CN208186880U - Plate type solar collector plate core - Google Patents

Abstract

The utility model belongs to solar thermal collector accessories field, is related to plate core more particularly to a kind of plate type solar collector plate core.Including working in coordination, the collecting plate and backboard of soldering setting, it is characterized in that, the collecting plate and backboard are symmetrical arranged, the runner for flow of media is provided on the collecting plate and backboard, the runner includes U-shaped sprue and the heat exchange runner that is wrapped in sprue, the heat exchange runner includes that upper heat exchange runner and lower heat exchange runner are arranged in parallel with the transverse flow channels of sprue, pass through vertically collection hot flow path connection between the upper heat exchange runner and lower heat exchange runner, the vertical collection hot flow path is arranged at intervals between heat exchange runner and lower heat exchange runner, the upper heat exchange runner is connected to any vertical-sprue of sprue, the lower heat exchange runner is connected to the transverse flow channels of sprue by connecting passage, the connecting passage is positioned close to the side that heat exchange runner is connected to sprue.

Description

Plate type solar collector plate core

Technical field

The utility model belongs to solar thermal collector accessories field, is related to plate core more particularly to a kind of plate type solar Use collector plate core.

Background technique

The solar thermal collector of country's skyscraper is divided at present: whole indigo plant film [Huo ?chromium film]+copper pipe combined type, wing Chip heat collector and whole stainless steel stretched welded type heat collector three categories structure；

Whole indigo plant film [or ?chromium film]+copper pipe combined heat collector, using the full page collecting plate for plate collection hotting mask in advance and Copper pipe welding, copper pipe sprue and branch flow passage use soldering connection, and collection hotting mask absorbs light and is transformed into heat, in copper pipe and copper pipe Heat-conducting medium heating, the heat-conducting medium being heated enters the heat exchanger in water tank by heat collector sprue, passes through heat exchanger Bath water is heated.

Finned heat collector, collecting plate and copper pipe riveted are integrally formed fin, and multi-disc fin is adopted with copper pipe sprue again With soldering connection, collects hotting mask absorption light and be transformed into heat, the heat-conducting medium in copper pipe and copper pipe is heated, thermally conductive Jie being heated Matter enters the heat exchanger in water tank by heat collector sprue, and bath water is heated by heat exchanger.

Above two structure welding process is more to be easy to appear welding seepage defect, higher cost, and collecting efficiency is relatively low.

The stainless steel stretched welded type heat collector of entirety on the market, using Thin Stainless Steel plate stretching, welded molding, technique Simply, collecting efficiency is high.But because of the runner design problem of plate core of flat plate collector, to meet existing building and install to product not With the demand of pattern, multiple sets of molds is needed just to be able to achieve.

Utility model content

The utility model for technical problem present in above-mentioned plate core of flat plate collector, propose a kind of design rationally, It is of simple structure and low cost and can be realized by one set of die a variety of medium inlets and outlet mode it is flat too Sun can use collector plate core.

In order to achieve the above object, the technical solution adopted in the utility model is that the utility model provides a kind of flat Solar energy collector plate core, including working in coordination, soldering setting collecting plate and backboard, the collecting plate and backboard are symmetrically set Set, be provided with the runner for flow of media on the collecting plate and backboard, the runner include U-shaped sprue and The heat exchange runner being wrapped in sprue, the heat exchange runner include that upper heat exchange runner is arranged in parallel with the transverse flow channels of sprue With lower heat exchange runner, pass through vertically collection hot flow path connection, the vertical thermal-arrest between the upper heat exchange runner and lower heat exchange runner Runner is arranged at intervals between heat exchange runner and lower heat exchange runner, any vertical-sprue of the upper heat exchange runner and sprue Connection, the lower heat exchange runner are connected to the transverse flow channels of sprue by connecting passage, and the connecting passage is positioned close to The side that upper heat exchange runner is connected to sprue.

Preferably, the arc-shaped setting in the section of the sprue and heat exchange runner.

Preferably, the trapezoidal setting in the section of the sprue and heat exchange runner.

Preferably, the transverse flow channels of the sprue are obliquely installed.

Preferably, the transverse flow channels of the sprue incline from the side that upper heat exchange runner is connected to sprue to the other side It is arranged obliquely.

Compared with prior art, it is the advantages of the utility model with good effect,

1, the utility model utilizes symmetrically arranged collecting plate and back by providing plate type solar collector plate core Plate and the runner being arranged on collecting plate and backboard allow the utility model to realize four kinds of Jie under a kind of preparation of mold The position of matter entrance and exit is arranged, and then meets existing building and install diversified demand, reduces the processing cost of enterprise, Improve the market competitiveness.

Detailed description of the invention

It, below will be to required in embodiment description in order to illustrate more clearly of the technical solution of the utility model embodiment The attached drawing used is briefly described, it should be apparent that, the accompanying drawings in the following description is some embodiments of the utility model, For those of ordinary skill in the art, without any creative labor, it can also obtain according to these attached drawings Obtain other attached drawings.

Fig. 1 is the structural schematic diagram for the drawing die that embodiment 1 provides；

Fig. 2 is the structural schematic diagram for the collecting plate that embodiment 1 provides；

Fig. 3 is the structural schematic diagram for second of collecting plate that embodiment 1 provides；

Fig. 4 is the structural schematic diagram for the third collecting plate that embodiment 1 provides；

Fig. 5 is the structural schematic diagram for the 4th kind of collecting plate that embodiment 1 provides；

In above each figure, 1, die ontology；11, mobile module A1；12, mobile module A2；13, mobile module B1；14, it moves Dynamic model block B2；2, collecting plate；3, sprue；31, transverse flow channels；32, vertical-sprue；4, heat exchange runner；41, upper heat exchange runner； 42, lower heat exchange runner；43, vertically collect hot flow path；5, connecting passage；6, medium inlet；7, media outlet.

Specific embodiment

It is with reference to the accompanying drawing and real in order to be more clearly understood that the above objects, features, and advantages of the utility model Example is applied to be described further the utility model.It should be noted that in the absence of conflict, embodiments herein and reality The feature applied in example can be combined with each other.

Many details are explained in the following description in order to fully understand the utility model, still, this is practical Novel to be implemented using other modes described herein are different from, therefore, the utility model is not limited to be described below The limitation of the specific embodiment of specification.

Embodiment 1, as shown in figure 1, figure 2, figure 3, figure 4 and figure 5, this implementation aim to solve the problem that every tune of existing heat collector core Whole medium inlet once and media outlet must replace one set of die, and then the technical issues of increase production cost, for this purpose, this reality Applying example and providing a kind of plate type solar collector plate core is as existing plate core: thermal-arrest provided by the present embodiment Device plate core include work in coordination, soldering setting collecting plate 2 and backboard, collecting plate 2 and backboard cooperation after by welding formed one Body structure；Unlike traditional core plate: in the present embodiment, collecting plate 2 and backboard are symmetrical arranged, i.e. collecting plate 2 and back The structure of plate is identical, in this way, it is only necessary to which one set of die can realize the processing of collecting plate 2 and backboard, in 2 He of collecting plate The runner for flow of media is provided on backboard, in order to realize that one set of die realizes that the medium that can process different location enters The collecting plate 2 and backboard of mouth and outlet, for this purpose, runner provided by the present embodiment includes U-shaped sprue 3 and package Heat exchange runner 4 in sprue 3, existing core plate are all rectangle setting, for this purpose, in the present embodiment, the cross of sprue 3 Longitudinal direction to runner 31 along collecting plate 2 is arranged, and the vertical-sprue 32 of sprue 3 is arranged along the short side direction of collecting plate 2, and Transverse flow channels 31 and vertical-sprue 32 are all arranged close to the outer edge of collecting plate 2, and the purpose being arranged in this way is to increase to be situated between as far as possible The logical distance of mass flow, improves heat transfer effect.

Heat exchange runner 4 is then located between two transverse flow channels 32.In order to cooperate sprue 3, in the present embodiment, heat exchange stream Road 4 includes that upper heat exchange runner 41 and lower heat exchange runner 42 are arranged in parallel with the transverse flow channels 31 of sprue 3, upper 41 He of heat exchange runner It is connected between lower heat exchange runner 42 by vertically collection hot flow path 43, and vertical collection hot flow path 43 is arranged at intervals on heat exchange runner 41 Between lower heat exchange runner 42.

In order to realize the replacement of 7 position of different medium entrance 6 and media outlet, in the present embodiment, as shown in Figure 1, On die ontology 1, provided with four removable mobile modules laid down, in this way, remove top (in the present embodiment it is upper and lower, Left and right attached drawing of being subject to) 1 mobile module when, so that it may so that suppress come go up heat exchange runner 41 and sprue 3 The vertical-sprue 32 for not removing mobile module be connected to, and the mobile module required below to be removed is mainly according to needed for top The mobile module to be removed is arranged, specifically, for the mobile module that removes the same side, come construct lower heat exchange runner 42 with it is main Connecting passage 5 between the transverse flow channels 31 of runner 3, in this way, but also connecting passage 5 be positioned close to heat exchange runner 41 with The side that the transverse flow channels 31 of sprue 3 are connected to.

In order to further increase heat exchange efficiency, in the present embodiment, in the present embodiment, the transverse flow channels 31 of sprue 3, Upper heat exchange runner and the non-horizontal setting of lower heat exchange runner, to be obliquely installed in the same direction, the present embodiment is signified to be obliquely installed in the same direction, Refer to that the tendency direction of three runners is consistent.It specifically, is transverse flow channels 31, upper heat exchange runner 41 and lower heat exchange runner 42 The inclination that upward heat exchange runner 41 is not connected to vertical-sprue 32 from the side that upper heat exchange runner 41 is connected to vertical-sprue 32 It is arranged obliquely, such setting helps speed up the circulation of medium, and then achievees the purpose that improve heat exchange efficiency.

Herein it should be noted that it is commonly used in the art that the removable mobile module laid down is arranged on die ontology 1 Technological means, therefore in the present embodiment, it to the connection type between die ontology 1 and mobile module, is not described in detail, together When, since the structure of collecting plate 2 and backboard is completely the same, therefore in the present embodiment, stated with collecting plate.

In this way, collecting plate 2 as provided by Fig. 2, when mold compacting, what is disassembled is (11) mobile module A1 With mobile module A2 (12), in this way, being formed medium inlet 6 and media outlet 7 in the collecting plate 2 of left side horizontal position.

The collecting plate as provided by Fig. 3, when mold compacting, that disassemble is mobile module B1 (13) and movement Module B2 (14), in this way, being formed medium inlet 6 and media outlet 7 in the collecting plate 2 of right side horizontal position.

The collecting plate as provided by Fig. 4, when mold compacting, that disassemble is mobile module A1 (11) and movement Modules A 2 (12), in this way, being formed medium inlet and media outlet in the collecting plate of left side top position (due to medium inlet It is to be connected to by medium tube with media outlet, therefore here, for the direction for adjusting medium tube).

The collecting plate as provided by Fig. 5, when mold compacting, that disassemble is mobile module B1 (13) and movement Module B2 (14), in this way, being formed medium inlet and media outlet in the collecting plate of right side top position.

In order to improve the heat transfer effect of runner, the section of runner can be arc and trapezoidal, in the present embodiment, sprue With the arc-shaped setting in section of heat exchange runner.

The above descriptions are merely preferred embodiments of the present invention, is not to make other forms to the utility model Limitation, any person skilled in the art is changed or is modified as possibly also with the technology contents of the disclosure above equivalent The equivalent embodiment of variation is applied to other fields, but all without departing from the content of the technical scheme of the utility model, according to this reality With novel technical spirit any simple modification, equivalent variations and remodeling to the above embodiments, it is practical new to still fall within this The protection scope of type technical solution.

Claims (5)

1. a kind of plate type solar collector plate core, including working in coordination, the collecting plate and backboard of soldering setting, feature It is, the collecting plate and backboard are symmetrical arranged, and the runner for flow of media is provided on the collecting plate and backboard, described Runner includes U-shaped sprue and the heat exchange runner that is wrapped in sprue, and the heat exchange runner includes and sprue Transverse flow channels heat exchange runner and lower heat exchange runner is arranged in parallel, by perpendicular between the upper heat exchange runner and lower heat exchange runner To collection hot flow path connection, the vertical collection hot flow path is arranged at intervals between heat exchange runner and lower heat exchange runner, it is described on change Hot flow path is connected to any vertical-sprue of sprue, and the transverse flow channels of the lower heat exchange runner and sprue pass through connecting passage Connection, the connecting passage are positioned close to the side that heat exchange runner is connected to sprue.

2. plate type solar collector plate core according to claim 1, which is characterized in that the sprue and heat exchange The arc-shaped setting in the section of runner.

3. plate type solar collector plate core according to claim 1, which is characterized in that the sprue and heat exchange The trapezoidal setting in the section of runner.

4. plate type solar collector plate core according to claim 2 or 3, which is characterized in that the sprue Transverse flow channels, upper heat exchange runner and lower heat exchange runner are obliquely installed in the same direction.

5. plate type solar collector plate core according to claim 4, which is characterized in that the transverse direction of the sprue Runner, upper heat exchange runner and lower heat exchange runner are tilted upward to the other side from the side that upper heat exchange runner is connected to sprue and are set It sets.