tank 61, the water inlet pipe 62, the first electric control valve 63, the water outlet pipe 64, the second electric control valve 65, a plurality of cooling pipes 66, a reflux shell 67, a first fixing frame 68, a reflux pump body 69 and a reflux pipe 610; the water tank 61 is installed on the upper surface in bearing housing 41, inlet tube 62 is installed on water tank 61, first electrically controlled valve 63 is installed on inlet tube 62, outlet tube 64 is installed on water tank 61, second electrically controlled valve 65 is installed on outlet tube 64, a plurality of cooling tubes 66 are installed on the lower surface of water tank 61, reflux housing 67 is installed on the lower surface in bearing housing 41, a plurality of cooling tubes 66 are communicated with reflux housing 67, first mount 68 is installed on reflux housing 67, reflux pump body 69 is installed on first mount 68, reflux tube 610 is installed on reflux pump body 69, and reflux tube 610 is communicated with water tank 61.

Cooling water is fed into the water tank 61 through the water inlet pipe 62 on the water tank 61, is discharged out of the water tank 61 through the water outlet pipe 64 on the water tank 61, cools the substances in the spiral pipe 52 through the cooling pipe 66, flows into the return casing 67 after cooling, and is fed into the water tank 61 through the return pump 69 on the first fixing frame 68 in cooperation with the return pipe 610.

Preferably, the insulation structure 70 includes: a heat insulating layer 71; the insulating layer 71 is mounted to the outer surface of the carrier housing 41.

Insulation is provided by an insulation layer 71 carrying the outer surface of the housing 41.

Preferably, the thermal insulation structure 80 includes: a steam housing 81, an air inlet pipe 82, and an air outlet pipe 83; the steam housing 81 is mounted on the outer surface of the heat insulating layer 71, the air inlet pipe 82 is mounted on the steam housing 81, and the air outlet pipe 83 is mounted on the steam housing 81.

Steam is fed into the steam housing 81 through the air inlet pipe 82, and is discharged through the air outlet pipe 83 on the steam housing 81, thereby insulating the temperature.

Preferably, the base 10 is provided with a controller 90, and the base 10 is provided with a mains interface 100.

Is controlled by a controller 90 on the base 10 and is connected with a power supply through a mains interface 100 on the base 10.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. While still being apparent from variations or modifications that may be made by those skilled in the art are within the scope of the utility model.

Claims (9)

1. An antifreeze closed cooling tower, comprising:

a base (10);

-a support structure (20), the support structure (20) being mounted on the base (10) and the support structure (20) being for support;

the fixing structure (30), the said fixing structure (30) is installed on the underpart of side surface of the base (10), and the said fixing structure (30) is used for fixing;

-a carrying structure (40), the carrying structure (40) being mounted on the support structure (20), and the carrying structure (40) being for carrying;

-a conveying structure (50), the conveying structure (50) being mounted within the carrying structure (40), and the conveying structure (50) being for conveying;

-a cooling structure (60), the cooling structure (60) being mounted within the carrying structure (40), and the cooling structure (60) being for cooling;

a heat insulating structure (70), the heat insulating structure (70) being mounted outside the carrying structure (40), and the heat insulating structure (70) being for heat insulation;

the heat insulation structure (80), the heat insulation structure (80) is installed in the outside of the heat insulation structure (70), and the heat insulation structure (80) is used for heat insulation.

2. An antifreeze closed cooling tower according to claim 1, wherein the support structure (20) comprises: two pairs of support bases (21), two pairs of support rods (22) and two pairs of support plates (23);

two pairs of support bases (21) are arranged on the upper surface of the base (10), each support rod (22) is arranged on the corresponding support base (21), and each support plate (23) is arranged on the corresponding support rod (22).

3. An antifreeze closed cooling tower according to claim 1, wherein the fixed structure (30) comprises: two pairs of fixing rings (31) and two pairs of fixing bolts (32);

two pairs of fixed circular rings (31) are arranged at the lower end of the side surface of the base (10), and each fixed bolt (32) is arranged on the corresponding fixed circular ring (31).

4. An antifreeze closed cooling tower according to claim 2, wherein the load bearing structure (40) comprises: a carrying case (41);

the bearing housing (41) is mounted on two pairs of the support plates (23).

5. An antifreeze closed cooling tower as defined in claim 4, wherein said transfer structure (50) includes: a first transfer tube (51), a spiral tube (52), and a second transfer tube (53);

the first conveying pipe (51) is installed on the bearing shell (41), the second conveying pipe (53) is installed on the bearing shell (41), the spiral pipe (52) is installed on the first conveying pipe (51), and the spiral pipe (52) is connected with the second conveying pipe (53).

6. An antifreeze closed cooling tower as defined in claim 4, wherein said cooling structure (60) includes: the water tank (61), the water inlet pipe (62), the first electric control valve (63), the water outlet pipe (64), the second electric control valve (65), a plurality of cooling pipes (66), a reflux shell (67), a first fixing frame (68), a reflux pump body (69) and a reflux pipe (610);

the water tank (61) is installed on the inner upper surface of the bearing shell (41), the water inlet pipe (62) is installed on the water tank (61), the first electric control valve (63) is installed on the water inlet pipe (62), the water outlet pipe (64) is installed on the water tank (61), the second electric control valve (65) is installed on the water outlet pipe (64), a plurality of cooling pipes (66) are installed on the lower surface of the water tank (61), the backflow shell (67) is installed on the inner lower surface of the bearing shell (41), a plurality of cooling pipes (66) are communicated with the backflow shell (67), the first fixing frame (68) is installed on the backflow shell (67), the backflow pump body (69) is installed on the first fixing frame (68), the backflow pipe (610) is installed on the backflow pump body (69), and the backflow pipe (610) is communicated with the water tank (61).

7. The antifreeze closed cooling tower of claim 4, wherein said insulation structure (70) includes: a heat insulating layer (71);

the heat insulating layer (71) is mounted on the outer surface of the bearing shell (41).

8. The antifreeze closed cooling tower of claim 7, wherein said thermal insulation structure (80) includes: a steam housing (81), an air inlet pipe (82), and an air outlet pipe (83);

the steam shell (81) is arranged on the outer surface of the heat insulation layer (71), the air inlet pipe (82) is arranged on the steam shell (81), and the air outlet pipe (83) is arranged on the steam shell (81).

9. An antifreeze closed cooling tower according to claim 1, wherein the base (10) is provided with a controller (90), and the base (10) is provided with a mains interface (100).