CN209246379U - Water tank assembly and water heater - Google Patents

Abstract

The application provides a water tank set spare and water heater. The water tank assembly comprises a water tank liner and a double-pipe heat exchanger arranged on the water tank liner, wherein the double-pipe heat exchanger is arranged on the side surface of the water tank liner along the height direction of the water tank liner. Use the technical scheme of the utility model, install bushing heat exchanger in the side of water tank inner bag, can make full use of water tank inner bag highly install bushing heat exchanger, and then make water tank set spare compact structure, occupation space is little, has reduced the holistic volume of water tank inner bag effectively. Simultaneously, with installing the double-pipe heat exchanger in outer machine contrast, its production efficiency has the improvement. The double-pipe heat exchanger is not in a coil form any more, and the straight pipe is easier to process. When in maintenance, the double-pipe heat exchanger is more convenient to disassemble and replace, and has good maintainability.

Description

Cistern assembly and water heater

Technical field

The utility model relates to technical field of water heaters, in particular to a kind of cistern assembly and water heater.

Background technique

Household bushing type air energy water heater, casing is placed on inner water tank, can be solved because of water system to a certain extent System heating pipeline is long, caused casing bursting by freezing problem.

As multi-functional water heater is more liked by user, people constantly mention to a variety of demands such as domestic water and heating Height, and then the exchange capability of heat of double-tube heat exchanger is also required higher and higher.It in the prior art, is all to be mounted on double-tube heat exchanger The top of inner water tank, when double-tube heat exchanger quantity increases and when extended length, undoubtedly will increase the height of inner water tank, causes The occupied space of inner water tank increases, and influences to install and use, also influence overall beautiful.

Utility model content

The utility model embodiment provides a kind of cistern assembly and water heater, is deposited with solving cistern assembly in the prior art Inner water tank height it is excessive influence install and use the technical issues of.

The application embodiment provides a kind of cistern assembly, including inner water tank and the casing being mounted on inner water tank Heat exchanger, double-tube heat exchanger are mounted on the side of inner water tank along the short transverse of inner water tank.

In one embodiment, double-tube heat exchanger includes first sleeve heat exchanger and the second double-tube heat exchanger, first set The refrigerant pipeline of the refrigerant pipeline of heat exchange of heat pipe and the second double-tube heat exchanger is in series or in parallel.

In one embodiment, the refrigerant pipeline of first sleeve heat exchanger is connected on the refrigerant pipe of the second double-tube heat exchanger The upstream on road.

In one embodiment, cistern assembly includes: cold media input tube, is connected to the refrigerant pipe of first sleeve heat exchanger The upstream on road；Coolant transmission pipe is connected to the refrigerant pipeline of first sleeve heat exchanger and the refrigerant pipeline of the second double-tube heat exchanger Between；Refrigerant efferent duct is connected to the downstream of the refrigerant pipeline of the second double-tube heat exchanger.

In one embodiment, the hot water outlet of the cooling water inlet of the second double-tube heat exchanger and the second double-tube heat exchanger point The side of inner water tank is not set.

In one embodiment, the cooling water inlet of first sleeve heat exchanger is connected with the lower part of inner water tank.

In one embodiment, water is provided between the cooling water inlet of first sleeve heat exchanger and the lower part of inner water tank Pump.

In one embodiment, the hot water outlet of first sleeve heat exchanger is connected to the top of inner water tank.

In one embodiment, triple valve, the hot water outlet of first sleeve heat exchanger are provided at the top of inner water tank It is connected with the first port of triple valve, the second port of triple valve is communicated to the top of inner water tank by the first outlet pipe, and three The third port of port valve is communicated to the middle part of inner water tank by the second outlet pipe.

In one embodiment, the top of inner water tank is provided with hot water outlet, and the lower part of inner water tank is provided with cold Water inlet.

In one embodiment, first sleeve heat exchanger, which is made a living, applies flexibly water jacket heat exchange of heat pipe, and the second double-tube heat exchanger is Floor heating double-tube heat exchanger.

In one embodiment, cistern assembly further includes electrical appliance kit, and the top of inner water tank is arranged in electrical appliance kit.

For the application embodiment further provides a kind of water heater, including cistern assembly, cistern assembly is above-mentioned water tank group Part.

In the above-described embodiments, double-tube heat exchanger is mounted on to the side of inner water tank, inner water tank can be made full use of Height double-tube heat exchanger is installed so that cistern assembly is compact-sized, occupy little space, effectively reduce in water tank The volume of gallbladder entirety.Meanwhile being compared with double-tube heat exchanger is installed on outer machine, production efficiency is improved.Double-tube heat exchanger is not Again in the form of coil pipe, straight tube is more readily processed.In maintenance, the more convenient disassembly of double-tube heat exchanger is replaced, and maintainability is good.

Detailed description of the invention

The attached drawing constituted part of this application is used to provide a further understanding of the present invention, the utility model Illustrative embodiments and their description are not constituteed improper limits to the present invention for explaining the utility model.In attached drawing In:

Fig. 1 is the embodiment schematic view of the front view of cistern assembly according to the present utility model；

Fig. 2 is the overlooking structure diagram of the cistern assembly of Fig. 1；

Fig. 3 is the right side structural representation at the top of the cistern assembly of Fig. 1.

Specific embodiment

For the purpose of this utility model, technical solution and advantage is more clearly understood, below with reference to embodiment and attached Figure, is described in further details the utility model.Here, the exemplary embodiment and its explanation of the utility model are for solving The utility model is released, but is not intended to limit the scope of the present invention.

Fig. 1 shows the cistern assembly of the utility model, which includes inner water tank 10 and be mounted in water tank Double-tube heat exchanger on gallbladder 10, double-tube heat exchanger are mounted on the side of inner water tank 10 along the short transverse of inner water tank 10.

Using the technical solution of the utility model, the short transverse by double-tube heat exchanger along inner water tank 10 is mounted on water tank The side of liner 10 can make full use of the height of inner water tank 10 to install double-tube heat exchanger, so that cistern assembly knot Structure is compact, occupies little space, and effectively reduces the volume of inner water tank entirety.Meanwhile it is outer with double-tube heat exchanger to be installed on Machine comparison, production efficiency are improved.No longer in the form of coil pipe, straight tube is more readily processed double-tube heat exchanger.In maintenance, set The more convenient disassembly of heat exchange of heat pipe, replacement, maintainability are good.

As a preferred embodiment, double-tube heat exchanger is mounted on the back side of inner water tank 10.In this way, can be abundant It is smaller to space hold using 10 back space of inner water tank.In maintenance, the dorsal shield that can directly dismantle inner water tank 10 is carried out Maintenance, maintainability are good.It should be noted that in the technical solution of the utility model, the back side of inner water tank 10 is and wall Opposite one side, the front of inner water tank 10 are the one sides that operation is interacted with user.

As shown in Figure 1, in the technical scheme of this embodiment, double-tube heat exchanger includes first sleeve heat exchanger 20 and second The refrigerant pipeline of double-tube heat exchanger 30, the refrigerant pipeline of first sleeve heat exchanger 20 and the second double-tube heat exchanger 30 is connected or simultaneously Connection.Optionally, first sleeve heat exchanger 20, which is made a living, applies flexibly water jacket heat exchange of heat pipe, and the second double-tube heat exchanger 30 is floor heating sleeve heat exchange Device.In this way, the technical solution of the utility model can meet the needs of supplying hot water and heating simultaneously.Preferably, first sleeve is changed Hot device 20 and the second double-tube heat exchanger 30 are arranged along the short transverse of inner water tank 10, can make full use of inner water tank 10 in this way Height-volume carry out installation double-tube heat exchanger.

As a preferred embodiment, the refrigerant pipeline of first sleeve heat exchanger 20 is connected on the second double-tube heat exchanger The upstream of 30 refrigerant pipeline.Under normal circumstances, requirement of the supplying hot water for water temperature is higher than the requirement to heat for water temperature, because The refrigerant pipeline of first sleeve heat exchanger 20 is connected on the upstream of the refrigerant pipeline of the second double-tube heat exchanger 30 by this, can first be led First the water of supplying hot water is heated with the high refrigerant of temperature, meets heat demand.

Optionally, as shown in Figure 1, cistern assembly includes cold media input tube 81, coolant transmission pipe 82 and refrigerant efferent duct 83. Cold media input tube 81 is connected to the upstream of the refrigerant pipeline of first sleeve heat exchanger 20, and coolant transmission pipe 82 is connected to first sleeve Between the refrigerant pipeline of heat exchanger 20 and the refrigerant pipeline of the second double-tube heat exchanger 30, refrigerant efferent duct 83 is connected to the second casing The downstream of the refrigerant pipeline of heat exchanger 30.Optionally, cold media input tube 81 is connected with refrigerant input interface, refrigerant efferent duct 83 with Refrigerant export structure is connected.

In the technical scheme of this embodiment, the water circuit system phase of first sleeve heat exchanger 20 and the second double-tube heat exchanger 30 To independence.As shown in Figure 1, optional, the cooling water inlet 31 of the second double-tube heat exchanger and the hot water outlet of the second double-tube heat exchanger 32 are separately positioned on the side of inner water tank 10.

Under normal conditions, the high-temperature water in inner water tank 10 is distributed in the top of inner water tank 10, and medium temperature water distribution is in water The middle part of case liner 10, cold water are then distributed in the lower part of inner water tank 10.Correspondingly, the top of inner water tank 10 is provided with heat Water out 11, the lower part of inner water tank 10 are provided with cold water inlet 12.Correspondingly, the cooling water inlet 21 of first sleeve heat exchanger It is connected with the lower part of inner water tank 10.Optionally, the lower part of the cooling water inlet 21 of first sleeve heat exchanger and inner water tank 10 Between be provided with water pump 40.When in use, the cold water of the lower part of inner water tank 10 is aspirated by water pump 40 to carry out domestic water Heating.

Since the high-temperature water in inner water tank 10 is distributed in the top of inner water tank 10, the hot water of first sleeve heat exchanger goes out Mouth 22 is connected to the top of inner water tank 10.In this way, the hot water that first sleeve heat exchanger 20 generates can be accordingly output to The top of inner water tank 10.As shown in Figures 2 and 3, as a preferred embodiment, the top of inner water tank 10 is provided with The hot water outlet 22 of triple valve 50, first sleeve heat exchanger is connected with the first port of triple valve 50, the second end of triple valve 50 Mouth is communicated to the top of inner water tank 10 by the first outlet pipe 61, and the third port of triple valve 50 passes through the second outlet pipe 62 and connects Lead to the middle part of inner water tank 10.In actual use, it in rigid booting and shutdown, is generated in first sleeve heat exchanger 20 Hot water is usually middle warm water, is unsatisfactory for the temperature requirement of domestic water.By judging water temperature, then triple valve 50 is allowed to select Property high-temperature water is transported to the top of inner water tank 10 by the first outlet pipe 61, middle warm water is defeated by the second outlet pipe 62 It is sent to the middle part of inner water tank 10.

When in use, after cold water enters water pump 40 by the cold water inlet 12 of the lower part of inner water tank 10, first set is entered back into Heat exchange of heat pipe 20, the hot water after heating are input in the top or inner water tank 10 of inner water tank 10 by the selection of triple valve 50 Portion.Refrigerant is input to first sleeve heat exchanger 20 by cold media input tube 81, then is input to the second casing by coolant transmission pipe 82 and changes Hot device 30, is finally exported by refrigerant efferent duct 83.

Optionally, as shown in Fig. 2, cistern assembly further includes electrical appliance kit 70, the top of inner water tank 10 is arranged in electrical appliance kit 70 Portion.

It should be noted that double pipe heat exchanger is placed on inner water tank back in the technical solution of the utility model Portion, dual-tubes heat exchanger is each along inner water tank back top-bottom layout.Wherein, domestic water by first sleeve heat exchanger into Enter at the top of inner water tank, then by entering inside inner water tank after triple valve, and for users to use by hot water outlet water outlet.Floor heating With water by being directly discharged again by inner water tank back after the second double-tube heat exchanger 30.The valve of refrigerant pipeline is both placed in water tank Liner back, and electrical appliance kit only need to be placed at the top of inner water tank, triple valve makes the occupied space of cistern assembly in the height direction It is further compressed, but also cistern assembly is more beautiful.

The utility model additionally provides a kind of water heater, including cistern assembly, and cistern assembly is above-mentioned cistern assembly.It adopts With above-mentioned cistern assembly, the space hold of water heater can reduce, so that water heater use more convenient to install.

The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this For the technical staff in field, the utility model embodiment can have various modifications and variations.All spirit in the utility model Within principle, any modification, equivalent replacement, improvement and so on be should be included within the scope of protection of this utility model.

Claims (13)

1. a kind of cistern assembly, which is characterized in that including inner water tank (10) and the set being mounted on the inner water tank (10) Heat exchange of heat pipe, described sleeve pipe heat exchanger are mounted on the side of the inner water tank (10) along the short transverse of the inner water tank (10) Face.

2. cistern assembly according to claim 1, which is characterized in that described sleeve pipe heat exchanger includes first sleeve heat exchanger (20) and the second double-tube heat exchanger (30), the refrigerant pipeline and second double-tube heat exchanger of the first sleeve heat exchanger (20) (30) refrigerant pipeline is in series or in parallel.

3. cistern assembly according to claim 2, which is characterized in that the refrigerant pipeline of the first sleeve heat exchanger (20) It is connected on the upstream of the refrigerant pipeline of second double-tube heat exchanger (30).

4. cistern assembly according to claim 3, which is characterized in that the cistern assembly includes:

Cold media input tube (81) is connected to the upstream of the refrigerant pipeline of first sleeve heat exchanger (20)；

Coolant transmission pipe (82) is connected to the refrigerant pipeline and second double-tube heat exchanger (30) of first sleeve heat exchanger (20) Refrigerant pipeline between；

Refrigerant efferent duct (83) is connected to the downstream of the refrigerant pipeline of second double-tube heat exchanger (30).

5. cistern assembly according to claim 2, which is characterized in that the cooling water inlet (31) of second double-tube heat exchanger The side of the inner water tank (10) is separately positioned on the hot water outlet (32) of second double-tube heat exchanger.

6. cistern assembly according to claim 2, which is characterized in that the cooling water inlet (21) of the first sleeve heat exchanger It is connected with the lower part of the inner water tank (10).

7. cistern assembly according to claim 6, which is characterized in that the cooling water inlet (21) of the first sleeve heat exchanger Water pump (40) are provided between the lower part of the inner water tank (10).

8. cistern assembly according to claim 6, which is characterized in that the hot water outlet (22) of the first sleeve heat exchanger It is connected to the top of the inner water tank (10).

9. cistern assembly according to claim 8, which is characterized in that be provided with threeway at the top of the inner water tank (10) The hot water outlet (22) of valve (50), the first sleeve heat exchanger is connected with the first port of the triple valve (50), and described three The second port of port valve (50) is communicated to the top of the inner water tank (10), the triple valve by the first outlet pipe (61) (50) third port is communicated to the middle part of the inner water tank (10) by the second outlet pipe (62).

10. cistern assembly according to claim 1, which is characterized in that the top of the inner water tank (10) is provided with heat The lower part of water out (11), the inner water tank (10) is provided with cold water inlet (12).

11. cistern assembly according to claim 2, the first sleeve heat exchanger (20), which is made a living, applies flexibly jacket pipe heat exchange Device, second double-tube heat exchanger (30) are floor heating double-tube heat exchanger.

12. cistern assembly according to any one of claim 1 to 11, which is characterized in that the cistern assembly further includes Electrical appliance kit (70), top of electrical appliance kit (70) setting in the inner water tank (10).

13. a kind of water heater, including cistern assembly, which is characterized in that the cistern assembly is any one of claims 1 to 12 The cistern assembly.