CN201093765Y - Dry type heat tube heat collector assembling structure - Google Patents

Abstract

The utility model relates to a dry-type heat pipe collector assembly structure, which provides a bran-new collector structure and guarantees that heated liquid is separated from a heat-exchanger device and is not polluted. The utility model comprises a main pipeline, a plurality of heat pipes, an upper connecting piece and a lower connecting piece, wherein, the upper connecting piece and the lower connecting piece are used for connecting the main pipeline and the heat pipes; the upper connecting piece forms a strip type; a through hole is breadthwise arranged above the upper connecting piece and is used for inserting the main pipeline; a plurality of grooves are lengthways arranged below the upper connecting piece; a plurality of grooves are also lengthways arranged above the lower connecting piece and are corresponding to the grooves arranged on the upper connecting piece; the upper connecting piece is correspondingly covered with the lower connecting piece; the grooves of the upper connecting piece are correspondingly buckled with the grooves of the lower connecting piece to form a plurality of pore canals, and each pore canal can allow a heat pipe to pass through; the upper connecting piece is fixedly connected with the lower connecting piece by a plurality of fastening pieces.

Description

Dry type heat pipe collector splicing structure

Technical field

The present invention relates to solar water heater, particularly a kind of dry type heat pipe collector structure.

Background technology

At present, solar thermal collector generally adopts heat pipe to add the aluminium wing and is installed in the all-glass vacuum thermal-collecting tube, by heat exchange heat in the all-glass vacuum thermal-collecting tube is taken out.Its structure exists following deficiency:

(1) assembly is more, and inconvenience is installed.The heat pipe general number is more, and heat pipe is installed in the all-glass vacuum thermal-collecting tube one by one, is installed in one by one in the header inner bag again, and the accessory number of existing solar thermal collector is various, need expend a large amount of man-hours during installation, and is convenient inadequately;

(2) version is fixed, bad adaptability.The number of the all-glass vacuum thermal-collecting tube that above-mentioned header inner bag can connect is fixed, and can't change with the variation of seasonal variations or user demand, can only a whole set ofly change when needing expansion sets heat energy power, and is with high costs.

(3) security performance is not good.Solar energy heating medium and be heated between the liquid and lack the effective isolation measure in case break, permeate, causes water pollution probably, and the threat user is healthy.

Therefore, existing solar thermal collector is still waiting to improve, thereby generation of the present utility model has been arranged.

Summary of the invention

At the deficiencies in the prior art, the purpose of this utility model is: a kind of dry type heat pipe collector splicing structure is provided, and simplified structure so that installation and maintenance, and makes and is heated liquid and heat-exchanger rig is isolated, and is not contaminated.

For achieving the above object, the technical solution adopted in the utility model is:

A kind of dry type heat pipe collector splicing structure is characterized in that: the upper connector and the following connector that comprise a trunk line, several heat pipe and be used for connecting described trunk line and heat pipe; Described upper connector is strip, and the top of described upper connector laterally is provided with a through hole, is used for plugging for described trunk line, and the below of described upper connector then vertically is provided with a plurality of grooves; The described top of connector down vertically also is provided with a plurality of grooves, and is corresponding with the groove that is provided with on the upper connector; Described upper connector and corresponding the covering of following connector, then the corresponding fastening of groove of the groove of upper connector and following connector forms a plurality of ducts, and each duct can wear for a described heat pipe; Several securing members are fixedlyed connected described upper connector with following connector.

Compared with prior art, adopt the advantage that the utlity model has of technique scheme to be:

(1) the utility model component count is few, and is simple in structure, adopts brand-new assembled structure, is easy to installation and maintenance;

(2) upper and lower connector number of the present utility model can increase and decrease according to the heat pipe number, and is flexible in the use;

(3) adopt upper and lower connector that trunk line and heat pipe are separated, can guarantee to be heated liquid and heat-exchanger rig and isolate, not contaminated.

Description of drawings

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

Fig. 2 is that the utility model is installed in the schematic diagram in the water heater;

Fig. 3-1, Fig. 3-2, Fig. 3-3 are respectively the utility model upper connector three-face views;

Fig. 4-1, Fig. 4-2 is respectively the front view and the upward view of connector under the utility model.

Description of reference numerals: 1-trunk line; The 2-heat pipe; The 3-upper connector; The 31-through hole; The 32-groove; The 33-connecting hole; Connector under the 4-; The 42-groove; The 43-connecting hole; The 51-screw; The 52-nut; The 6-heat-insulation layer; The 7-shell; The 8-aluminium wing; The 9-vacuum heat collection pipe; The 10-tailstock.

The specific embodiment

As shown in Figure 1, be the schematic diagram of the utility model dry type heat pipe collector splicing structure, upper connector 3 and following connector 4 that it comprises a trunk line 1, several heat pipe 2 and is used for connecting described trunk line 1 and heat pipe 2.

Shown in Fig. 3-1, Fig. 3-2, Fig. 3-3, described upper connector 3 is strip, and for can heat conduction, its material be good with metal or graphite.The top of described upper connector 3 laterally is provided with a through hole 31, is used for plugging for described trunk line 1, and the below of described upper connector 3 then vertically is provided with a plurality of grooves 32.

Shown in Fig. 4-1, Fig. 4-2, described down connector 4 is strip, and for can heat conduction, its material be good with metal or graphite.The described top of connector 4 down vertically also is provided with a plurality of grooves 42, and is corresponding with the groove 32 that is provided with on the upper connector 3; Described upper connector 3 and following connector 4 corresponding covering, then the groove 42 corresponding fastenings of the groove 32 of upper connector 3 and following connector 4 form a plurality of ducts, and each duct can wear for a described heat pipe 2.

From figure, can also know and see, described upper connector 3 also is provided with corresponding connecting hole 33,43 with following connector 4, several screws 51 pass described connecting hole 33,43 and screw togather with several nuts 52, and described upper connector 3 is connected and fixed with following connector 4.

In practice of construction, the material of described trunk line 1 is steel, stainless steel, copper, copper alloy, aluminium or aluminium alloy, and it is uneven in length, and 380mm may only be arranged, and also may reach 3500mm, and the number of described heat pipe 2 does not also wait from several to tens.So in the utility model, for the ease of trunk line 1 construction that cooperates different length, described upper connector 3 is set to predetermined dimension length with following connector 4, makes that every cover upper connector 3 and the duct number that following connector 4 forms are 3～6, promptly can connect 3～6 heat pipes 2.Thus, can arbitrarily be adjusted at the upper connector 3 of installation on the trunk line 1 and the number of following connector 4 according to the number of heat pipe 2 numbers.

As shown in Figure 2, be that the utility model uses the general assembly drawing in solar thermal collector, described trunk line 1, upper connector 3 and following connector 4 are coated with heat-insulation layer 6, and described heat-insulation layer 6 is coated with one deck shell 7, described heat pipe 2 passes described shell 7, and the heat pipe 2 outer aluminium wing 8 and the vacuum heat collection pipes 9 of being arranged with successively.Described vacuum heat collection pipe 9 one ends are fixed on the tailstock 10, and the other end stretches in described shell 7 and the heat-insulation layer 6 fixing.

When using, the utility model absorbs solar radiant energy by high solar absorptance and the low emission that complete glass vacuum sun thermal-collecting tube 2 is had than coating, when solar irradiation is mapped on the endotherm section of vacuum tube, heat is passed to heat pipe 2 by the coating and the aluminium wing 8 of being close to inner glass tube and heat pipe 2 tube walls, the working medium of heat pipe 2 inside is heated to seethe with excitement and is vaporized, and steam constantly rushes at condensation segment, emits the latent heat of vaporization at this and is condensed into liquid, condensation working medium is back to evaporator section along tube wall, finishes a circulation.Condensation segment is given the heat-exchange working medium in the trunk line 1, the water in the heating water tank latent heat of vaporization that obtains through upper connector 3,4 conduction of following connector again.

The utility model is a kind of brand-new assembled structure, and it will heat pipe 2 extend in the trunk line 1 and is connected and fixed, and the installation and maintenance cost all reduces greatly; And owing to the number that can increase and decrease upper and lower connector 4 according to heat pipe 2 numbers, more flexible in the use; And owing to adopt upper and lower connector 4 that trunk line 1 and heat pipe 2 are separated, can guarantee to be heated liquid and heat-exchanger rig and isolate, not contaminated, increased safety in utilization.

It should be noted that the utility model goes in the water heater of different model.Below be the preferred model of the utility model trunk line and heat pipe: the diameter of heat pipe is from 6mm～20mm; The length of heat pipe is from 300mm～3000mm; The diameter of metallic conduit is from 8mm～60mm; The length of metallic conduit is from 380mm～3500mm.

More than explanation is just illustrative for the utility model, and it is nonrestrictive, those of ordinary skills understand, under the situation of the spirit and scope that do not break away from claim and limited, can make many modifications, variation or equivalence, but but all will fall within the claim restricted portion of the present utility model.

Claims (7)

1. a dry type heat pipe collector splicing structure is characterized in that: the upper connector and the following connector that comprise a trunk line, several heat pipe and be used for connecting described trunk line and heat pipe;

Described upper connector is strip, and the top of described upper connector laterally is provided with a through hole, is used for plugging for described trunk line, and the below of described upper connector then vertically is provided with a plurality of grooves;

The described top of connector down vertically also is provided with a plurality of grooves, and is corresponding with the groove that is provided with on the upper connector; Described upper connector and corresponding the covering of following connector, then the corresponding fastening of groove of the groove of upper connector and following connector forms a plurality of ducts, and each duct can wear for a described heat pipe;

Several securing members are fixedlyed connected described upper connector with following connector.

2. dry type heat pipe collector splicing structure according to claim 1, it is characterized in that: described upper connector also is provided with corresponding connecting hole with following connector, several screws pass described connecting hole and several nuts screw togather, and described upper connector and following connector are connected and fixed.

3. dry type heat pipe collector splicing structure according to claim 1 is characterized in that: the material of described trunk line is steel, stainless steel, copper, copper alloy, aluminium or aluminium alloy.

4. dry type heat pipe collector splicing structure according to claim 1 is characterized in that: the material of described upper connector is metal or graphite.

5. dry type heat pipe collector splicing structure according to claim 1 is characterized in that: the described material of connector down is metal or graphite.

6. dry type heat pipe collector splicing structure according to claim 1, it is characterized in that: described trunk line, upper connector and following connector are coated with heat-insulation layer, and described heat-insulation layer is coated with one deck shell, described heat pipe passes described shell, and heat pipe is arranged with the aluminium wing and vacuum heat collection pipe outward successively, described vacuum heat collection pipe one end is fixed on the tailstock, and the other end stretches in described shell and the heat-insulation layer fixing.

7. dry type heat pipe collector splicing structure according to claim 1 is characterized in that: the duct number of described upper connector and connector formation down is 3～6.

Images