CN216952211U - Hoisting system of air pipe for purification engineering - Google Patents

Abstract

The utility model relates to a purify hoist and mount system of tuber pipe for engineering relates to the field of tuber pipe hoist and mount fitment, and it is including the bottom plate that is used for horizontal bearing tuber pipe, the bottom plate both sides are provided with the jib, the jib upper end is connected on the wall body at top, be provided with first cushion on the bottom plate, first cushion upper surface level just be suitable for with the laminating of tuber pipe lower surface, one side that the jib is close to the tuber pipe is provided with the elastic fixation subassembly, the elastic fixation subassembly be suitable for with the lateral wall laminating of tuber pipe. First cushion and the cooperation of elastic fixation subassembly in this application can carry out the flexible buffer between hoisting support and tuber pipe, avoid the tuber pipe direct and the hoisting support between bump, reduce the noise that produces in the tuber pipe in-service use process, improve the comfort of people in the building.

Description

Hoisting system of air pipe for purification engineering

Technical Field

The application relates to the field of tuber pipe hoist and mount fitment, especially relate to a hoist and mount system of tuber pipe for purification engineering.

Background

With the rapid development of economy, industries such as food, medical treatment and electronics which have higher requirements on air cleanliness are more and more, the requirements on the indoor air cleanliness grade are more and more strict, and the requirements and applications of air pipes for purification engineering are increased, wherein the construction and hoisting of the air pipes for the purification engineering are key links for ensuring the cleanliness of the whole air-conditioning ventilation system.

At present, the construction and hoisting of an air pipe in a building are mainly carried out by adopting an air pipe hoisting support, Chinese patent with patent application number 201620567349.8 discloses an air pipe hoisting support, the air pipe to be installed is hoisted below a steel structure truss, the air pipe hoisting support comprises a support which is made of flat steel according to the height and the width of the steel structure truss, two hanging rods are hung at the bottom, a bolt for hanging angle steel is penetrated between the hanging rods, and the angle steel is matched with angle steel arranged at the lower part of the steel structure truss to hoist the air pipe together; the air pipe hoisting support avoids welding and paint damaging the truss, is convenient to mount, and improves the working efficiency and the mounting quality

To the correlation technique among the aforesaid, the inventor discovers that the tuber pipe has certain vibrations in the in-service use, and the hoist and mount can collide with the hoisting support between above-mentioned tuber pipe hoisting support, produces great noise, influences the comfort of people in the building.

Disclosure of Invention

In order to improve the problem that the collision produced great noise between tuber pipe in-service use and the hoisting support, this application provides a hoist and mount system of tuber pipe for purification engineering.

The application provides a hoist and mount system of tuber pipe for purification engineering adopts following technical scheme:

the utility model provides a purify hoist and mount system of tuber pipe for engineering, is including the bottom plate that is used for horizontal bearing tuber pipe, the bottom plate both sides are provided with the jib, the jib upper end is connected on the wall body at top, be provided with first cushion on the bottom plate, first cushion upper surface level just is suitable for with the laminating of tuber pipe lower surface, one side that the jib is close to the tuber pipe is provided with the elastic fixation subassembly, the elastic fixation subassembly be suitable for with the lateral wall laminating of tuber pipe.

Through adopting above-mentioned technical scheme, the bottom plate has constituted the hoisting support of tuber pipe with the jib cooperation, the hoist and mount for the tuber pipe provide the installation basis, place on the bottom plate and hoist and mount when the wall body below at top when the tuber pipe, first cushion and elastic fixation subassembly can carry out the flexible buffer to the tuber pipe in the lower part of tuber pipe and the both sides of tuber pipe respectively, avoid the tuber pipe direct and the hoisting support between bump, reduce the noise that produces among the tuber pipe the in-service use process, improve the comfort of people in the building.

Optionally, the elastic fixing assembly comprises a spring, a butt pad and a positioning rod, the spring is horizontally arranged, one end of the spring is fixedly connected to one side, close to the air pipe, of the suspender, the other end of the spring is fixedly connected with the butt pad, the positioning rod is horizontally arranged in the spring in a penetrating mode, and one end, close to the butt pad, of the positioning rod is fixedly connected with the butt pad.

Through adopting above-mentioned technical scheme, when the tuber pipe was installed between two jibs, the spring can the atress shrink, and cooperation butt joint pad carries out elasticity top tightly with the locating lever to the lateral wall of tuber pipe both sides, fixes the tuber pipe on the horizontal direction to better vibrations to the tuber pipe adapt to, the better noise that reduces tuber pipe in-service use.

Optionally, the positions of the two sides of the lower support plate corresponding to the connecting hanging rods are provided with horizontal sliding grooves, the hanging rods penetrate through the sliding grooves and are connected in the sliding grooves in a sliding mode, the side walls of the two sides of the lower support plate correspondingly penetrate through second screw holes communicated with the sliding grooves, the axis of each second screw hole is perpendicular to the extending direction of the air pipe, threaded fixing pieces are connected in the second screw holes in a matched threaded mode, and the end portions of the threaded fixing pieces are suitable for being abutted to the hanging rods.

Through adopting above-mentioned technical scheme, horizontal translation rotation jib and rotation regulation screw thread mounting in the spout can adjust the distance between two jibs to adapt to the different specifications and the width of tuber pipe, make that the elastic fixation subassembly on jib and the jib can be better carry out the elasticity centre gripping to the tuber pipe fixed.

Optionally, the upper end of the suspension rod is connected with a vertical suspension spring damper, and one end of the suspension spring damper, which is far away from the suspension rod, is suitable for being fixedly connected with the top wall.

By adopting the technical scheme, when the vibration of the air pipe is transmitted upwards, the suspension type spring shock absorber can dissipate part of vibration at the lower part of the wall body, and can block the vibration effect, so that the suspension rod and the lower support plate are more stable; furthermore, the vibration effect of the suspension rod and the lower support plate transmitted to the suspension type spring damper is weakened, the suspension type spring damper is more stably connected with the wall, and the safety is improved.

Optionally, an auxiliary mounting part is arranged between the suspension rod and the suspension type spring damper at the upper end of the suspension rod, the upper end of the auxiliary mounting part is rotatably connected with the suspension type spring damper, a third screw hole is formed in the lower end of the auxiliary mounting part in a penetrating mode, and a screw rod which is suitable for being connected with the third screw hole in a threaded fit mode is arranged at the upper end of the suspension rod.

Through adopting above-mentioned technical scheme, supplementary installed part can be between jib and the formula spring damper that hangs the two supplementary installation, makes the elastic fixation subassembly on the jib remain throughout just to the tuber pipe setting, better carries out the shock attenuation to the tuber pipe.

Optionally, a telescopic fixed beam is arranged above the lower supporting plate, the upper telescopic fixed beam is parallel to the upper surface of the air pipe, two ends of the upper telescopic fixed beam are fixedly connected with the two suspenders respectively, a second elastic pad is arranged on the lower portion of the upper telescopic fixed beam, and the lower surface of the second elastic pad is suitable for being attached to the air pipe.

By adopting the technical scheme, the upper telescopic fixing beam can be abutted against the air pipe at the upper part of the air pipe and is matched with the lower supporting plate to further fix the air pipe in the vertical direction; the second cushion plays the effect of buffering shock attenuation between tuber pipe and last fixed flexible roof beam, has further reduced the noise that the tuber pipe vibrations produced.

Optionally, the suspender is vertically arranged, a supporting block for supporting the lower supporting plate is arranged at the lower end of the suspender, the transverse cross-sectional area of the supporting block is larger than that of the sliding groove, an external thread is arranged at the lower end of the suspender, and a first screw hole which is connected with the suspender in a matched threaded manner is arranged on the supporting block in a penetrating manner.

Through adopting above-mentioned technical scheme, rotate the supporting shoe and can make the bottom plate relatively go up fixed flexible roof beam and move on vertical direction, adapt to the adjustment to the distance that supplies the tuber pipe installation between bottom plate and the last fixed flexible roof beam, better adapt to the installation to the tuber pipe.

Optionally, heat dissipation holes are formed in the lower supporting plate in a penetrating mode and located below the air pipes.

Through adopting above-mentioned technical scheme, the heat of tuber pipe below can be taken away through the louvre to natural wind, cools down the tuber pipe, prolongs the life of tuber pipe.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the lower supporting plate, the suspender and the suspension spring damper at the upper end of the suspender are matched to form a suspension support of the air pipe, so that an installation foundation is provided for the air pipe, the first elastic cushion on the lower supporting plate and the elastic fixing component on the suspender can respectively perform flexible buffering on the air pipe at the lower part of the air pipe and at two sides of the air pipe, collision between the air pipe and the suspension support is avoided, noise generated in the actual use process of the air pipe is reduced, and the comfort of people in a building is improved;

2. by arranging the sliding groove and the threaded fixing part, the distance between the two hanging rods can be adjusted to adapt to different specifications and widths of the air pipe, so that the air pipe can be better elastically clamped and fixed;

3. through setting up flexible fixed beam and supporting shoe, can fix the tuber pipe on vertical direction, the buffering shock attenuation of the first cushion of cooperation and second cushion has further reduced the noise that the tuber pipe vibrations produced.

Drawings

FIG. 1 is a schematic view of an overall structure of an embodiment of the present application, which is mounted with an air duct and then hung on a building wall;

FIG. 2 is a schematic sectional view of a part of the structure of the lower support plate, the elastic fixing component and the upper telescopic fixing beam;

fig. 3 is an enlarged schematic view of the structure of part a in fig. 2.

Reference numerals: 1. a lower supporting plate; 11. a chute; 12. a first elastic pad; 13. heat dissipation holes; 14. a heat-dissipating web; 15. a threaded fastener; 151. a butterfly bolt; 152. a gasket; 2. an air duct; 3. a boom; 31. a support block; 32. a limiting block; 33. an elastic fixing component; 331. a spring; 332. abutting the pad; 333. positioning a rod; 334. an elastic protective sleeve; 34. a screw; 4. an upper telescopic fixed beam; 41. fixing the sleeve; 42. a connecting rod; 43. a second elastic pad; 5. a hanging spring damper; 6. a wall body; 7. an auxiliary mounting member.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a hoist and mount system of tuber pipe for purification engineering relates to the field of tuber pipe 2 hoist and mount fitment.

Referring to fig. 1 and 2, the hoist and mount system of air hose for purification engineering is including the bottom plate 1 that is used for horizontal bearing tuber pipe 2, bottom plate 1 is the rectangular plate, and the length direction of bottom plate 1 is mutually perpendicular with the extending direction of tuber pipe 2, vertical and relative two jibs 3 that are provided with in bottom plate 1 along its length direction's both sides, it is provided with flexible fixed beam 4 to lie in between two jibs 3 above bottom plate 1, go up flexible fixed beam 4 be used for with bottom plate 1 cooperation on vertical direction to tuber pipe 2 fixed, and go up flexible fixed beam 4 both ends perpendicular rigid coupling respectively on two jibs 3, be connected with hanging spring damper 5 in jib 3 upper end, hanging spring damper 5 is used for hoisting jib 3 on the wall body 6 at building top.

The lower supporting plate 1, the suspender 3 and the suspension type spring damper 5 at the upper end of the suspender 3 are matched to form a hoisting support of the air pipe 2, so that a mounting foundation is provided for the air pipe 2, and the air pipe 2 is hoisted and mounted on a wall body 6; a first elastic pad 12 and a second elastic pad 43 are fixedly connected to the upper part of the lower supporting plate 1 and the lower part of the upper telescopic fixing beam 4 respectively, the upper surface of the first elastic pad 12 is horizontal and is suitable for being attached to the lower surface of the air pipe 2, and the lower surface of the second elastic pad 43 is horizontal and is suitable for being attached to the upper surface of the air pipe 2; one sides of the two suspension rods 3 close to the air pipe 2 are fixedly connected with elastic fixing components 33, and one sides of the elastic fixing components 33 close to the air pipe 2 are suitable for being attached to the side walls of the air pipe 2; when tuber pipe 2 was placed on bottom plate 1 and hoisted in the wall body 6 below at top, first cushion 12 and elastic fixation subassembly 33 can carry out the flexible buffer to tuber pipe 2 respectively in the lower part of tuber pipe 2 and the both sides of tuber pipe 2, avoid the tuber pipe 2 directly and the lifting support between bump, reduce the noise that produces among the tuber pipe 2 in-service use.

Referring to fig. 2, horizontal sliding grooves 11 are formed in positions, corresponding to the connecting hanger rods 3, of two sides of the lower supporting plate 1 along the length direction of the lower supporting plate, the length direction of each sliding groove 11 is parallel to the length direction of the lower supporting plate 1, the hanger rods 3 penetrate through and are slidably connected into the sliding grooves 11, supporting blocks 31 for supporting the lower supporting plate 1 are connected to the lower ends of the hanger rods 3, the transverse cross-sectional areas of the supporting blocks 31 are larger than the transverse cross-sectional areas of the sliding grooves 11, external threads are formed in the lower ends of the hanger rods 3, the supporting blocks 31 are rectangular blocks, and first screw holes in threaded connection with the hanger rods 3 in a matched mode penetrate through the middle portions of the supporting blocks 31; rotating supporting shoe 31 can make bottom plate 1 go up fixed flexible roof beam relatively and move on vertical direction, adapts to the adjustment to the distance that supplies tuber pipe 2 installation between bottom plate 1 and the last fixed flexible roof beam, and better adapts to the installation to tuber pipe 2.

Further, the lower end of the suspender 3 is further fixedly connected with a limiting block 32, and the transverse cross-sectional area of the limiting block 32 is larger than that of the suspender 3, so that the supporting block 31 is limited at the bottom of the suspender 3, and the limiting block 32 is prevented from slipping from the lower part of the suspender 3.

The lateral wall of 1 both sides of bottom plate is gone up to correspond to run through and is seted up the second screw that communicates with spout 11, and the axis of second screw is unanimous with the length direction of spout 11, and the screw thread mounting 15 that is used for fixed jib 3 is connected with to cooperate screw thread in the second screw, and the tip of screw thread mounting 15 is suitable for and jib 3 butt to cooperate bottom plate 1 to carry out the tight fixed in top to jib 3 on the horizontal direction.

Referring to fig. 2, the threaded fastener 15 includes a horizontally disposed butterfly bolt 151 and a gasket 152 fixedly connected to an end of the butterfly bolt 151, the gasket 152 is used to increase a contact area between the threaded fastener 15 and the suspension rod 3, and the butterfly bolt 151 is rotated to enable the end of the butterfly bolt 151 to tightly abut against the suspension rod 3, so that the suspension rod 3 can be conveniently fixed on the lower supporting plate 1.

The rectangular heat dissipation holes 13 are further formed in the middle of the lower supporting plate 1, the heat dissipation nets 14 are installed in the heat dissipation holes 13, when the air pipe 2 is installed on the lower supporting plate 1, the heat dissipation holes 13 and the heat dissipation nets 14 are located under the air pipe 2, when the air pipe 2 runs, heat below the air pipe 2 can be taken away through natural air at the heat dissipation holes 13, the temperature of the air pipe 2 is reduced, and the service life of the air pipe 2 is prolonged.

Referring to fig. 2 and 3, the elastic fixing component 33 is located between the upper telescopic fixing beam 4 and the lower supporting plate 1, the elastic fixing component 33 includes a spring 331, a butting pad 332 and a positioning rod 333, the spring 331 is horizontally disposed, one end of the spring 331 is fixedly connected to one side of the suspension rod 3 close to the air duct 2, the other end of the spring 331 is fixedly connected to the butting pad 332, the positioning rod 333 is horizontally penetrated in the spring 331, and one end of the positioning rod 333 close to the butting pad 332 is fixedly connected to the butting pad 332; an elastic protection sleeve 334 is further sleeved outside the spring 331, one end of the elastic protection sleeve 334 is fixedly connected with the abutting pad 332, and the other end of the elastic protection sleeve 334 is fixedly connected with the suspension rod 3.

When tuber pipe 2 installed between two jib 3, spring 331 can receive the atress shrink, and cooperation butt pad 332 carries out elasticity top tightly with locating lever 333 to the lateral wall of tuber pipe 2 both sides, fixes tuber pipe 2 in the horizontal direction to better vibrations to tuber pipe 2 adapt to, the better noise that reduces tuber pipe 2 in-service use.

Referring to fig. 2, it is located the fixed subassembly 33 top of elasticity to go up flexible fixed beam 4, and go up flexible fixed beam 4 and include two fixed sleeves 41 that the rigid coupling laid relatively on two jibs 3 and connect the connecting rod 42 between two fixed sleeves 41, the opening of fixed sleeve 41 is towards the inside setting of hoisting support, connecting rod 42 wears to locate in fixed sleeve 41, adjust the length of last flexible fixed beam 4 in the horizontal direction with better cooperation jib 3, make the width of adaptation tuber pipe 2 that flexible fixed beam 4 can be better, cooperation bottom plate 1 is better fixes tuber pipe 2.

An auxiliary mounting part 7 is arranged at the upper end of the suspender 3 between the suspender 3 and the suspension type spring damper 5, the auxiliary mounting part 7 is annular, the axis of the auxiliary mounting part 7 is vertically arranged, a through hole for rotationally connecting with the suspension type spring damper 5 is penetratingly arranged on the annular body of the auxiliary mounting part 7, the lower end of the suspension type spring damper 5 is penetratingly inserted into the through hole to be rotationally connected with the through hole, and a limit column for separating the auxiliary mounting part 7 from the suspension type spring damper 5 is fixedly connected to the end part of the suspension type spring damper; the third screw has been seted up in the one end of relative through-hole runs through on the supplementary installed part 7 ring body, and jib 3 upper end is provided with the screw rod 34 that is suitable for being connected with third screw thread fit, rotates the realization supplementary installed part 7 that the ring body of supplementary installed part 7 can be comparatively convenient be connected with jib 3, and then realizes jib 3 and hanging spring damper 5's being connected.

Referring to fig. 2, the auxiliary mounting member 7 can perform auxiliary mounting on the boom 3 and the suspension spring damper 5 between the boom 3 and the suspension spring damper 5, so that the elastic fixing component 33 on the boom 3 always keeps facing the air duct 2, and better performs damping on the air duct 2; when the vibration of the air pipe 2 is transmitted upwards, the suspension type spring damper 5 can dissipate part of vibration at the lower part of the wall body 6, so that the vibration effect is separated, and the suspension rod 3 and the lower supporting plate 1 are more stable.

After the vibration effect transmitted to the suspension spring damper 5 by the suspension rod 3 and the lower supporting plate 1 is weakened, the connection between the suspension spring damper 5 and the wall body 6 is more stable, and the safety is improved.

The implementation principle of the hoisting system of the air pipe for the purification engineering in the embodiment of the application is as follows: when the air pipe 2 is installed, firstly, the air pipe 2 is arranged in a gap between the upper telescopic fixing beam 4, the lower support plate 1 and the two suspension rods 3 in a penetrating mode, the upper surface of the air pipe 2 is tightly propped against the second elastic pad 43 below the upper telescopic fixing beam 4, the suspension rods 3 are moved to enable the end parts of the elastic fixing assemblies 33 to tightly prop against the air pipe 2, the butterfly bolts 151 are rotated to fix the air pipe 2 in the horizontal direction, then the supporting blocks 31 are rotated until the first elastic pads 12 on the lower support plate 1 tightly prop against the lower surface of the air pipe 2, the air pipe 2 is fixed in the vertical direction, and finally, the upper part of the suspension type spring damper 5 is fixed on a wall body 6 at the top of a building by using expansion bolts to complete installation of the air pipe 2; first cushion 12, second cushion 43 and the cooperation of elasticity fixed subassembly 33 in this application can carry out the flexible buffer between hoisting support and tuber pipe 2, avoid the tuber pipe 2 directly and bump between the hoisting support, reduce the noise that produces in the 2 in-service use processes of tuber pipe, have improved the comfort of people in the building.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a hoist and mount system of air hose for purification engineering, is including bottom plate (1) that is used for horizontal bearing tuber pipe (2), its characterized in that: bottom plate (1) both sides are provided with jib (3), jib (3) upper end is connected on wall body (6) at top, be provided with first cushion (12) on bottom plate (1), first cushion (12) upper surface level just is suitable for with laminating of tuber pipe (2) lower surface, one side that jib (3) are close to tuber pipe (2) is provided with elastic fixation subassembly (33), elastic fixation subassembly (33) are suitable for the lateral wall laminating with tuber pipe (2).

2. The hoisting system of the air pipe for the purification engineering according to claim 1, wherein: the elastic fixing component (33) comprises a spring (331), a butt pad (332) and a positioning rod (333), wherein the spring (331) is horizontally arranged, one end of the spring (331) is fixedly connected to one side, close to the air pipe (2), of the hanging rod (3), the other end of the spring (331) is fixedly connected with the butt pad (332), the positioning rod (333) is horizontally arranged in the spring (331) in a penetrating mode, and one end, close to the butt pad (332), of the positioning rod (333) is fixedly connected with the butt pad (332).

3. The hoisting system of the air pipe for the purification engineering according to claim 1, wherein: the utility model discloses a supporting structure, including bottom plate (1), jib (3), lower supporting plate (1) both sides are connected to the correspondence, and the department sets up horizontally spout (11) in connecting jib (3) position department, jib (3) are worn to establish and sliding connection in spout (11), correspond on the lateral wall of bottom plate (1) both sides and run through the second screw of seting up with spout (11) intercommunication, the axis of second screw is mutually perpendicular with the extending direction of tuber pipe (2), second screw fit-in threaded connection has threaded fastener (15), threaded fastener (15) tip is suitable for with jib (3) butt.

4. The hoisting system of the air pipe for the purification engineering according to claim 3, wherein: the suspension rod (3) is connected with a vertical suspension type spring damper (5) at the upper end, and one end of the suspension type spring damper (5) far away from the suspension rod (3) is suitable for being fixedly connected with a wall body (6) at the top.

5. The hoisting system of the air pipe for the purification engineering according to claim 4, wherein: jib (3) upper end is located jib (3) and hangs and is provided with auxiliary mounting spare (7) between formula spring damper (5), auxiliary mounting spare (7) upper end is rotated with hanging formula spring damper (5) and is connected, auxiliary mounting spare (7) lower extreme runs through and has seted up the third screw, jib (3) upper end is provided with screw rod (34) that are suitable for and are connected with third screw thread fit.

6. The hoisting system of the air pipe for the purification engineering according to claim 3, wherein: the utility model discloses a flexible fixed beam (4) of going up, including bottom plate (1), bottom plate (4), go up flexible fixed beam (4) and tuber pipe (2) upper surface parallel, just go up flexible fixed beam (4) both ends respectively with two jib (3) rigid couplings, it is provided with second cushion (43) to go up flexible fixed beam (4) lower part, second cushion (43) lower surface is suitable for and laminates with tuber pipe (2).

7. The hoisting system of the air pipe for the purification engineering according to claim 6, wherein: the suspension rod (3) is vertically arranged, a supporting block (31) used for supporting the lower supporting plate (1) is arranged at the lower end of the suspension rod (3), the transverse cross-sectional area of the supporting block (31) is larger than that of the sliding groove (11), external threads are formed in the lower end of the suspension rod (3), and a first screw hole which is connected with the suspension rod (3) in a matched threaded mode is formed in the supporting block (31) in a penetrating mode.

8. The hoisting system of the air pipe for the purification engineering according to claim 1, wherein: the air pipe is characterized in that heat dissipation holes (13) are formed in the lower supporting plate (1) in a penetrating mode, and the heat dissipation holes (13) are located below the air pipe (2).

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