CN205748046U - Double medium Heating installation heat exchangers - Google Patents

Abstract

The utility model discloses a kind of Heating installation heat exchanger, particularly a kind of double medium Heating installation heat exchangers, including upper and lower two transverse tubes be arrangeding in parallel, i.e. upper lateral tube (12) and lower transverse tubule (11), vertical tube (3) it is provided with between upper lateral tube (12) and lower transverse tubule (11), it thes improvement is that: described upper lateral tube (12) and vertical tube (3) are externally provided with in the outer heat-conducting medium layer surrounding shape, this outer heat-conducting medium layer comprises vertical tube outer layer (4) and transverse tube outer layer (5), position above at transverse tube outer layer (5) is provided with heat-conducting medium filler port (51).Compared with prior art, this utility model is in the case of identical heat supply, main medium consumption can be reduced, assist medium in heat exchanger can select the more preferable material of conductive performance of energy life-time service, to improve heat conduction efficiency, boiler main medium consumption can not only be reduced, moreover it is possible to improve the radiating efficiency of radiator, effectively reduce radiator volume, save space.

Description

Double medium Heating installation heat exchangers

Technical field

This utility model relates to a kind of Heating installation heat exchanger, particularly a kind of double medium Heating installation heat exchangers.

Background technology

Existing Heating installation heat exchanger is typically using water as thermal medium, all there are certain requirements boiler capacity, as bigger Area of heat-supply service is accomplished by more radiator and is equipped with bigger boiler, and the water consumption of needs is the biggest.

Summary of the invention

The purpose of this utility model is to provide a kind of in the case of identical heat supply, it is possible to reduce double medium heating installation of water consumption Heat exchanger.

The purpose of this utility model is realized by following structure: includes upper and lower two transverse tubes be arrangeding in parallel, i.e. goes up Transverse tube (12) and lower transverse tubule (11), be provided with vertical tube (3) between upper lateral tube (12) and lower transverse tubule (11), it thes improvement is that: institute Stating upper lateral tube (12) and vertical tube (3) is externally provided with in the outer heat-conducting medium layer surrounding shape, this outer heat-conducting medium layer comprises vertical tube outer layer (4) and transverse tube outer layer (5), the position above at transverse tube outer layer (5) is provided with heat-conducting medium filler port (51).

Further, described vertical tube (3) inner side is provided with thermal medium traffic controller (2), on thermal medium traffic controller (2) It is provided with at least one thermal medium flow orifice (21).

Yet further, described thermal medium traffic controller (2) is provided with plural thermal medium flow orifice (21), its In at least one is the tubulus (22) that the mouth of pipe of one end is raised in thermal medium traffic controller (2) surface.

Further, described thermal medium traffic controller (2) is preferably arranged at the end of vertical tube (3), described tubulus (22) towards the projection of transverse tube side between 5～10mm, the projection of transverse tube side is between 30～50mm dorsad.

Yet further, described tubulus (22) be preferably bore between 5～10mm, common thermal medium flow orifice (21) bore it is preferably between 2～4mm.

Compared with prior art, this utility model is in the case of identical heat supply, it is possible to reduce main medium consumption, in heat exchanger Assist medium can select can the more preferable material of conductive performance of life-time service, to improve heat conduction efficiency, can not only reduce Boiler main medium consumption, moreover it is possible to improve the radiating efficiency of radiator, reduces radiator volume effectively, saves space.

Accompanying drawing explanation

Fig. 1 is the structural representation of this utility model embodiment 1.

Fig. 2 is the structural representation of this utility model embodiment 1 vertical tube.

Fig. 3 is the structural representation of this utility model embodiment 2 vertical tube.

Fig. 4 is the structural representation of this utility model embodiment 3.

Shown in figure: 11 is lower transverse tubule, 12 is lower transverse tubule, and 2 is thermal medium traffic controller, and 21 is thermal medium flow orifice, 22 is tubulus, and 3 is vertical tube, and 4 is vertical tube outer layer, and 5 is transverse tube outer layer, and 51 is heat-conducting medium filler port.

Detailed description of the invention

Embodiment 1: referring to the drawings 1～2, for the structural representation of this utility model embodiment 1, including upper and lower two parallel The transverse tube arranged, i.e. upper lateral tube (12) and lower transverse tubule (11), be provided with vertical tube (3) between upper lateral tube (12) and lower transverse tubule (11), perpendicular Pipe 3 is rectangular tube, and the both ends of described vertical tube 3 are provided with thermal medium traffic controller 2, and thermal medium traffic controller 2 is provided with three Individual thermal medium flow orifice 21, one of them is tubulus 22, and the mouth of pipe at the two ends up and down of described tubulus 22 is all raised in heat Jie Matter traffic controller 2 surface, described upper lateral tube (12) and vertical tube (3) are externally provided with in the outer heat-conducting medium layer surrounding shape, and this is outer leads Thermal medium layer comprises vertical tube outer layer (4) and transverse tube outer layer (5), and vertical tube outer layer (4) is also rectangular tube, upper at transverse tube outer layer (5) Position, side is provided with heat-conducting medium filler port (51).

Embodiment 2: with reference to Fig. 3, for the structural representation of this utility model embodiment 2, compared with Example 1, this enforcement The difference of example is: described vertical tube 3 and vertical tube outer layer (4) are oval pipe, and thermal medium traffic controller 2 is provided with 5 heat Media flow hole 21, one of them is tubulus 22.

Embodiment 3: with reference to Fig. 4, for the structural representation of this utility model embodiment 2, compared with embodiment 1 and 2, this reality The difference executing example is: described thermal medium traffic controller 2 is arranged at the middle part of vertical tube 3, only need to arrange 1.

Further, described tubulus 22 towards the projection of transverse tube 1 side between 5～10mm, transverse tube 1 side dorsad Protruding between 30～50mm, yet further, described tubulus 22 is preferably bore between 5～10mm, common heat Media flow hole 21 is preferably bore between 2～4mm.

Above-described is only the preferred implementation of the present invention/utility model, it is noted that common for this area For technical staff, without departing from the concept of the premise of the invention, it is also possible to make some changes and improvements, these all belong to In protection scope of the present invention.

Claims (6)

1. double medium Heating installation heat exchangers, including upper and lower two transverse tubes be arrangeding in parallel, i.e. upper lateral tube (12) and lower transverse tubule (11), vertical tube (3) it is provided with between upper lateral tube (12) and lower transverse tubule (11), it is characterised in that described upper lateral tube (12) and vertical tube (3) Being externally provided with in the outer heat-conducting medium layer surrounding shape, this outer heat-conducting medium layer comprises vertical tube outer layer (4) and transverse tube outer layer (5), at horizontal stroke The position above of outer tube layer (5) is provided with heat-conducting medium filler port (51).

The most according to claim 1 pair of medium Heating installation heat exchanger, it is characterised in that described vertical tube (3) inner side is provided with heat Rate-of flow panel (2), thermal medium traffic controller (2) is provided with at least one thermal medium flow orifice (21).

The most according to claim 2 pair of medium Heating installation heat exchanger, it is characterised in that described thermal medium traffic controller (2) being provided with plural thermal medium flow orifice (21), at least one of which is that the mouth of pipe of one end is raised in thermal medium flow The tubulus (22) on panel (2) surface.

The most according to claim 3 pair of medium Heating installation heat exchanger, it is characterised in that described thermal medium traffic controller (2) be arranged at the end of vertical tube (3), described tubulus (22) towards the projection of transverse tube side between 5～10mm, transverse tube dorsad The projection of side is between 30～50mm.

5. according to the double medium Heating installation heat exchangers described in claim 2,3 or 4, it is characterised in that described thermal medium flow orifice (21) internal diameter is between 2～4mm.

6. according to the double medium Heating installation heat exchangers described in claim 3 or 4, it is characterised in that in described tubulus (22) pipe Footpath is between 5～10mm.