CN103912997A - Intermediate-temperature heat collector with capillary guide pipes - Google Patents

Abstract

The invention discloses an intermediate-temperature heat collector with capillary guide pipes. The intermediate-temperature heat collector comprises a dual-through full-glass vacuum heat collecting pipe, a guide collection pipe, the capillary guide pipes, end plugs, a reflecting panel, a support frame and a base, and is characterized in that the dual-through full-glass vacuum heat collecting pipe is fixed on the base via the support frame, the reflecting panel is arranged below the dual-through full-glass vacuum heat collecting pipe, two ends of the capillary guide pipes are connected onto the guide collection pipe in a welded manner, the capillary guide pipes are arranged inside the dual-through full-glass vacuum heat collecting pipe, and two ends of the guide connection pipe are fixed inside the dual-through full-glass vacuum heat collecting pipe via the end plugs. The intermediate-temperature heat collector utilizing the dual-through full-glass vacuum heat collecting pipe to collect heat is high in heat collecting efficiency; a heat absorbing area is enlarged and a heat utilization rate is increased since the guide pipe is formed by melting of the capillary guide pipes.

Description

A kind of medium-temperature collectors with capillary mozzle

Technical field

The invention belongs to heat collector, particularly a kind of medium-temperature collectors with capillary mozzle.

Background technology

in prior art, most of heat collector endotherm areas are less, and collecting efficiency is lower, has reduced heat utilization efficiency.

Summary of the invention

for above-mentioned the deficiencies in the prior art, the invention provides the medium-temperature collectors with capillary mozzle that a kind of collecting efficiency is high, heat utilization efficiency is high.

technical scheme of the present invention is: a kind of medium-temperature collectors with capillary mozzle, comprise bilateral all-glass vacuum thermal-collecting tube, collection mozzle, capillary mozzle, end plug, reflector, bracing frame, base, it is characterized in that: the fixing bilateral all-glass vacuum thermal-collecting tube of support frame as described above is on base, reflector is arranged on bilateral all-glass vacuum thermal-collecting tube below, capillary mozzle two ends are fused to respectively on collection mozzle, capillary mozzle is arranged on bilateral all-glass vacuum thermal-collecting tube inside, and collection water conservancy diversion 2 two ends are fixed on bilateral all-glass vacuum thermal-collecting tube inside by end plug.

advantageous effect of the present invention is: this medium-temperature collectors adopts bilateral all-glass vacuum thermal-collecting tube thermal-arrest, and collecting efficiency is higher; Mozzle adopts capillary mozzle to collect welding and forms, and has increased endotherm area, has improved heat utilization efficiency.

Brief description of the drawings

fig. 1 is a kind of medium-temperature collectors structural representation with capillary mozzle of the present invention

fig. 2 is the bilateral all-glass vacuum thermal-collecting tube cross section structure schematic diagram of a kind of medium-temperature collectors with capillary mozzle of the present invention

accompanying drawing indicate: 1 be bilateral all-glass vacuum thermal-collecting tube, 2 be integrate mozzle, 3 as capillary mozzle, 4 as end plug, 5 as reflector, 6 as bracing frame, 7 as base.

Detailed description of the invention

below in conjunction with accompanying drawing, the present invention is described in further detail:

as Fig. 1, shown in Fig. 2, a kind of medium-temperature collectors with capillary mozzle, comprise bilateral all-glass vacuum thermal-collecting tube 1, collection mozzle 2, capillary mozzle 3, end plug 4, reflector 5, bracing frame 6, base 7, it is characterized in that: the fixing bilateral all-glass vacuum thermal-collecting tube 1 of support frame as described above 6 is on base 7, reflector 5 is arranged on bilateral all-glass vacuum thermal-collecting tube 1 below, capillary mozzle 3 two ends are fused to respectively on collection mozzle 2, capillary mozzle 3 is arranged on bilateral all-glass vacuum thermal-collecting tube 1 inside, collection mozzle 2 two ends are fixed on bilateral all-glass vacuum thermal-collecting tube 1 inside by end plug 4.

  

Claims (1)

1. the medium-temperature collectors with capillary mozzle, comprise bilateral all-glass vacuum thermal-collecting tube, collection mozzle, capillary mozzle, end plug, reflector, bracing frame, base, it is characterized in that: the fixing bilateral all-glass vacuum thermal-collecting tube of support frame as described above is on base, reflector is arranged on bilateral all-glass vacuum thermal-collecting tube below, capillary mozzle two ends are fused to respectively on collection mozzle, capillary mozzle is arranged on bilateral all-glass vacuum thermal-collecting tube inside, and collection water conservancy diversion 2 two ends are fixed on bilateral all-glass vacuum thermal-collecting tube inside by end plug.