CN210770691U - Building energy-saving heat-preserving equipment - Google Patents

Abstract

The utility model discloses a building energy-saving heat preservation equipment, including fixing support, support column, insulating tube and lifting disk, just fixing support top end face intermediate position is provided with the support column perpendicularly, just the cavity has been seted up in the support column, just the lifting disk has been cup jointed in support column week side, lifting disk top end face annular array has four insulating tubes of group, and four groups the other end slope of insulating tube sets up in support column top side, lifting disk top end face just is located the insulating tube and has all seted up the spout under perpendicular, four groups equal sliding connection has the slider in the spout, slider top end face is articulated with the insulating tube bottom end face, the spacing groove has vertically been seted up in support column week side, just the spacing groove runs through to in the cavity, be provided with the lead screw in the cavity of support column, the inside step motor that is provided with of fixing support. This building energy saving and heat preservation equipment can be convenient for adjust the inclination of insulating tube, satisfies the use of different occasions.

Description

Building energy-saving heat-preserving equipment

Technical Field

The utility model belongs to the technical field of the building, concretely relates to building energy saving and heat preservation equipment.

Background

The building is a general name of buildings and structures, and is a general name of the buildings and the structures, which aims to meet the needs of social life of people, people utilize the grasped substance technical means and apply certain scientific rules and adopt energy-saving technologies, processes, equipment, materials and products, thereby improving the heat preservation and insulation performance and the efficiency of heating, air-conditioning, refrigerating and heating systems, strengthening the operation management of energy systems for the buildings, utilizing renewable energy sources, and increasing the heat exchange resistance between indoor and outdoor energy on the premise of ensuring the quality of indoor thermal environment so as to reduce the energy consumption of the heating systems, the air-conditioning, refrigerating and heating, the illumination and the hot water supply caused by large heat consumption.

The embodiment takes the insulating tube as an example, and the insulating tube in the prior art only has rotation adjustment when adjusting the angle, and does not have the inclination angle adjusting function, so that the insulating tube is lack of the adjusting function in practical application.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a building energy conservation and heat preservation equipment to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the building energy-saving heat-insulating equipment comprises a fixed support, support columns, heat-insulating pipes and a lifting disc, wherein the fixed support is of a rectangular structure, the support columns are vertically arranged in the middle of the top end face of the fixed support, cavities are formed in the support columns, and the lifting disc is sleeved on the periphery of each support column;

four groups of heat preservation pipes are arranged on the top end face annular array of the lifting disc, the other ends of the four groups of heat preservation pipes are obliquely arranged on the top side of the supporting column, sliding chutes are respectively arranged on the top end surface of the lifting disc and vertically below the heat preservation pipe, sliding blocks are respectively connected in the four groups of sliding chutes in a sliding manner, the top end surface of the slide block is hinged with the bottom end surface of the heat preservation pipe, the periphery of the support column is longitudinally provided with a limit groove, the limit groove penetrates into the cavity, a lead screw is arranged in the cavity of the support column, a stepping motor is arranged in the fixed support, the output end of the stepping motor is connected with the screw rod, the inner ring of the lifting disc is fixedly welded with a connecting ring, and the connecting ring is sleeved with the support column, a T-shaped threaded sleeve matched with the screw thread of the lead screw is fixedly welded on the inner wall of one side of the connecting ring fitting limiting groove, and a rod piece of the T-shaped threaded sleeve is matched with the limiting groove to slide.

Preferably, support column top end face fixed welding has the installation cover, just four group's stroke grooves, four groups have been seted up to installation cover top end face annular the shrinkage pool has been seted up in the middle of the stroke groove, and is provided with the spheroid in the shrinkage pool, four group's mounting holes have been seted up to spheroid week side annular array, and install the roating sphere in the mounting hole, the welding of roating sphere one side has the connecting rod, and the connecting rod runs through to the spheroid outside and is connected with the insulating tube top.

Preferably, the protective box is sleeved on the periphery of the stepping motor, a half-cone gear is arranged in the middle of the bottom end face of the protective box through a rotating shaft, a rotating rod is connected to the outer side of the fixed support in a penetrating manner, and a cone gear meshed with the half-cone gear is fixedly sleeved at the other end of the rotating rod.

Preferably, the top end face of the mounting sleeve is provided with a fixed top cover, the bottom end face of the fixed top cover is provided with an electric telescopic rod, and the telescopic end of the electric telescopic rod is fixedly connected with the ball body.

Preferably, a protective noise reduction layer for reducing noise of the stepping motor is fixedly bonded on the inner wall of the fixed support.

The utility model discloses a technological effect and advantage: according to the building energy-saving heat-insulating equipment, the stepping motor, the lead screw, the T-shaped threaded sleeve, the connecting ring and the lifting disc are arranged, the stepping motor drives the lead screw to rotate, the lead screw drives the T-shaped threaded sleeve, the connecting ring and the lifting disc to lift on the supporting column, the sliding block and the sliding groove are matched to slide, the sliding block drives the heat-insulating pipe to move, the inclination angle of the heat-insulating pipe is adjusted, and the use requirements of different occasions are met; by arranging the mounting sleeve, the stroke groove, the ball body, the rotary ball and the connecting rod, the rotary ball rotates in the ball body at a certain angle, so that the connecting rod drives the heat preservation pipe to rotate along with the movement of the sliding block, and the heat preservation pipe is convenient to adjust; by arranging the rotary rod, the semi-conical gear and the conical gear, the rotary rod drives the conical gear to rotate, and the conical gear drives the semi-conical gear to rotate, so that the rotary adjustment of the heat preservation pipe is facilitated; this building energy saving and heat preservation equipment can be convenient for adjust the inclination of insulating tube, satisfies the use of different occasions.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a cross-sectional view of the support post of the present invention;

fig. 3 is a cross-sectional view of the mounting sleeve of the present invention.

In the figure: the device comprises a fixed support 1, a support column 2, a heat preservation pipe 3, a lifting disc 4, a connecting ring 5, a rotating rod 6, a limiting groove 7, a sliding groove 8, a sliding block 9, a mounting sleeve 10, a stroke groove 11, a lead screw 12, a threaded sleeve 13T-shaped, a protective noise reduction layer 14, a stepping motor 15, a semi-conical gear 16, a sphere 17, an electric telescopic rod 18 and a rotating ball 19.

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.

The utility model provides a building energy-saving heat-insulating device as shown in figures 1-3, which comprises a fixed support 1, a support column 2, a heat-insulating pipe 3 and a lifting disc 4, wherein the fixed support 1 is in a rectangular structure, the support column 2 is vertically arranged at the middle position of the top end surface of the fixed support 1, a cavity is arranged in the support column 2, and the lifting disc 4 is sleeved on the periphery of the support column 2;

the top end face of the lifting disc 4 is provided with four groups of heat preservation pipes 3 in an annular array, the other ends of the four groups of heat preservation pipes 3 are obliquely arranged on the top side of the support column 2, the top end face of the lifting disc 4 is vertically and directly below the heat preservation pipes 3 and is provided with a sliding groove 8, the four groups of sliding grooves 8 are internally and slidably connected with a sliding block 9, the top end face of the sliding block 9 is hinged with the bottom end face of the heat preservation pipe 3, the peripheral side of the support column 2 is longitudinally provided with a limiting groove 7, the limiting groove 7 penetrates into the cavity, a lead screw 12 is arranged in the cavity of the support column 2, a stepping motor 15 is arranged inside the fixed support 1, the output end of the stepping motor 15 is connected with the lead screw 12, an inner ring of the lifting disc 4 is fixedly welded with a connecting ring 5, the connecting ring 5 is sleeved with the support column 2, and a, and the rod piece of the T-shaped threaded sleeve 13 is matched with the limiting groove 7 to slide, the stepping motor 15 drives the lead screw 12 to rotate, the lead screw 12 drives the T-shaped threaded sleeve 13, the connecting ring 5 and the lifting disc 4 to lift on the supporting column 2, the sliding block 9 is matched with the sliding groove 8 to slide, the sliding block 9 drives the heat preservation pipe 3 to move, and the inclination angle of the heat preservation pipe 3 is adjusted.

Specifically, 2 top end face fixed welding of support column has installation cover 10, just four group's stroke groove 11, four groups have been seted up to installation cover 10 top end face annular the shrinkage pool has been seted up in the middle of stroke groove 11, and is provided with spheroid 17 in the shrinkage pool, four group's mounting holes have been seted up to spheroid 17 week side annular array, and install roating sphere 19 in the mounting hole, 19 one side welding of roating sphere has the connecting rod, and the connecting rod runs through to the spheroid 17 outside and be connected with insulating tube 3 top, and roating sphere 19 rotates at certain angle in spheroid 17 for the connecting rod drives insulating tube 3 and rotates along with the removal of slider 9, the insulating tube 3's of being convenient for regulation.

Specifically, 15 week sides of step motor have cup jointed the protecting box, and protecting box bottom end face intermediate position is provided with half conical gear 16 through the pivot, 1 outside through connection of fixing support has swing arm 6, the other end of swing arm 6 is fixed to be cup jointed the conical gear who is connected with the meshing of half conical gear 16, and swing arm 6 drives conical gear and rotates, and conical gear drives half conical gear 16 rotatoryly, and the rotatory regulation of the insulating tube 3 of being convenient for, the protecting box passes through the bearing and is connected with fixing support 1.

Specifically, the top end face of the mounting sleeve 10 is provided with a fixed top cover, the bottom end face of the fixed top cover is provided with an electric telescopic rod 18, the telescopic end of the electric telescopic rod 18 is fixedly connected with the ball body 17, and the electric telescopic rod 18 drives the ball body 17 to lift, so that the height of the heat preservation pipe 3 can be adjusted conveniently.

Specifically, a protective noise reduction layer 14 for reducing noise of the stepping motor 15 is fixedly bonded on the inner wall of the fixed support 1, so that the noise reduction effect is achieved.

Specifically, this building energy-saving insulation equipment, step motor 15 drives lead screw 12 and rotates, lead screw 12 drives T shape thread bush 13, go-between 5 and lifting disk 4 go up and down on support column 2, slider 9 slides with the cooperation of spout 8, slider 9 drives insulating tube 3 and removes, adjust the inclination of insulating tube 3, roating ball 19 rotates at certain angle in spheroid 17, the connecting rod drives insulating tube 3 and rotates along with the removal of slider 9, swing arm 6 drives the bevel gear and rotates, bevel gear drives half bevel gear 16 rotatory, electric telescopic handle 18 drives spheroid 17 and goes up and down. This building energy saving and heat preservation equipment can be convenient for adjust the inclination of insulating tube, satisfies the use of different occasions.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (5)

1. The utility model provides a building energy-saving heat preservation equipment, includes fixing support (1), support column (2), insulating tube (3) and lifter plate (4), its characterized in that: the fixed support (1) is of a rectangular structure, a support column (2) is vertically arranged in the middle of the top end face of the fixed support (1), a cavity is formed in the support column (2), and a lifting disc (4) is sleeved on the periphery of the support column (2);

the lifting disc (4) top end face annular array is provided with four groups of heat preservation pipes (3), the other ends of the four groups of heat preservation pipes (3) are obliquely arranged on the top side of the supporting column (2), the top end face of the lifting disc (4) is positioned under the heat preservation pipes (3) vertically, sliding grooves (8) are formed in the four groups of sliding grooves (8), sliding blocks (9) are connected in the four groups of sliding grooves in a sliding mode, the top end face of each sliding block (9) is hinged to the bottom end face of each heat preservation pipe (3), limiting grooves (7) are longitudinally formed in the peripheral sides of the supporting column (2), the limiting grooves (7) penetrate into the cavity, a lead screw (12) is arranged in the cavity of the supporting column (2), a stepping motor (15) is arranged inside the fixed support (1), the output end of the stepping motor (15) is connected with the lead screw (12), and a connecting ring, and the connecting ring (5) is sleeved with the supporting column (2), a T-shaped threaded sleeve (13) in threaded fit with the lead screw (12) is fixedly welded on the inner wall of one side of the connecting ring (5) attached to the limiting groove (7), and a rod piece of the T-shaped threaded sleeve (13) slides in fit with the limiting groove (7).

2. The building energy-saving heat-insulating equipment as claimed in claim 1, wherein: support column (2) top end face fixed welding has installation cover (10), just four group's stroke groove (11), four groups have been seted up to installation cover (10) top end face annular four group the shrinkage pool has been seted up in the middle of stroke groove (11), and is provided with spheroid (17) in the shrinkage pool, four group's mounting holes have been seted up to spheroid (17) week side annular array, and install swivel ball (19) in the mounting hole, swivel ball (19) one side welding has the connecting rod, and the connecting rod runs through to spheroid (17) outside and is connected with insulating tube (3) top.

3. The building energy-saving heat-insulating equipment as claimed in claim 1, wherein: step motor (15) week side has cup jointed the protecting box, and protecting box bottom end face intermediate position is provided with half conical gear (16) through the pivot, fixing support (1) outside through connection has swing arm (6), the fixed cover of the other end of swing arm (6) has connect the conical gear who is connected with half conical gear (16) meshing.

4. The building energy-saving heat-insulating equipment as claimed in claim 2, characterized in that: the top end face of the mounting sleeve (10) is provided with a fixed top cover, the bottom end face of the fixed top cover is provided with an electric telescopic rod (18), and the telescopic end of the electric telescopic rod (18) is fixedly connected with the ball body (17).

5. The building energy-saving heat-insulating equipment as claimed in claim 1, wherein: and a protective noise reduction layer (14) for reducing noise of the stepping motor (15) is fixedly bonded on the inner wall of the fixed support (1).

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