CN215295241U - Heat radiator for building - Google Patents

Abstract

The utility model relates to a heat abstractor for building, the sound insulation protective wall comprises a wall body, wall body both sides face symmetry is equipped with heat dissipation ventilation structure, each heat dissipation ventilation structure includes air pipe, heat dissipation case mechanism and sliding door mechanism, sliding door mechanism locates wall body medial surface middle part, and inside the wall body that sliding door mechanism corresponds was located to heat dissipation case mechanism, air pipe located in the wall body, and was located heat dissipation case mechanism top, air pipe both ends respectively with heat dissipation case mechanism and external intercommunication. The utility model discloses a heat abstractor for building can move down the sliding door to the recess in when not needing the heat dissipation ventilation through setting up sliding door mechanism, will push up when needs heat dissipation ventilation and move and block the sliding door through the door shelves structure, convenient to use and nimble. Just the utility model discloses put through setting up heat dissipation case mechanism can be when needs ventilate the starter motor, rotate the fan, because indoor both sides face all is equipped with heat dissipation and ventilation structure, indoor formation air convection when both sides start simultaneously for indoor quick ventilation cooling.

Description

Heat radiator for building

Technical Field

The utility model relates to a building technical field, concretely relates to heat abstractor for building.

Background

Along with the society develops gradually, the floor of building is higher and higher, and high floor makes effective volume increase, if do not have the window in the building, then ventilation in the space of building inside becomes an important factor that puzzles the use of high-rise building, if can not effectual solution problem of taking a breath, easily cause the air in the building to be turbid on the one hand, seriously harm interior personnel physical and mental health, on the other hand has also caused the inside heat of building to give off inefficiency, leads to the inside temperature rise of building serious to lead to inside energy consumption greatly increased that is used for the refrigeration.

The building heat dissipation device in the prior art generally carries out refrigeration through an air conditioner, and if the air conditioner is used all the time in a high-temperature environment in summer, the energy consumption is huge. And the air conditioner can bring the dry problem of indoor air, influences indoor people healthy, and if when the indoor temperature maintains in the scope that needs ventilation cooling but need not use the air conditioner, turn on the air conditioner and can cause the waste more, does not turn on the air conditioner and need ventilation cooling again.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a heat abstractor for building is provided to solve the inside problem that needs heat dissipation and ventilation of building among the prior art.

For solving the above technical problem, the technical scheme of the utility model is that: the utility model provides a heat abstractor for building, includes the wall body, the wall body is the indoor shape wall body of falling U of building, and the wall body both sides are the wall body on indoor relative two sides, and its innovation point lies in: wall body both sides face symmetry is equipped with heat dissipation ventilation structure, each heat dissipation ventilation structure includes air pipe, heat dissipation case mechanism and sliding door mechanism, and sliding door mechanism locates wall body medial surface middle part, inside the wall body that sliding door mechanism corresponds was located to heat dissipation case mechanism, and air pipe located in the wall body, and was located heat dissipation case mechanism top, air pipe both ends respectively with heat dissipation case mechanism and external intercommunication.

Further, heat dissipation case mechanism includes box, motor, transmission shaft, fan and first filter screen, air pipe lower extreme and air pipe intercommunication are arranged in to the box, the box is close to indoor side and is first filter screen, the motor is fixed on the box is close to outdoor medial surface, motor and fan pass through the transmission shaft and connect.

Further, the motor is electrically connected with an indoor power supply.

Further, the sliding door mechanism comprises a sliding door, a door slot, a handle and a door stop structure, the sliding door is arranged on the inner side surface of the wall body corresponding to the heat dissipation box mechanism, the door slot is arranged above the sliding door and can be used for enabling the sliding door to move upwards, the handle is fixed on the lower portion of the sliding door and corresponds to the wall body at the lower end of the sliding door is provided with a groove, when the sliding door is closed, the lower end of the sliding door is arranged in the groove, the door stop structure is arranged in the wall body at the upper portion of the sliding door and located above the heat dissipation box mechanism, and when the sliding door moves upwards to the upper portion of the door stop structure, the door stop structure can block the sliding door to enable the sliding door not to move downwards.

Furthermore, the door shield structure has two, two in the wall body on pushing away door upper portion is located to the door shield structure symmetry, each the door shield structure includes cross slot, spring and dog, be equipped with the cross slot in the wall body on pushing away door upper portion, the spring transversely sets up, and both ends fixed cross slot medial surface and dog respectively.

Furthermore, the end part of the ventilation pipeline communicated with the outside is provided with a second filter screen.

Compared with the prior art, the utility model, the beneficial effect who produces does:

(1) the utility model discloses a heat abstractor for building can move down the sliding door to the recess in when not needing the heat dissipation ventilation through setting up sliding door mechanism, will push up when needs heat dissipation ventilation and move and block the sliding door through the door shelves structure, convenient to use and nimble.

(2) The utility model discloses a heat abstractor for building can be at the starter motor when needs ventilate through setting up heat dissipation case mechanism, rotates the fan, because indoor both sides face all is equipped with heat dissipation and ventilation structure, indoor formation air convection when both sides start simultaneously for indoor quick ventilation cooling, it is high-efficient swift.

(3) The utility model discloses a heat abstractor for building has set up first filter screen and second filter screen, can avoid indoor or outdoor impurity to get into and cause the device to damage or life subtract weak point in the box or air pipe when guaranteeing ventilation cooling.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a front cross-sectional view of a heat dissipation device for building of the present invention.

Fig. 2 is an enlarged schematic structural view (a schematic view of a heat dissipation box mechanism) at a point a in fig. 1.

Fig. 3 is a schematic view of the side of the wall body of the heat dissipation device for building when the sliding door is closed.

Fig. 4 is a schematic view of the heat dissipation device for building when the side sliding door is opened.

Fig. 5 is an enlarged schematic structural view (a schematic structural view of the door stopper) at B in fig. 1.

The air conditioner comprises a wall body 1, a ventilating duct 2, a box body 3, a motor 4, a transmission shaft 5, a fan 6, a first filter screen 7, a sliding door 8, a door groove 9, a handle 10, a groove 11, a transverse groove 12, a spring 13, a stop block 14 and a second filter screen 15.

Detailed Description

The technical solution of the present invention will be described clearly and completely through the following detailed description

The utility model provides a heat abstractor for building, concrete structure is as shown in figure 1, including wall body 1, wall body 1 is the indoor shape wall body of falling the U of building, and wall body 1 both sides are the wall body 1 on indoor relative two sides, and 1 bilateral symmetry of wall body is equipped with heat dissipation ventilation structure, and the heat dissipation ventilation structure of both sides face can make the room air form the convection current, dispels the heat and ventilates fast. Each heat dissipation ventilation structure includes air pipe 2, heat dissipation case mechanism and sliding door mechanism, and sliding door mechanism locates 1 medial surface middle part of wall body, and inside the sliding door mechanism located 1 wall body that the sliding door mechanism corresponds, air pipe 2 located 1 wall body, and be located heat dissipation case mechanism top, air pipe 2 both ends respectively with heat dissipation case mechanism and external intercommunication.

The utility model discloses a concrete structure of heat abstractor's for building heat dissipation case mechanism is as shown in figure 2, including box 3, motor 4, transmission shaft 5, fan 6 and first filter screen 7, box 3 arranges air pipe 2 lower extreme in and communicates with air pipe 2, and box 3 is close to indoor side and is first filter screen 7, and motor 4 fixes and is close to outdoor medial surface at box 3 on, and motor 4 and fan 6 pass through transmission shaft 5 and connect. The motor 4 is electrically connected with an indoor power supply, and when the motor 4 needs to be started, the indoor power supply connected with the motor is used for controlling so as to drive the fan 6 to rotate for ventilation.

The utility model discloses a concrete structure of sliding door mechanism is as shown in fig. 3 and 4, including sliding door 8, gate slot 9, handle 10 and door shelves structure, sliding door 8 locates 1 medial surface of wall body that heat dissipation case mechanism corresponds, and the rebound sliding door 8 of being convenient for exposes heat dissipation case mechanism and carries out the ventilation of dispelling the heat. The door slot 9 is arranged above the sliding door 8 and can be used for the sliding door 8 to move upwards, the handle 10 is fixed at the lower part of the sliding door 8, the groove 11 is arranged on the wall body 1 corresponding to the lower end of the sliding door 8, when the sliding door 8 is closed, the lower end of the sliding door 8 is arranged in the groove 11, the sealing performance of the sliding door 8 and the wall body 1 can be increased, the door stop structure is arranged in the wall body 1 on the upper part of the sliding door 8, in order to completely expose the heat dissipation box mechanism during heat dissipation and ventilation, the door stop structure is arranged above the heat dissipation box mechanism, and when the sliding door 8 moves upwards to the top of the door stop structure, the door stop structure can stop the sliding door 8 from moving downwards.

The utility model discloses a heat abstractor's for building door shield structure has two, and two door shield structure symmetries are located in the wall body 1 on sliding door 8 upper portion, and each door shield structure is as shown in figure 5, including cross slot 12, spring 13 and dog 14, be equipped with cross slot 12 in the wall body 1 on sliding door 8 upper portion, spring 13 transversely sets up, and both ends are fixed cross slot 12 medial surface and dog 14 respectively, when sliding door 8 closes, sliding door 8 has the extrusion to dog 14, when sliding door 8 moves up to dog 14 top, receives the effect of spring 13, and dog 14 pops out wall body 1, stops at sliding door 8 lower extreme, the utility model discloses a spring 13's hardness can bear stopping to sliding door 8, and spring 13's elasticity can block sliding door 8 for just making dog 14 pop out the part.

The utility model discloses a heat abstractor's for building air pipe 2 and the tip of external intercommunication are equipped with second filter screen 15, and the use of first filter screen 7 and second filter screen 15 can avoid indoor or outdoor impurity to cause the device to damage or life subtract weak point in getting into box 3 or air pipe 2 when guaranteeing ventilation cooling.

The utility model discloses a heat abstractor for building's theory of use does: when heat dissipation and ventilation are not needed, the push door 8 is closed, and the lower end of the push door 8 is arranged in the groove 11; when heat dissipation and ventilation are needed indoors, the handle 10 is held by a hand, the sliding door 8 moves upwards until the stop block 14 just pops up to stop the sliding door 8 to move downwards, the motor 4 is started to drive the fan 6 to rotate, the fans 6 on the two sides of the wall body 1 simultaneously rotate to drive indoor air convection, indoor ventilation and heat dissipation are accelerated, and accordingly indoor heat dissipation inside the building is completed.

The above-mentioned embodiments are only described as the preferred embodiments of the present invention, and are not intended to limit the concept and scope of the present invention, and the technical content of the present invention, which is claimed by the present invention, is fully recorded in the technical claims.

Claims (6)

1. The utility model provides a heat abstractor for building, includes the wall body, the wall body is the indoor shape wall body of falling U of building, the wall body both sides are the wall body on indoor relative two sides, its characterized in that: wall body both sides face symmetry is equipped with heat dissipation ventilation structure, each heat dissipation ventilation structure includes air pipe, heat dissipation case mechanism and sliding door mechanism, sliding door mechanism locates wall body medial surface middle part, inside the wall body that sliding door mechanism corresponds was located to heat dissipation case mechanism, air pipe locates in the wall body, and is located heat dissipation case mechanism top, air pipe both ends communicate with heat dissipation case mechanism and external world respectively.

2. The heat dissipating device for buildings as claimed in claim 1, wherein: the heat dissipation case mechanism includes box, motor, transmission shaft, fan and first filter screen, air pipe lower extreme and communicate with air pipe are arranged in to the box, the box is close to indoor side and is first filter screen, the motor is fixed on the box is close to outdoor medial surface, motor and fan pass through the transmission shaft and connect.

3. The heat dissipating device for buildings as claimed in claim 2, wherein: the motor is electrically connected with an indoor power supply.

4. The heat dissipating device for buildings as claimed in claim 1, wherein: the sliding door mechanism comprises a sliding door, a door slot, a handle and a door stop structure, the sliding door is arranged on the inner side surface of the wall body corresponding to the heat dissipation box mechanism, the door slot is arranged above the sliding door and can be used for enabling the sliding door to move upwards, the handle is fixed on the lower portion of the sliding door and corresponds to the groove formed in the wall body at the lower end of the sliding door, when the sliding door is closed, the lower end of the sliding door is arranged in the groove, the door stop structure is arranged in the wall body at the upper portion of the sliding door and located above the heat dissipation box mechanism, and when the sliding door moves upwards to the upper portion of the door stop structure, the door stop structure can block the sliding door to enable the sliding door not to move downwards.

5. The heat dissipating device for buildings as claimed in claim 4, wherein: the door shield structure has two, two in the wall body on sliding door upper portion is located to door shield structure symmetry, each the door shield structure includes cross slot, spring and dog, be equipped with the cross slot in the wall body on sliding door upper portion, the spring transversely sets up, and both ends fixed cross slot medial surface and dog respectively.

6. The heat dissipating device for buildings as claimed in claim 1, wherein: the end parts of the ventilation pipeline and the outside are communicated with each other and are provided with second filter screens.

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