CN221097750U - Combined installation mechanism for corridor heating and ventilation pipeline - Google Patents

Abstract

The utility model discloses a combined installation mechanism of a corridor heating and ventilation pipeline, wherein an installation bottom plate is arranged at the top of an installation top plate, a connecting top seat is fixedly connected to the middle part of the top end of the installation top plate, an adjusting bottom rod is movably installed at the top end of the connecting top seat through a rotating shaft, an adjusting sleeve is sleeved at the top end of the adjusting bottom rod through threads, an adjusting top rod is installed at the top end of the adjusting sleeve through threads, the top end of the adjusting top rod is movably connected with the installation top seat through the rotating shaft, and a fixed top plate is fixedly installed at the top surface of the installation top seat.

Description

Combined installation mechanism for corridor heating and ventilation pipeline

Technical Field

The utility model relates to the technical field of corridor heating and ventilation pipelines, in particular to a corridor heating and ventilation pipeline combined installation mechanism.

Background

The thickness and specification of the heating and ventilation pipeline are variable according to requirements, usually, when the heating and ventilation pipeline is connected, two ends of an air pipe are always externally connected with accessories (such as an elbow and a reducing pipe), and generally, the heating and ventilation pipeline has no groove at two ends and is provided with a sealing ring, the heating and ventilation pipeline has a very wide application range, and a purification system air supply and return pipe, a central air conditioner ventilation pipe, an industrial air supply and exhaust ventilation pipe, an environmental protection system air suction and exhaust pipe, a mining glue spreading cloth cylinder and the like are required to be used as a mounting device in the process of mounting the heating and ventilation pipeline;

At present, most of pipeline installation can be prefabricated, so that the pipeline installation can be directly installed on site, and the overall speed is improved, but the current installation device is limited by the structure of the installation device in the installation process, so that the installation device cannot adjust the installation height of the heating pipeline after fixing the heating pipeline to a wall, the phenomenon of different heights easily occurs after the heating pipeline is installed, and the installation stability and the attractiveness of the heating pipeline are reduced.

Disclosure of utility model

The utility model provides a combined installation mechanism for a corridor heating and ventilation pipeline, which can effectively solve the problems that in the background technology, the installation device is limited by the structure of the installation device in the installation process, so that the installation height of the heating and ventilation pipeline cannot be adjusted after the heating and ventilation pipeline is fixed on a wall, the phenomenon of different heights easily occurs after the heating and ventilation pipeline is installed, and the installation stability and the attractiveness of the heating and ventilation pipeline are reduced.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the combined installation mechanism for the corridor heating and ventilation pipeline comprises an installation top plate, wherein an installation bottom plate is arranged at the top of the installation top plate;

The top of the mounting top plate is provided with a movable telescopic combination mechanism;

The movable telescopic combined mechanism comprises a connecting top seat, an adjusting bottom rod, an adjusting sleeve, an adjusting ejector rod, an installing top seat and a fixed top plate;

The top plate is characterized in that a connecting top seat is fixedly connected to the middle of the top end of the mounting top plate, an adjusting bottom rod is movably mounted on the top end of the connecting top seat through a rotating shaft, an adjusting sleeve is sleeved on the top end of the adjusting bottom rod through threads, an adjusting top rod is mounted on the top end of the adjusting sleeve through threads, the top end of the adjusting top rod is movably connected with the mounting top seat through the rotating shaft, and a fixed top plate is fixedly mounted on the top surface of the mounting top seat.

Preferably, the side surfaces of the mounting top plate and the mounting bottom plate are fixed through bolts, a gap is reserved between the end parts of the adjusting bottom rod and the adjusting top rod, and mounting holes are formed in two sides of the bottom surface of the fixed top plate.

Preferably, the side surface of the mounting top plate is provided with a side surface splicing and fastening mechanism;

The side face splicing and confining mechanism comprises a splicing side plate, a fixed back strip, a buffer film, a splicing bolt and a fixed nut;

The middle parts of the two sides of the mounting top plate are fixedly connected with splicing side plates, the back surfaces of the splicing side plates are fixedly connected with fixed back strips at the positions corresponding to the top parts of the two sides of the mounting top plate, the middle part of the outer side of the spliced side plate is adhered with a buffer film, the spliced side plate and the middle part of the side surface of the buffer film are inserted with splicing bolts, and one end of the outer side of each splicing bolt is sleeved with a fixing nut through threads.

Preferably, the spliced side plates of the side surfaces of the adjacent two mounting top plates are aligned with each other, and the bottoms of the back surfaces of the spliced side plates are tightly attached to the side surfaces of the mounting bottom plates.

Preferably, an internal flexible limiting mechanism is arranged in the mounting top plate;

The inner flexible limiting mechanism comprises a limiting adhesive tape, a filling adhesive tape and a bottom clamping sleeve;

The side edges of the two ends of the inner side of the installation top plate and the two ends of the inner side of the installation bottom plate are respectively adhered with a limiting adhesive tape, the middle parts of the inner sides of the installation top plate and the installation bottom plate are respectively adhered with a filling adhesive tape, and the middle parts of the bottom surfaces of the outer sides of the installation bottom plate are adhered with bottom clamping sleeves.

Preferably, the side surfaces of the limiting adhesive tape are respectively flush with the end surfaces of the mounting top plate and the mounting bottom plate, and the thickness of the filling adhesive tape is larger than that of the limiting adhesive tape.

Compared with the prior art, the utility model has the beneficial effects that: the utility model has scientific and reasonable structure and safe and convenient use:

1. The movable telescopic combined mechanism is arranged, the adjusting bottom rod and each component connected with the adjusting bottom rod are all installed at the top of the installation top plate through the connecting top seat, then the fixed top plate is fixed onto a corresponding building wall through the expansion bolts, when the heights of all sections of heating pipelines on the inner side of the installation top plate are found to be different, the torsion adjusting sleeve is matched with the threads on the end parts of the adjusting bottom rod and the adjusting top rod, so that the adjusting bottom rod and the adjusting top rod are mutually close to each other, further, the adjusting bottom rod and the components on the bottom of the adjusting bottom rod are driven to ascend through the rotation of the adjusting sleeve, further, the heating pipelines on the bottom of the installation top plate are driven to synchronously ascend through the ascending of the connecting top seat, the heating pipelines on all sections can be kept at the same height, the phenomenon of fluctuation of the heating pipelines after being installed is effectively avoided, the installation stability of the heating pipelines is effectively improved, the installation of an integrated installation can be realized, the working time is reduced, the prefabrication of a factory can be realized, the level between all the pipelines can be ensured through the laser machine on site, the adjustment can be simultaneously carried out, and the installation efficiency is greatly improved.

2. The side splicing confinement mechanism is arranged, an additional connecting point is arranged on the side surface of the installation top plate through the splicing side plate, the connecting strength between the back of the splicing side plate and the installation top plate is enhanced through the fixing back strip, the side surfaces of the adjacent two installation top plates are spliced through the splicing bolts, the adjacent two splicing side plates are driven to approach each other through the tightening fixing nuts, the side surfaces of the splicing side plates are protected through the buffer film in the process that the splicing side plates approach each other, the adjacent two installation top plates are driven to approach each other through the splicing side plates, the gap between the heating pipeline is adjusted, the installation tightness of the heating pipeline is effectively improved, and the use effect of the installation device is further optimized.

3. The internal flexible limiting mechanism is arranged, gaps at two ends of the installation top plate and the installation bottom plate are sealed through the limiting adhesive tape, gaps in the middle of the installation top plate and the installation bottom plate can be sealed through the filling adhesive tape, the phenomenon that abrasion occurs when relative motion occurs between the installation top plate and the installation bottom plate after the installation of the heating and ventilation pipeline is effectively prevented, abrasion in the use process of the installation top plate and the installation bottom plate is effectively reduced, the bottom of the installation bottom plate can be installed with the marking card through the bottom clamping sleeve, the trend and the function of the heating and ventilation pipeline are marked, and the function of the installation device is effectively expanded.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model.

In the drawings:

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the movable telescopic combination mechanism of the present utility model;

FIG. 3 is a schematic diagram of a side splice confinement mechanism of the present utility model;

FIG. 4 is a schematic view of the internal flexible limiting mechanism of the present utility model;

Reference numerals in the drawings: 1. installing a top plate; 2. a mounting base plate;

3. a movable telescopic combined mechanism; 301. connecting with a top seat; 302. adjusting the bottom rod; 303. an adjusting sleeve; 304. adjusting the ejector rod; 305. installing a top seat; 306. fixing the top plate;

4. A side splicing and confining mechanism; 401. splicing side plates; 402. fixing the back strip; 403. buffering the film; 404. splicing bolts; 405. a fixing nut;

5. An internal flexible limiting mechanism; 501. a limiting adhesive tape; 502. filling adhesive tape; 503. and the bottom is clamped with the sleeve.

Detailed Description

The preferred embodiments of the present utility model will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present utility model only, and are not intended to limit the present utility model.

Examples: as shown in fig. 1-4, the utility model provides a technical scheme, namely a combined installation mechanism for a corridor heating and ventilation pipeline, which comprises an installation top plate 1, wherein an installation bottom plate 2 is arranged at the top of the installation top plate 1;

The top of the mounting top plate 1 is provided with a movable telescopic combined mechanism 3;

The movable telescopic combined mechanism 3 comprises a connecting top seat 301, an adjusting bottom rod 302, an adjusting sleeve 303, an adjusting top rod 304, an installing top seat 305 and a fixed top plate 306;

The middle part of the top end of the installation roof 1 is fixedly connected with a connection roof 301, the top end of the connection roof 301 is movably provided with an adjustment bottom rod 302 through a rotating shaft, the top end of the adjustment bottom rod 302 is sleeved with an adjustment sleeve 303 through threads, the top end of the inside of the adjustment sleeve 303 is provided with an adjustment top rod 304 through threads, the top end of the adjustment top rod 304 is movably connected with an installation roof 305 through the rotating shaft, the top surface of the installation roof 305 is fixedly provided with a fixed roof 306, the sides of the bottom surface of the fixed roof 306 are respectively provided with a mounting hole, the adjustment bottom rod 302 and each component connected with the adjustment bottom rod 302 are respectively mounted on the top of the installation roof 1 through the connection roof 301, then the fixed roof 306 is fixed on a corresponding building wall through expansion bolts, when the heights of all sections of heating pipelines inside the installation roof 1 are found to be different, the adjustment bottom rod 302 and the adjustment top rod 304 are matched through the threads of the adjustment sleeve 303, so that the adjustment bottom rod 302 and the adjustment top rod 304 are mutually close, parts of the installation roof 302 and the bottom of the installation roof are driven to rise through the rotation of the adjustment sleeve 303, and the same heating pipeline can be prevented from rising through the same heating pipeline, and the rising and the same heating pipeline can be effectively and the rising and the heating pipeline can be prevented from being in a high-efficient and low-temperature condition;

the side surface of the mounting top plate 1 is provided with a side surface splicing and confining mechanism 4;

The side splicing confinement mechanism 4 comprises a splicing side plate 401, a fixed back strip 402, a buffer film 403, a splicing bolt 404 and a fixed nut 405;

The middle parts of two sides of the installation top plate 1 are fixedly connected with splicing side plates 401, the back surfaces of the splicing side plates 401 are fixedly connected with fixed back strips 402 at positions corresponding to the tops of the two sides of the installation top plate 1, buffer films 403 are adhered to the middle parts of the outer sides of the splicing side plates 401, splicing bolts 404 are inserted into the middle parts of the side surfaces of the splicing side plates 401 and the buffer films 403, one end of the outer side of each splicing bolt 404 is in threaded sleeve joint with the splicing side plates 401 of two adjacent installation top plate 1 sides through fixing nuts 405, the bottoms of the back surfaces of the splicing side plates 401 are tightly attached to the side surfaces of the installation bottom plate 2, additional connecting points are arranged on the side surfaces of the installation top plate 1 through the splicing side plates 401, the connecting strength between the back surfaces of the splicing side plates 401 and the installation top plate 1 is enhanced through the fixed back strips 402, the adjacent two installation top plate 1 sides are spliced through the splicing bolts 404, the adjacent two installation side plates 401 are driven to be close through tightening the fixing nuts 405, the side plates 401 are protected through the buffer films 403 in the process of the adjacent installation side plates 401, the adjacent installation top plates 1 are driven to be close to each other through the buffer films, and accordingly, the gap between the adjacent two installation top plates 1 is driven through the splicing side plates 401, the installation top plates are adjusted, the installation effect of a heating pipeline is further optimized, the installation effect is further, and the installation effect is optimized;

an internal flexible limiting mechanism 5 is arranged in the mounting top plate 1;

The inner flexible limiting mechanism 5 comprises a limiting adhesive tape 501, a filling adhesive tape 502 and a bottom clamping sleeve 503;

The side parts of the two ends of the inner sides of the installation top plate 1 and the installation bottom plate 2 are respectively adhered with the limiting adhesive tape 501, the middle parts of the inner sides of the installation top plate 1 and the installation bottom plate 2 are respectively adhered with the filling adhesive tape 502, the middle parts of the outer sides of the installation bottom plate 2 are adhered with the bottom clamping sleeves 503, the side surfaces of the limiting adhesive tape 501 are respectively flush with the end surfaces of the installation top plate 1 and the installation bottom plate 2, the thickness of the filling adhesive tape 502 is larger than that of the limiting adhesive tape 501, gaps between the two ends of the installation top plate 1 and the installation bottom plate 2 are sealed through the limiting adhesive tape 501, the gaps between the middle parts of the installation top plate 1 and the installation bottom plate 2 can be sealed through the filling adhesive tape 502, the abrasion phenomenon caused when the relative motion between the installation top plate 1 and the installation bottom plate 2 occurs after the installation of a heating pipeline is effectively prevented, the abrasion in the use process of the installation top plate 1 and the installation bottom plate 2 is effectively reduced, the marking cards can be installed at the bottom of the installation bottom plate 2 through the bottom clamping sleeves 503, the marking of the heating pipeline trend and the functions is effectively expanded.

The working principle and the using flow of the utility model are as follows: in the practical application process, when the heating and ventilation pipeline is installed through the installation device, the installation top plate 1 and the installation bottom plate 2 are sleeved on the outer side of the heating and ventilation pipeline through bolts, the adjusting bottom rod 302 and components connected with the adjusting bottom rod 302 are installed on the top of the installation top plate 1 through the connecting top seat 301, and then the fixed top plate 306 is fixed on a corresponding building wall through expansion bolts;

When the heights of the heating and ventilation pipelines at the bottom of the installation roof 1 are found to be different, the torsion adjusting sleeve 303 is matched with the threads at the end parts of the adjusting bottom rod 302 and the adjusting top rod 304, so that the adjusting bottom rod 302 and the adjusting top rod 304 are mutually close, the parts at the bottom of the adjusting bottom rod 302 are driven to ascend through the rotation of the adjusting sleeve 303, and then the heating and ventilation pipelines at the bottom of the installation roof 1 are driven to synchronously ascend through the ascending of the connecting top seat 301, so that the heating and ventilation pipelines at each section can be kept at the same height, the phenomenon of fluctuation after the heating and ventilation pipelines are installed is effectively avoided, and the installation stability of the heating and ventilation pipelines is effectively improved;

When the gap between the heating and ventilation pipelines is required to be adjusted, an additional connection point is arranged on the side surface of the installation top plate 1 through the splicing side plate 401, the connection strength between the back of the splicing side plate 401 and the installation top plate 1 is enhanced through the fixed back strip 402, the side surfaces of the adjacent two installation top plates 1 are spliced through the splicing bolts 404, the adjacent two splicing side plates 401 are driven to approach through the tightening of the fixing nuts 405, the side surfaces of the splicing side plates 401 are protected through the buffer film 403 in the process of mutually approaching the splicing side plates 401, and the adjacent two installation top plates 1 are driven to mutually approach through the splicing side plates 401, so that the gap between the heating and ventilation pipelines is adjusted, the installation compactness of the heating and ventilation pipelines is effectively improved, and the use effect of the installation device is further optimized;

When gaps between the outer side of the heating and ventilation pipeline and the installation top plate 1 and the installation bottom plate 2 are required to be filled, two ends of the installation top plate 1 and the installation bottom plate 2 are sealed through the limiting adhesive tape 501, gaps in the middle of the installation top plate 1 and the installation bottom plate 2 can be sealed through the filling adhesive tape 502, the phenomenon that abrasion occurs when relative movement occurs between the heating and ventilation pipeline and the installation top plate 1 and the installation bottom plate 2 after the heating and ventilation pipeline is installed is effectively prevented, and abrasion in the use process of the installation top plate 1 and the installation bottom plate 2 is effectively reduced;

In addition, the marking card can be installed at the bottom of the installation bottom plate 2 through the bottom clamping sleeve 503, so that the trend and the function of the heating and ventilation pipeline can be marked, and the practical function of the installation device is effectively expanded.

Finally, it should be noted that: the foregoing is merely a preferred example of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (6)

1. The utility model provides a corridor heating and ventilation pipeline combination formula installation mechanism, includes installation roof (1), its characterized in that: the top of the mounting top plate (1) is provided with a mounting bottom plate (2);

the top of the mounting top plate (1) is provided with a movable telescopic combined mechanism (3);

The movable telescopic combined mechanism (3) comprises a connecting top seat (301), an adjusting bottom rod (302), an adjusting sleeve (303), an adjusting top rod (304), an installing top seat (305) and a fixed top plate (306);

The novel installation roof comprises an installation roof (1), and is characterized in that a connection roof base (301) is fixedly connected to the middle of the top end of the installation roof (1), an adjusting bottom rod (302) is movably mounted on the top end of the connection roof base (301) through a rotating shaft, an adjusting sleeve (303) is sleeved on the top end of the adjusting bottom rod (302) through threads, an adjusting ejector rod (304) is mounted on the top end of the adjusting sleeve (303) through threads, an installation roof base (305) is movably connected to the top end of the adjusting ejector rod (304) through a rotating shaft, and a fixed roof (306) is fixedly mounted on the top surface of the installation roof base (305).

2. The combined installation mechanism for the corridor heating and ventilation pipeline according to claim 1, wherein the installation top plate (1) and the side face of the installation bottom plate (2) are fixed through bolts, a gap is reserved between the end parts of the adjusting bottom rod (302) and the end parts of the adjusting top rod (304), and installation holes are formed in two sides of the bottom surface of the fixed top plate (306).

3. The combined installation mechanism of the corridor heating and ventilation pipeline according to claim 1, wherein a side splicing and confining mechanism (4) is arranged on the side surface of the installation top plate (1);

The side splicing and confining mechanism (4) comprises a splicing side plate (401), a fixed back strip (402), a buffer film (403), a splicing bolt (404) and a fixing nut (405);

The novel mounting structure is characterized in that splicing side plates (401) are fixedly connected to the middle parts of two sides of the mounting top plate (1), fixing back strips (402) are fixedly connected to the positions, corresponding to the tops of two sides of the mounting top plate (1), of the back surfaces of the splicing side plates (401), buffer films (403) are adhered to the middle parts of the outer sides of the splicing side plates (401), splicing bolts (404) are inserted into the middle parts of the side surfaces of the buffer films (403), and fixing nuts (405) are sleeved at one ends of the outer sides of the splicing bolts (404) through threads.

4. A combined installation mechanism for a corridor heating and ventilation pipeline according to claim 3, wherein the spliced side plates (401) on the side surfaces of two adjacent installation top plates (1) are aligned with each other, and the bottoms of the back surfaces of the spliced side plates (401) are tightly attached to the side surfaces of the installation bottom plate (2).

5. The combined installation mechanism of the corridor heating and ventilation pipeline according to claim 1, wherein an internal flexible limiting mechanism (5) is arranged inside the installation top plate (1);

The inner flexible limiting mechanism (5) comprises a limiting adhesive tape (501), a filling adhesive tape (502) and a bottom clamping sleeve (503);

The novel plastic sealing device is characterized in that limit rubber strips (501) are adhered to the edge parts of the two ends of the inner sides of the installation top plate (1) and the installation bottom plate (2), filling rubber strips (502) are adhered to the middle parts of the inner sides of the installation top plate (1) and the installation bottom plate (2), and bottom clamping sleeves (503) are adhered to the middle parts of the bottom surfaces of the outer sides of the installation bottom plate (2).

6. The combined installation mechanism for the corridor heating and ventilation pipeline according to claim 5, wherein the side surfaces of the limiting adhesive tape (501) are respectively flush with the end surfaces of the installation top plate (1) and the installation bottom plate (2), and the thickness of the filling adhesive tape (502) is larger than that of the limiting adhesive tape (501).