CN205383724U - And tubular hinder thermal system - Google Patents

Abstract

The utility model discloses an and tubular hinder thermal system, include: hot cell, every are hindered to at least one it includes all that two are hindered hot mold piece, every to hinder the hot cell hinder the hot mold piece and include all that interval default distance carries out a plurality of branch pipes that dispose, wherein, crisscross or relative arrangement's mode setting is on first collecting main, second collecting main around with respectively for two one end that hinders each branch pipe in the hot mold piece, and the other end is pegged graft in return water mechanism, and two hindered branch pipe corresponding on the hot mold piece respectively through a connection piece and then connect and hinder hot curtain and every in order to constitute one it passes through the first collecting main of matched with, second collecting main respectively and then is connected with the peripheral hardware to hinder the hot cell to constitute and tubular hinder thermal system. The utility model provides an and the tubular hinders the thermal system, and it has the reduction energy consumption, strong adaptability, and the practicality is good, the controllable effect of cost.

Description

A kind of thermal resistance system of and tubular type

Technical field

This utility model relates to a kind of heat-resistant device used in building energy conservation, renewable energy utilization situation.More specifically, this utility model relates to a kind of that be used in building energy conservation, renewable energy utilization situation and tubular type thermal resistance system.

Background technology

Modern architecture adopts glass curtain wall in a large number, and its thermal property is bigger with the body of wall difference of insulation；In order to make up glass curtain wall thermal property difference, and means general at present generally include following two, one is adopt all kinds of high-performance glass to make up thermal property, such as vacuum glass, coated glass, noble gas filling, increases a series of high-end technology such as reflectance coating and double-layer curtain wall；Two is adopt active technology, stops the technology of heat transmission at existing window and curtain wall underwear air or water as medium, it is achieved make up thermal property.

Various defect is all there is for above-mentioned general means, so that it cannot be promoted on a large scale, wherein, for employing high-performance glass, it is primarily present following defect: one is that it still falls within passive type technology, lay particular emphasis on " anti-, stifled ", it does not have the characteristic of " dredging "；Two is the high cost of various high-performance glass, causes construction investment very big；Three is that above-mentioned high-performance glass material is non-renewable material, cannot repair when damaging, can only change, and cannot recycle when reclaiming, and is unfavorable for environmental protection；Four is the structure due to its complexity, higher cost and higher after-sale service requirement, and then makes it be difficult to carry out large-scale application popularization.

And at present in building window and glass curtain wall part, adopt all kinds of active thermal resistance technology, it is primarily present again following defect: all kinds of active thermal resistance technology are all directly act on window construction or glass curtain wall structure, but the labyrinth due to window and glass curtain wall self, and high cost, it is difficult to promote by window and glass curtain wall internal structure actively thermal resistance technology, and brings in use procedure all kinds of problems such as the operation maintenance of equipment；For in prior art as patent name is: double-jacket tube thermal resistance curtain, its technique is complex, manufacturing cost is too high, it does not utilize arm (plastic capillary) manufacturing technology of existing maturation to be achieved, and its light blocking effect can not adjust, practicality is not strong, and adaptability does not reach various use needs.

Utility model content

A purpose of the present utility model is to solve at least the above and/or defect, and provides the advantage that at least will be described later.

This utility model is it is also an object that provide a kind of and tubular type thermal resistance system, it can be used for reducing space heating air conditioning energy consumption, can also adopt regenerative resource between passive type building to realize incubation and thermal insulation function to greatest extent, which employs eased branch pipe technology technology simultaneously, manufacture completes to make full use of regenerative resource and reduces constructure screen wall sub-load, thus reducing effect of building energy consumption, there is cost controlled, effect of energy-conserving and environment-protective, additionally thermal resistance unit is adopted the design of modular by it, enable it to by the adjustment to each module, and then control shaded effect, to adapt to different use needs, there is better adaptability and practicality.

In order to realize according to these purposes of the present utility model and further advantage, it is provided that the thermal resistance system of a kind of and tubular type, including:

At least one thermal resistance unit, each described thermal resistance unit all includes two thermal resistance modules, and each described thermal resistance module all includes multiple arms that interval predeterminable range carries out configuring,

Wherein, in said two thermal resistance module, one end of each arm is respectively to be arranged on the first main, the second main in the way of being staggered front to back or being oppositely disposed, the other end is plugged in backwater mechanism, and corresponding arm respectively through a connecting piece and then connects to constitute a thermal resistance curtain in two thermal resistance modules, and

Each described thermal resistance unit respectively through the first main matched, the second main and then is connected with peripheral hardware, to constitute the thermal resistance system of also tubular type.

Preferably, wherein, also include fixed mount, described fixed mount includes chute and the first support plate in pivot joint state and the second support plate, the free end of described first support plate is provided with an installation portion projected upwards, the free end of described second support plate is provided with a slide block consistent with installation portion projected direction, and described second support plate is additionally provided with a fastener matched with the first main, the second main at the opposite face of slide block.

Preferably, wherein, described connection sheet is flap structure, it has two arc grooves matched with arm external structure, wherein, the length of described connection sheet is set to match with the length of tube being exposed to outside, and width is set to and in thermal resistance module, between each arm, the predeterminable range at interval matches.

Preferably, wherein, the opening of described arc groove is towards unanimously.

Preferably, wherein, the opening of described arc groove is towards on the contrary.

Preferably, wherein, described backwater mechanism is a backwater ball, and described backwater bag draws together episphere, lower semisphere, and described episphere, lower semisphere configure removably.

Preferably, wherein, described episphere is provided with the water space of indent, is provided with flexible absorbent material in described water space removably, described lower semisphere is provided with leakage mouth.

Preferably, wherein, adopting the mode of matched in clearance to be attached between described arm and the first main, the second arm, the junction both it is provided with the first sealing mechanism matched, and described arm is provided with, with the junction of backwater mechanism, the second sealing mechanism matched.

Preferably, wherein, described first main, the second main adopt Double-layer pipe to make, and to be constituted an insulated cavity between lateral wall and medial wall, the lateral wall of described arm are provided with anti-skidding striped, so that it contacts closely with connecting sheet.

Preferably, wherein, described thermal resistance unit is between the first adjacent between two main, the second main, respectively through the flexible pipe matched and then connection.

This utility model at least includes following beneficial effect: one, the design that thermal resistance unit is adopted modular of the present utility model so that it can pass through the adjustment to each module, and then controls shaded effect, to adapt to different use needs, there is better adaptability and practicality.

Its two, the Manifold technology that this utility model is introduced in each module of thermal resistance unit, relative to existing technology, its cost is controlled, easy to maintenance, and practicality is higher.

They are three years old, the design of connection sheet of the present utility model, its area having by oneself by connecting sheet on the one hand is made to make up the gap existed between arm, to reach better shaded effect, can pass through to adjust the position of each module on the other hand, the shaded effect of thermal resistance curtain is adjusted to the best, or carries out suitable adjustment as required.

Its four, the matched in clearance connected mode between arm of the present utility model and each main so that any one connect sheet position can individually adjust, to adapt to different daylighting needs, there is better practicality and adaptability.

Part is embodied by further advantage of the present utility model, target and feature by description below, and part also will by being understood by those skilled in the art research of the present utility model and practice.

Accompanying drawing explanation

Fig. 1 is in an embodiment of the present utility model and the cross section structure schematic diagram of thermal resistance unit in the thermal resistance system of tubular type；

Fig. 2 is in an embodiment of the present utility model and the cross section structure schematic diagram of thermal resistance module in the thermal resistance system of tubular type；

Fig. 3 is in another embodiment of the present utility model and the attachment structure schematic diagram of the thermal resistance system of tubular type；

Fig. 4 is in another embodiment of the present utility model and the cross section structure schematic diagram of fixed mount in the thermal resistance system of tubular type；

Fig. 5 is in another embodiment of the present utility model and connects the cross section structure schematic diagram of sheet in the thermal resistance system of tubular type；

Fig. 6 is another cross section structure schematic diagram connecting sheet in another embodiment of the present utility model and in the thermal resistance system of tubular type；

Fig. 7 is in another embodiment of the present utility model and the thermal resistance system of tubular type assembling structural representation

Detailed description of the invention

Below in conjunction with accompanying drawing, this utility model is described in further detail, to make those skilled in the art can implement according to this with reference to description word.

Should be appreciated that used herein such as " have ", existence or the interpolation of other elements one or more or its combination do not allotted in " comprising " and " including " term.

Fig. 1-3 illustrates the way of realization of the thermal resistance system according to of the present utility model a kind of and tubular type, including:

At least one thermal resistance unit 1, each described thermal resistance unit all includes two thermal resistance modules 110, and each described thermal resistance module all includes multiple arms 111 that interval predeterminable range carries out configuring,

nullWherein，In said two thermal resistance module, one end of each arm is arranged on the first main 120 respectively in the way of being staggered front to back or being oppositely disposed、On second main 130，The other end is plugged in backwater mechanism 140，Two groups of arm curtains are connected，The structural design of backwater mechanism makes two arms accessed to connect，The water flowed into by an arm will be flowed out by another arm，Backwater mechanism serves buffering current simultaneously、Allow the effect of impurities in water precipitation，Additionally the water yield in backwater mechanism also becomes arm simultaneously and forms the counterweight after a group，Make arm can form vertical shape，And corresponding arm respectively through a connecting piece and then connects to constitute a thermal resistance curtain in two thermal resistance modules，Every two arms adopt the connection sheet 150 of particular design to be connected with each other，Connect sheet and there is certain area，In order to reflect、Shut out the light，And

Each described thermal resistance unit respectively through the first main matched, the second main and then is connected with peripheral hardware, to constitute the thermal resistance system of also tubular type.Being set to hot and cold cistern 2,3 outside described, described hot and cold cistern is connected with solar thermal collection system 4 respectively through the water circulation mechanism matched.It realizes internal water circulation to constitute indoor and outdoor temperature difference by hot and cold pond, while it is connected with solar thermal collection system, be conducive to the comprehensive utilization of system, there is the benefit of better adaptability and practicality.nullAdopt the plastic branch technique in this scheme，To be connected with the plastics main carried as hydrophily by Plastic Welding mode as hydrophily distribution with the arm of heat exchange，Every main connects many arms，Form arm curtain，All arms need connect with main and ensure No leakage，Every arm one end is connected to each main in a manner described，The other end is connected in backwater mechanism，Two groups of above-mentioned arm curtains are parallel to be stacked，And make each layer arm stagger certain distance，Every two arms being simultaneously oppositely arranged adopt the connection sheet of particular design to be connected with each other，Connect sheet and have certain area，In order to reflect、Shut out the light，Above-mentioned two tube ends access backwater mechanism，Two groups of arm curtains are connected，The structural design of backwater mechanism makes two arms accessed to connect，The water flowed into by an arm will be flowed out by another arm，Backwater mechanism serves buffering current simultaneously、Allow the effect of impurities in water precipitation，Additionally the water yield in backwater mechanism also becomes two arms simultaneously and forms the counterweight after a group，Make arm can form vertical shape，Have can implementation result good，Stability，Energy-conserving and environment-protective，Adaptable benefit.Further, this mode is the explanation of a kind of preferred embodiments, but is not limited thereto.When implementing this utility model, it is possible to carry out suitable amendment and replacement according to user demand.

As shown in Figure 4, in another kind of example, also include fixed mount 160, described fixed mount includes chute (not shown) and the first support plate 161 and the second support plate 162 in pivot joint state, the free end of described first support plate is provided with an installation portion 163 projected upwards, described installation portion is defined for the position to fixed mount that combines with installed surface, the free end of described second support plate is provided with a slide block 164 consistent with installation portion projected direction, described slide block matches with chute, so that the displacement state between the first support plate after pivot joint and the second support plate is defined, and described second support plate is additionally provided with one and first main at the opposite face of slide block, the fastener 165 that second main matches, described fastener is for being fixed the first main and the second main.Adopt the main fixed mount in this scheme, two mains are fixed on frame by adopting the structure of particular design by it, so that mutual dislocation can be there is in two groups of arm curtains, and then form different angles, constitute different shaded effects, have can implementation result good, strong adaptability, the benefit of good stability.Further, this mode is the explanation of a kind of preferred embodiments, but is not limited thereto.When implementing this utility model, it is possible to carry out suitable amendment and replacement according to user demand.

As shown in Fig. 5 or 6, in another kind of example, described connection sheet is flap structure, it has two arc grooves 151 matched with arm external structure, wherein, the length of described connection sheet is set to match with the length of tube being exposed to outside, and width is set to and in thermal resistance module, between each arm, the predeterminable range at interval matches.Adopt this scheme so that connecting sheet there is certain area, to have better shaded effect, the benefit of better adaptability and practicality.Further, this mode is the explanation of a kind of preferred embodiments, but is not limited thereto.When implementing this utility model, it is possible to carry out suitable amendment and replacement according to user demand.

As it is shown in figure 5, in another kind of example, the opening of described arc groove is towards unanimously.Adopt this scheme simply wherein preferably embodiment in, with have can implementation result good, good stability, it is easy to the benefit installed and safeguard.Further, this mode is the explanation of a kind of preferred embodiments, but is not limited thereto.When implementing this utility model, it is possible to carry out suitable amendment and replacement according to user demand.

As shown in Figure 6, in another kind of example, the opening of described arc groove is towards on the contrary.Adopting this scheme is another kind preferably embodiment, to have better exploitativeness, and stability, reliability, the benefit of operability.Further, this mode is the explanation of a kind of preferred embodiments, but is not limited thereto.When implementing this utility model, it is possible to carry out suitable amendment and replacement according to user demand.

As it is shown in figure 1, in another kind of example, described backwater mechanism is a backwater ball, and described backwater bag draws together episphere 141, lower semisphere 142, and described episphere, lower semisphere configure removably.The structure adopting the backwater ball in this scheme is divided into upper and lower two halves so that it is can separate to clean internal precipitate impurity, have easy to maintenance, can implementation result good, adaptable benefit.Further, this mode is the explanation of a kind of preferred embodiments, but is not limited thereto.When implementing this utility model, it is possible to carry out suitable amendment and replacement according to user demand.

As it is shown in figure 1, in another kind of example, described episphere is provided with the water space 143 of indent, is provided with flexible absorbent material 144 in described water space removably, described lower semisphere is provided with leakage mouth 145.The backwater ball in this scheme is adopted to be provided with bowl-shape water space at the arrival end of arm, the solidifying water being likely to occur during for accepting and cooling down summer, and solidifying water can directly be absorbed by flexible absorbent material, make it water will be caused to overflow because of the reason such as rocking, and regularly it can be carried out water squeezing process, it is simple to regular maintenance, have can implementation result good, strong adaptability, the benefit of good stability.Further, this mode is the explanation of a kind of preferred embodiments, but is not limited thereto.When implementing this utility model, it is possible to carry out suitable amendment and replacement according to user demand.

In another kind of example, the mode of matched in clearance is adopted to be attached between described arm and the first main, the second arm, junction both it is provided with the first sealing mechanism (not shown) matched, and described arm is provided with the second sealing mechanism (not shown) matched with the junction of backwater mechanism.Adopt the mode that the matched in clearance in this scheme matches with the first sealing mechanism, make to connect sheet when each main remains stationary as, each group of arm can be carried out on-demand adjustment, to adapt to different use needs, and it is equipped with the second sealing mechanism at the access digit of two arms of backwater ball, prevent the hydrophily in arm from oozing out, there is exploitativeness good, the benefit that stability is strong.Further, this mode is the explanation of a kind of preferred embodiments, but is not limited thereto.When implementing this utility model, it is possible to carry out suitable amendment and replacement according to user demand.

In another kind of example, described first main, the second main adopt Double-layer pipe to make, to be constituted an insulated cavity (not shown) between lateral wall and medial wall, its role is to the energy loss in course of conveying is effectively controlled, the lateral wall of described arm is provided with anti-skidding striped, so that it contacts closely with connecting sheet.Adopt this scheme have can implementation result good, benefit that stability is strong.Further, this mode is the explanation of a kind of preferred embodiments, but is not limited thereto.When implementing this utility model, it is possible to carry out suitable amendment and replacement according to user demand.

In another kind of example, described thermal resistance unit is between the first adjacent between two main, the second main, respectively through the flexible pipe (not shown) matched and then connection.What adopt in this scheme is hose connection, it is simple to when different demand by pulling open or folding mode selects block or expose glass part, having can implementation result benefit good, adaptable.Further, this mode is the explanation of a kind of preferred embodiments, but is not limited thereto.When implementing this utility model, it is possible to carry out suitable amendment and replacement according to user demand.

Embodiment 1:

1, first by fix two mains two panels arm curtain be fixed on fixed mount, form overall arm thermal resistance curtain (every optional 600mm of elementary section main)；

2, above-mentioned main fixed mount is arranged at (tradition curtain position, press close to glass) inside glass curtain wall；

3, freely being hung down by manifold portion, corresponding two arms in two main positions, as one group, are fixed by fixation clamp every suitable distance and are formed louver curtain form (length of tube depending on glass curtain wall part clear height, such as 2000mm)；

4, one end open for also pipe arm is inserted back into water polo, makes two arms form freely-suspended state by the weight of backwater ball；

What 5, two mains were respectively connected to hydrophily supplies return pipe, becomes a hydrophily blood circulation.Glass of building curtain-walling section thermal insulating capability is formed in water flowing situation；

6, soft connection is adopted between each section, it is simple to when different demand by pulling open or folding mode selects block or expose glass part；

7, the angle of louver shape curtain and the glass part formed by two arms and fixation clamp is changed by two main modes of parallel misalignment, thus regulating the amount of incident of sunlight；

The present embodiment can adopt regenerative resource or low-grade energy to access, to reduce building energy consumption to a great extent.

The present embodiment can also adopt eased Technology, has manufactured and can make full use of regenerative resource reduction constructure screen wall sub-load, thus reducing building energy consumption.

Number of devices described herein and treatment scale are used to simplify explanation of the present utility model.Of the present utility model and the thermal resistance systematic difference of tubular type, modifications and variations be will be readily apparent to persons skilled in the art.

Although embodiment of the present utility model is disclosed as above, but it is not restricted in description and embodiment listed utilization.It can be applied to the various field being suitable for this practicality completely.For those skilled in the art, it is easily achieved other amendment.Therefore, under the general concept limited without departing substantially from claim and equivalency range, this practicality is not limited to specific details and shown here as the legend with description.

Claims (10)

1. the thermal resistance system of a kind and tubular type, it is characterised in that including:

At least one thermal resistance unit, each described thermal resistance unit all includes two thermal resistance modules, and each described thermal resistance module all includes multiple arms that interval predeterminable range carries out configuring,

Wherein, in said two thermal resistance module, one end of each arm is respectively to be arranged on the first main, the second main in the way of being staggered front to back or being oppositely disposed, the other end is plugged in backwater mechanism, and corresponding arm respectively through a connecting piece and then connects to constitute a thermal resistance curtain in two thermal resistance modules, and

Each described thermal resistance unit respectively through the first main matched, the second main and then is connected with peripheral hardware, to constitute the thermal resistance system of also tubular type.

2. the thermal resistance system of also tubular type as claimed in claim 1, it is characterized in that, also include fixed mount, described fixed mount includes chute and the first support plate in pivot joint state and the second support plate, the free end of described first support plate is provided with an installation portion projected upwards, the free end of described second support plate is provided with a slide block consistent with installation portion projected direction, and described second support plate is additionally provided with a fastener matched with the first main, the second main at the opposite face of slide block.

3. the thermal resistance system of also tubular type as claimed in claim 1, it is characterized in that, described connection sheet is flap structure, it has two arc grooves matched with arm external structure, wherein, the length of described connection sheet is set to match with the length of tube being exposed to outside, and width is set to and in thermal resistance module, between each arm, the predeterminable range at interval matches.

4. the thermal resistance system of also tubular type as claimed in claim 3, it is characterised in that the opening of described arc groove is towards unanimously.

5. the thermal resistance system of also tubular type as claimed in claim 3, it is characterised in that the opening of described arc groove is towards on the contrary.

6. the thermal resistance system of also tubular type as claimed in claim 1, it is characterised in that described backwater mechanism is a backwater ball, and described backwater bag draws together episphere, lower semisphere, and described episphere, lower semisphere configure removably.

7. the thermal resistance system of also tubular type as claimed in claim 6, it is characterised in that be provided with the water space of indent on described episphere, be provided with flexible absorbent material in described water space removably, described lower semisphere is provided with leakage mouth.

8. the thermal resistance system of also tubular type as claimed in claim 1, it is characterized in that, the mode of matched in clearance is adopted to be attached between described arm and the first main, the second arm, junction both it is provided with the first sealing mechanism matched, and described arm is provided with, with the junction of backwater mechanism, the second sealing mechanism matched.

9. the thermal resistance system of also tubular type as claimed in claim 1, it is characterized in that, described first main, the second main adopt Double-layer pipe to make, to be constituted an insulated cavity between lateral wall and medial wall, the lateral wall of described arm is provided with anti-skidding striped, so that it contacts closely with connecting sheet.

10. the thermal resistance system of also tubular type as claimed in claim 1, it is characterised in that described thermal resistance unit is between the first adjacent between two main, the second main, respectively through the flexible pipe matched and then connection.