CN214664925U

CN214664925U - Energy-conserving building curtain subassembly of radiating fin extensible

Info

Publication number: CN214664925U
Application number: CN202121034940.4U
Authority: CN
Inventors: 白海龙; 张育怀; 杨伟
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-05-14
Filing date: 2021-05-14
Publication date: 2021-11-09
Anticipated expiration: 2031-05-14

Abstract

The utility model discloses an energy-conserving building curtain subassembly of radiating fin extensible, including the supporting mechanism, the supporting mechanism right side is connected with heat dissipation mechanism, heat dissipation mechanism includes the fixed block, the inside flexible pneumatic cylinder that is provided with of fixed block, flexible pneumatic cylinder left side is provided with the slider, the inside connecting rod that is provided with of fixed block, the inside inserted bar that is provided with of fixed block, the inside spring that is provided with of fixed block. This energy-conserving building curtain wall subassembly of radiating fin extensible, can exchange the heat on the curtain wall board through the fin, reduce indoor temperature, let indoor temperature keep at a suitable temperature, the protection old man is healthy with the minor's health, reduce the condition of some high temperature heatstroke of indoor emergence, the promotion of push rod and ejector pad, let the fin launch, begin to exchange the heat to the curtain, reduce indoor temperature, the more simple and convenient of the expansion of fin, and easy operation.

Description

Energy-conserving building curtain subassembly of radiating fin extensible

Technical Field

The utility model relates to a building technical field specifically is an energy-conserving building curtain subassembly of radiating fin extensible.

Background

The curtain wall is the outer wall enclosure of the building, does not bear the weight, hang like the curtain, so also called "curtain wall", it is the common light wall with decorative effect of modern large-scale and high-rise building, it is made up of panel and supporting structure system, can have certain displacement ability or self have certain deformability relative to the main structure, do not bear the building exterior enclosure structure or decorative structure that the main structure acts on.

The existing radiating fin increases the heat exchange surface area of a heat exchange device and improves the heat exchange efficiency by adding a metal sheet with stronger heat conductivity on the surface of the heat exchange device needing heat transfer, and the metal sheet with the function is called as a fin.

However, the curtain wall in the current market has poor heat dissipation effect due to the interconnection of a plurality of curtain wall plates after installation, and after the curtain wall irradiates in the sun for a long time, the indoor temperature is high, so that people in the room can suffer from heatstroke and syncope, the health of people is seriously harmed, and the indoor high temperature can cause harm to the health of minors and old people.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an energy-conserving building curtain subassembly of radiating fin extensible to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the energy-saving building curtain wall assembly with the extensible radiating fins comprises a supporting mechanism, wherein a radiating mechanism is connected to the right side of the supporting mechanism.

The heat dissipation mechanism comprises a fixed block, a telescopic hydraulic cylinder is arranged inside the fixed block, a sliding block is arranged on the left side of the telescopic hydraulic cylinder, a connecting rod is arranged inside the fixed block, an insertion rod is arranged inside the fixed block, a spring is arranged inside the fixed block, a Z-shaped connecting block is arranged on the bottom surface of the fixed block, the insertion rod can be pushed to be inserted through the Z-shaped connecting block, the insertion rod can be rebounded through the spring, the connecting rod can be pushed to move through the insertion rod, the connecting rod can be moved through the sliding block, the sliding block can be pushed to move inside the fixed block, and the internal device of the heat dissipation mechanism can be fixed through the fixed block.

Preferably, the heat dissipation mechanism comprises a bracket, a rotating shaft is arranged in the bracket, fins are arranged on the left side of the bracket, a rotating shaft is arranged on the right side of the bracket, a push rod is arranged in the bracket, a push block is arranged in the bracket, a steel wire rope is arranged in the bracket, a rotating roller is arranged in the bracket, a fixed block is arranged in the bracket, the internal device of the heat dissipation mechanism can be fixed by arranging the bracket, the fins can be driven to move by arranging the steel wire rope, the steel wire rope can move by arranging the rotary rod, the push block can push the steel wire rope, the push rod can push the fins to be unfolded, can dispel the heat to the curtain through being provided with the fin, have the axis of rotation to let Z type connecting block rotate through social group, can let the fin rotate through being provided with the pivot.

Preferably, the supporting mechanism comprises a curtain wall, a supporting rod is arranged on the right side of the curtain wall, and the heat dissipation mechanism can be conveniently detached and more conveniently dissipate heat through the supporting rod.

Preferably, the fin left side is connected with the axis of rotation, the quantity of fin is two, the left side the fin upper end is provided with wire rope, wire rope surface connection has the roller of changeing, the wire rope right side is connected with the pivot, and the push rod rotates Z type connecting block, and Z type connecting block uses the axis of rotation to carry out anticlockwise rotation as the centre of a circle, and the axis of rotation begins rotatoryly, collects wire rope, and wire rope removes on changeing the rod, reduces frictional force, increases wire rope's live time, and wire rope drives the fin and uses the pivot to carry out clockwise rotation as the centre of a circle.

Preferably, the connecting rod right side is connected with the inserted bar, the inserted bar upper end is provided with the spring, the inserted bar bottom surface is provided with Z type connecting block, be provided with the pivot in the middle of the Z type connecting block, spring through the fixed block inside begins to kick-back, promotes the inserted bar and removes, and the inserted bar breaks away from with the connecting rod, and flexible pneumatic cylinder begins to shrink, drives the connecting rod and removes, has driven push rod and ejector pad and has removed, and the ejector pad returns the normal position, and the right side fin loses the support, and the fin uses the pivot to carry out clockwise rotation as the centre of a circle, and the fin returns the normal position.

Preferably, the quantity of connecting rod is two, the left side the connecting rod right side is connected with the push rod, the right side the connecting rod left side is connected with the ejector pad, the ejector pad top is connected with the fin, promotes the inserted bar downwards through the right side of Z type connecting block, and the inserted bar promotes the ejector pad, and telescopic hydraulic cylinder begins to start, drives the slider and removes inside the fixed block, and the ejector pad promotes right side fin, and the fin carries out anticlockwise rotation with the pivot centre of a circle, and the ejector pad top is supporting the fin, and the fin expandes, begins to cool down to the curtain.

Preferably, Z type connecting block right side is connected with the fixed block, the fixed block left side is provided with the axis of rotation, the fixed block right side is provided with the fin, the inside connecting rod that is provided with of fixed block, the inside push rod that is provided with of fixed block is connected with the fixed block through the edge of Z type connecting block, and the left side promotion inserted bar rebound of Z type connecting block promotes the connecting rod and removes left, and telescopic hydraulic cylinder begins to start, drives the slider and removes inside the fixed block, promotes the push rod and removes left, and the push rod promotes left side fin, and the fin uses the pivot to carry out anticlockwise rotation as the centre of a circle, and the bottom surface and the fixed block of fin are connected.

Compared with the prior art, the beneficial effects of the utility model are that:

1. this energy-conserving building curtain wall assembly of radiating fin extensible can exchange the heat on the curtain wall board through the fin, reduces indoor temperature, lets indoor temperature keep at a suitable temperature, and the protection old man is healthy with the minor's health, reduces the condition of some high temperature heatstroke that indoor emergence.

2. This energy-conserving building curtain subassembly of radiating fin extensible through the promotion of push rod and ejector pad, lets the fin expand, begins to exchange the heat to the curtain, reduces indoor temperature, and the expansion of fin is simple and convenient more, easy operation.

3. This energy-conserving building curtain subassembly of radiating fin extensible rotates through the axis of rotation, drives wire rope and removes, lets the fin begin to rotate, begins to speak the fin and collects, prevents the damage of fin, protects the safety of fin, reduces the waste of resource.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a schematic sectional view of the front view of the structure of the present invention;

FIG. 3 is a schematic view of the heat dissipation mechanism of the present invention;

FIG. 4 is a schematic view of the structure fixing block of the present invention;

fig. 5 is a partially enlarged schematic view of a structure at a in fig. 4 according to the present invention.

In the figure: 1. a support mechanism; 101. curtain wall; 102. a support bar; 2. a heat dissipation mechanism; 201. a support; 202. a fin; 203. a rotating shaft; 204. a Z-shaped connecting block; 205. a rotating shaft; 206. a push rod; 207. inserting a rod; 208. a spring; 209. a telescopic hydraulic cylinder; 210. a connecting rod; 211. a slider; 212. a push block; 213. a wire rope; 214. rotating the roller; 215. and (5) fixing blocks.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: an energy-saving building curtain wall assembly with extensible radiating fins comprises a supporting mechanism 1, wherein a radiating mechanism 2 is movably connected to the right side of the supporting mechanism 1.

The heat dissipation mechanism 2 comprises a fixed block 215, a telescopic hydraulic cylinder 209 is arranged inside the fixed block 215, a slider 211 is arranged on the left side of the telescopic hydraulic cylinder 209, a connecting rod 210 is arranged inside the fixed block 215, an inserting rod 207 is movably connected to the right side of the connecting rod 210, a spring 208 is arranged at the upper end of the inserting rod 207, a Z-shaped connecting block 204 is arranged on the bottom surface of the inserting rod 207, a rotating shaft 203 is arranged in the middle of the Z-shaped connecting block 204, the inserting rod 207 is pushed to move by rebounding through the spring 208 inside the fixed block 215, the inserting rod 207 is separated from the connecting rod 210, the telescopic hydraulic cylinder 209 begins to contract to drive the connecting rod 210 to move, the push rod 206 and the push block 212 are driven to move, the push block 212 returns to the original position, the right fin 202 loses support, the fin 202 rotates clockwise by taking the rotating shaft 203 as the circle center, the fin 202 returns to the original position, the inserting rod 207 is arranged inside the fixed block 215, the spring 208 is arranged inside the fixed block 215, fixed block 215 bottom surface is provided with Z type connecting block 204, can promote the inserted bar 207 to peg graft through being provided with Z type connecting block 204, can let the inserted bar 207 kick-back through being provided with spring 208, can promote connecting rod 210 to remove through being provided with inserted bar 207, can let connecting rod 210 remove about through being provided with slider 211, can promote slider 211 and move inside fixed block 215 through being provided with flexible pneumatic cylinder 209, can fix 2 internal devices of heat dissipation mechanism through being provided with fixed block 215.

The heat dissipation mechanism 2 comprises a support 201, a rotating shaft 205 is arranged inside the support 201, fins 202 are arranged on the left side of the support 201, a rotating shaft 203 is arranged on the right side of the support 201, push rods 206 are arranged inside the support 201, two connecting rods 210 are arranged inside the support 201, the push rod 206 is movably connected on the right side of the left connecting rod 210, the push rod 212 is movably connected on the left side of the right connecting rod 210, the fins 202 are movably connected at the top end of the push rod 212, an inserting rod 207 is pushed downwards through the right side of a Z-shaped connecting block 204, the inserting rod 207 pushes the push rod 212, a telescopic hydraulic cylinder 209 starts to be started to drive a sliding block 211 to move inside a fixing block 215, the push rod 212 pushes the right fins 202, the fins 202 rotate anticlockwise around the center of the rotating shaft 203, the fins 202 are supported at the top end of the push rod 212, the fins 202 are unfolded to start cooling of the curtain wall 101, and a steel wire rope 213 is arranged inside the support 201, the rotating roller 214 is arranged in the support 201, the rotating shaft 205 is movably connected to the left side of the fin 202, the number of the fins 202 is two, the steel wire rope 213 is arranged at the upper end of the fin 202 on the left side, the rotating roller 214 is movably connected to the surface of the steel wire rope 213, the rotating shaft 203 is fixedly connected to the right side of the steel wire rope 213, the push rod 206 rotates the Z-shaped connecting block 204, the Z-shaped connecting block 204 rotates anticlockwise around the rotating shaft 205, the rotating shaft 205 starts to rotate, the steel wire rope 213 is collected, the steel wire rope 213 moves on the rotating shaft, friction force is reduced, the service time of the steel wire rope 213 is increased, the steel wire rope 213 drives the fin 202 to rotate clockwise around the rotating shaft 203, the fixing block 215 is arranged in the support 201, the fixing block 215 is movably connected to the right side of the Z-shaped connecting block 204, the rotating shaft 205 is arranged on the left side of the fixing block 215, the fin 202 is arranged on the right side of the fixing block 215, and the connecting rod 210 is arranged in the fixing block 215, a push rod 206 is arranged inside the fixed block 215 and is connected with the fixed block 215 through the edge of the Z-shaped connecting block 204, the left side of the Z-shaped connecting block 204 pushes the inserted rod 207 to move upwards, the connecting rod 210 is pushed to move leftwards, the telescopic hydraulic cylinder 209 starts to start to drive the sliding block 211 to move inside the fixed block 215, the push rod 206 pushes the left side fin 202, the fin 202 rotates anticlockwise by taking the rotating shaft 203 as a circle center, the bottom surface of the fin 202 is connected with the fixed block 215, the internal device of the heat dissipation mechanism 2 can be fixed through the bracket 201, the fin 202 can be driven to move through the steel wire rope 213, the steel wire rope 213 can be driven to move through the rotating rod, the pushing block 212 can push the fin 202 to unfold through the push rod 206, and the curtain wall 101 can be cooled through the fin 202, the Z-shaped connecting block 204 can be rotated by the rotation shaft 205 of the social group, and the fin 202 can be rotated by the rotation shaft 203.

The supporting mechanism 1 comprises a curtain wall 101, a supporting rod 102 is arranged on the right side of the curtain wall 101, and the heat dissipation mechanism 2 can be conveniently detached and more conveniently dissipate heat through the supporting rod 102.

When the energy-saving building curtain wall component is used, the Z-shaped connecting block 204 of the energy-saving building curtain wall component with the expandable radiating fins rotates, the edge of the Z-shaped connecting block 204 is connected with the fixed block 215, the left side of the Z-shaped connecting block 204 pushes the inserted rod 207 to move upwards, the connecting rod 210 is pushed to move leftwards, the telescopic hydraulic cylinder 209 starts to start, the sliding block 211 is driven to move inside the fixed block 215, the push rod 206 is pushed to move leftwards, the push rod 206 pushes the left side fin 202, the fin 202 rotates anticlockwise around the rotating shaft 203, the bottom surface of the fin 202 is connected with the fixed block 215, the right side of the Z-shaped connecting block 204 pushes the inserted rod 207 downwards, the inserted rod 207 pushes the push block 212, the telescopic hydraulic cylinder 209 starts to start, the sliding block 211 is driven to move inside the fixed block 215, the push block 212 pushes the right side fin 202, the fin 202 rotates anticlockwise around the center of the rotating shaft 203, and the top end of the push block 212 supports the fin 202, after the temperature reduction is finished, the Z-shaped connecting block 204 is rotated, the Z-shaped connecting block 204 rotates anticlockwise by taking the rotating shaft 205 as a circle center, the rotating shaft 205 starts to rotate, the steel wire rope 213 is collected, the steel wire rope 213 moves on a rotating rod, friction force is reduced, the service time of the steel wire rope 213 is prolonged, the steel wire rope 213 drives the fin 202 to rotate clockwise by taking the rotating shaft 203 as the circle center, the fin 202 is separated from the fixed block 215, the spring 208 inside the fixed block 215 starts to rebound, the inserting rod 207 is pushed to move, the inserting rod 207 is separated from the connecting rod 210, the telescopic hydraulic cylinder 209 starts to contract, the connecting rod 210 is driven to move, the push rod 206 and the push block 212 are driven to move, the push block 212 returns to the original position, the right-side fin 202 loses support, the fin 202 rotates clockwise by taking the rotating shaft 203 as the circle center, and the fin 202 returns to the original position.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an energy-conserving building curtain subassembly of radiating fin extensible, includes supporting mechanism (1), its characterized in that: the right side of the supporting mechanism (1) is connected with a heat dissipation mechanism (2);

the heat dissipation mechanism (2) comprises a fixing block (215), a telescopic hydraulic cylinder (209) is arranged inside the fixing block (215), a sliding block (211) is arranged on the left side of the telescopic hydraulic cylinder (209), a connecting rod (210) is arranged inside the fixing block (215), an inserting rod (207) is arranged inside the fixing block (215), a spring (208) is arranged inside the fixing block (215), and a Z-shaped connecting block (204) is arranged on the bottom surface of the fixing block (215).

2. The energy-saving building curtain wall assembly with the expandable radiating fins as claimed in claim 1, wherein: the heat dissipation mechanism (2) comprises a support (201), a rotating shaft (205) is arranged inside the support (201), fins (202) are arranged on the left side of the support (201), a rotating shaft (203) is arranged on the right side of the support (201), a push rod (206) is arranged inside the support (201), a push block (212) is arranged inside the support (201), a steel wire rope (213) is arranged inside the support (201), a rotating roller (214) is arranged inside the support (201), and a fixing block (215) is arranged inside the support (201).

3. The energy-saving building curtain wall assembly with the expandable radiating fins as claimed in claim 1, wherein: the supporting mechanism (1) comprises a curtain wall (101), and a supporting rod (102) is arranged on the right side of the curtain wall (101).

4. The energy-saving building curtain wall assembly with the expandable radiating fins as claimed in claim 2, wherein: fin (202) left side is connected with axis of rotation (205), the quantity of fin (202) is two, the left side fin (202) upper end is provided with wire rope (213), wire rope (213) surface connection has commentaries on classics roller (214), wire rope (213) right side is connected with pivot (203).

5. The energy-saving building curtain wall assembly with the expandable radiating fins as claimed in claim 2, wherein: the right side of the connecting rod (210) is connected with an inserting rod (207), the upper end of the inserting rod (207) is provided with a spring (208), the bottom surface of the inserting rod (207) is provided with a Z-shaped connecting block (204), and a rotating shaft (203) is arranged in the middle of the Z-shaped connecting block (204).

6. The energy-saving building curtain wall assembly with the expandable radiating fins as claimed in claim 2, wherein: the quantity of connecting rod (210) is two, the left side connecting rod (210) right side is connected with push rod (206), the right side connecting rod (210) left side is connected with ejector pad (212), ejector pad (212) top is connected with fin (202).

7. The energy-saving building curtain wall assembly with the expandable radiating fins as claimed in claim 1, wherein: the right side of the Z-shaped connecting block (204) is connected with a fixing block (215), the left side of the fixing block (215) is provided with a rotating shaft (205), the right side of the fixing block (215) is provided with a fin (202), a connecting rod (210) is arranged inside the fixing block (215), and a push rod (206) is arranged inside the fixing block (215).