CN204188031U - A kind of cisten mechanism of heat-exchanging water tank - Google Patents

Abstract

A kind of cisten mechanism of heat-exchanging water tank, comprise valve body, the valve pocket of forming cylinder shape in valve body, the upper and lower side of valve body forms the air inlet and gas outlet that are connected with valve pocket respectively, reaming is formed on the valve body madial wall of gas outlet end, the madial wall of reaming forms screw thread, valve plate is provided with in the valve pocket of described valve body, the upper surface of valve plate forms boss, boss upper sleeve is fixed with the protective cover of tubbiness, protective cover forms some small air inlet holes, in the air inlet of described protective cover grafting valve body, the valve plate of described boss surrounding is fixed with sealing gasket, sealing gasket is pressed against on the upper bottom surface of valve body.It by the basis of present hot water blowdown intake valve adds safeguard structure at air inlet end, and has carried out corresponding amendment in valve inner structure, prevents bulky grain foreign material from blocking the function of air inlet from making its blowdown intake valve have.

Description

A kind of cisten mechanism of heat-exchanging water tank

Technical field:

The utility model relates to the technical field of water heater, more specifically to a kind of cisten mechanism of heat-exchanging water tank.

Background technology:

Heat-exchanging water tank generally refers to that heat exchanger is built in water tank, by heat exchanger the heat of the hot fluid in it is passed to the cold fluid in water tank.The heat exchanger apparatus of existing heat-exchanging water tank generally has two kinds; One is spiral coil pipe, heat trnasfer is carried out by medium in coil pipe and water tank, but the heat of this kind of heat-exchanging water tank inner coil pipe partly can only pass to the medium in water tank, heat transference efficiency is not high, also having a kind of is be spirally coiled in water tank by the coil pipe of helically tubulose itself again, although this kind of structure heat transference efficiency is increased, it requires that the tube length of its heat trnasfer is longer, thus cost is increased.

Utility model content:

The purpose of this utility model is exactly the deficiency for prior art, and provides a kind of cisten mechanism of novel heat-exchanging water tank, and it has higher heat transference efficiency cost-effective simultaneously.

Technology solution of the present utility model is as follows:

A kind of cisten mechanism of heat-exchanging water tank, comprise rectangular flat water tank, the upper and lower side of flat water tank forms water inlet and delivery port respectively, flat water tank internal fixtion has two seal diaphragms, it is that refrigerant admission chamber, water storage cavity and refrigerant go out sap cavity that seal diaphragm separates water tank cavity, the flat water tank sidewall that refrigerant admission chamber and refrigerant go out sap cavity place forms refrigerant import and refrigerant exit respectively, be distributed with the radiating tube of some rectangles in described water storage cavity, the two ends of radiating tube to be weldingly fixed on respectively on two seal diaphragms and to go out sap cavity with refrigerant admission chamber and refrigerant and are connected;

Form the rib of some transverse directions in described radiating tube, rib is separated radiating tube inner chamber and is become several conduits, the radiating fin of the conduit internal fixtion sine of radiating tube.

The crest of described radiating fin and trough be weldingly fixed on rib or rib and radiating tube madial wall on, be respectively equipped with lower blend stop and upper blend stop between the crest of described radiating fin and trough, lower blend stop and upper blend stop are fixed on rib or radiating tube.

Described radiating tube is evenly distributed on seal diaphragm, and described water inlet and delivery port are positioned on the flat water tank sidewall at water storage cavity place.

The beneficial effects of the utility model are:

Its uses radiating tube to replace spiral helicine coil pipe as the heat-transfer arrangement in heat-exchanging water tank, and in radiating tube, increases radiating fin and rib to increase the fluid resistance of refrigerant, thus while having efficient heat trnasfer, saves production cost.

Accompanying drawing illustrates:

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the side view of radiating tube of the present utility model;

Fig. 3 is the partial schematic diagram of radiating tube longitudinal section of the present utility model.

In figure: 1, flat water tank; 2, next door is sealed; 3, radiating tube; 4, radiating fin; 11, water inlet; 12, delivery port; 13, refrigerant import; 14, refrigerant exit; 31, rib; 32, lower blend stop; 33, upper blend stop; A, water storage cavity; B, refrigerant admission chamber; C, refrigerant go out sap cavity.

Detailed description of the invention:

Embodiment: see Fig. 1, 2, shown in 3, a kind of cisten mechanism of heat-exchanging water tank, comprise rectangular flat water tank 1, the upper and lower side of flat water tank 1 forms water inlet 11 and delivery port 12 respectively, flat water tank 1 internal fixtion has two seal diaphragms 2, it is refrigerant admission chamber b that seal diaphragm 2 separates water tank cavity, water storage cavity a and refrigerant go out sap cavity b, flat water tank 1 sidewall that refrigerant admission chamber b and refrigerant go out sap cavity b place forms refrigerant import 13 and refrigerant exit 14 respectively, the radiating tube 3 of some rectangles is distributed with in described water storage cavity a, the two ends of radiating tube 3 to be weldingly fixed on respectively on two seal diaphragms 2 and to go out sap cavity b with refrigerant admission chamber b and refrigerant and are connected,

Form the rib 31 of some transverse directions in described radiating tube 3, rib 31 is separated radiating tube 3 inner chamber and is become several conduits, the radiating fin 4 of the conduit internal fixtion sine of radiating tube 3.

The crest of described radiating fin 4 and trough be weldingly fixed on rib 31 or rib 31 with on the madial wall of radiating tube 3, be respectively equipped with lower blend stop 32 and upper blend stop 33 between the crest of described radiating fin 4 and trough, lower blend stop 32 and upper blend stop 33 are fixed on rib 31 or radiating tube 2.

Described radiating tube 3 is evenly distributed on seal diaphragm 2, and described water inlet 11 and delivery port 12 are positioned on flat water tank 1 sidewall at water storage cavity a place.

Operation principle: the utility model radiating tube 3 replaces spiral helicine coil pipe as the heat-transfer arrangement in heat-exchanging water tank, the length of radiating tube 3 is far smaller than the length of existing heat-exchanging water tank inner coil pipe, thus save production cost, and by increasing radiating fin 4 and rib 31 in radiating tube 3, thus fluid resistance when can increase coolant transmission, thus fully can carry out heat trnasfer, from cost-effective again, there is higher heat transference efficiency simultaneously.

Claims (3)

1. the cisten mechanism of a heat-exchanging water tank, comprise rectangular flat water tank (1), the upper and lower side of flat water tank (1) forms water inlet (11) and delivery port (12) respectively, it is characterized in that: flat water tank (1) internal fixtion has two seal diaphragms (2), it is refrigerant admission chamber (b) that seal diaphragm (2) separates water tank cavity, water storage cavity (a) and refrigerant go out sap cavity (b), flat water tank (1) sidewall that refrigerant admission chamber (b) and refrigerant go out sap cavity (b) place forms refrigerant import (13) and refrigerant exit (14) respectively, the radiating tube (3) of some rectangles is distributed with in described water storage cavity (a), it is upper and go out sap cavity (b) with refrigerant admission chamber (b) and refrigerant and be connected that the two ends of radiating tube (3) are weldingly fixed on two seal diaphragms (2) respectively,

The rib (31) of some transverse directions is formed in described radiating tube (3), rib (31) is separated radiating tube (3) inner chamber and is become several conduits, the radiating fin (4) of the conduit internal fixtion sine of radiating tube (3).

2. the cisten mechanism of a kind of heat-exchanging water tank according to claim 1, it is characterized in that: the crest of described radiating fin (4) and trough are weldingly fixed on rib (31) or on the madial wall of rib (31) and radiating tube (3), be respectively equipped with lower blend stop (32) and upper blend stop (33) between the crest of described radiating fin (4) and trough, lower blend stop (32) and upper blend stop (33) are fixed on rib (31) or radiating tube (2).

3. the cisten mechanism of a kind of heat-exchanging water tank according to claim 1, it is characterized in that: described radiating tube (3) is evenly distributed on seal diaphragm (2), described water inlet (11) and delivery port (12) are positioned on flat water tank (1) sidewall at water storage cavity (a) place.