CN214406236U - Indoor heating and ventilation installation structure - Google Patents

Abstract

The application relates to an indoor heating and ventilation installation structure which comprises an air cabinet, a fixing bolt fixedly arranged on a floor slab, a locking nut in threaded connection with the fixing bolt and a hanging rod connected with the locking nut; one end of the hanger rod, which is far away from the floor slab, is provided with an abutting block abutted against the air supply cabinet; an elastic abutting part for forcing the air cabinet to abut against the abutting block is arranged between the air cabinet and the floor slab. This application has the shock attenuation buffering effect that improves jib horizontal direction.

Description

Indoor heating and ventilation installation structure

Technical Field

The application relates to the field of heating ventilation technology, in particular to an indoor heating ventilation installation structure.

Background

Heating and ventilation are one component of a building. The full name in the subject classification is heat supply gas ventilation and air conditioning engineering, including: the three aspects of heating, ventilation and air conditioning are indispensable parts of the future families in terms of functions. The ceiling type air conditioner air cabinet is used for indoor important power equipment in the heating and ventilation system, and the main structure of the ceiling type air conditioner air cabinet comprises a motor and an air pipe, can be perfectly matched with home decoration, is attractive and high in appearance, can exhaust air in four directions, and is very suitable for being used in large spaces and high spaces of floor layers. The trace of a common supermarket, a large-sized open-space office, a conference room, a restaurant, a home living room and the like can be commonly seen.

The related art discloses an installation structure of a ceiling type air conditioner air cabinet, which comprises the air cabinet and a locking assembly for fixedly arranging the air cabinet on a floor slab, wherein the locking assembly comprises a fixing bolt fixedly arranged on the floor slab, a locking nut, a suspender fixedly assembled with the air cabinet through the locking nut and a connecting piece; the connecting piece connects the fixing bolt and the suspender, and a shock pad is arranged between the fixing bolt and the floor slab.

To the above-mentioned correlation technique, the inventor thinks that the wind cabinet is at the during operation, and the motor in the wind cabinet starts, will lead to rocking of wind cabinet self, and although the shock pad can absorb some vibrations that come from the jib vertical direction, the difficult buffering of rocking of jib level.

SUMMERY OF THE UTILITY MODEL

In order to improve jib horizontal direction's shock attenuation buffering effect, this application provides an indoor warm mounting structure that leads to.

The application provides a pair of indoor heating leads to mounting structure adopts following technical scheme:

an indoor heating and ventilation installation structure comprises a wind cabinet, a fixing bolt fixedly arranged on a floor slab, a locking nut in threaded connection with the fixing bolt and a hanging rod connected with the locking nut; one end of the hanger rod, which is far away from the floor slab, is provided with an abutting block abutted against the air supply cabinet; an elastic abutting part for forcing the air cabinet to abut against the abutting block is arranged between the air cabinet and the floor slab.

Through adopting above-mentioned technical scheme, elasticity butt piece forces the wind cabinet to support tightly in the butt piece, on the one hand when the operation of wind cabinet, reduce the clearance between wind cabinet and the butt piece, thereby when wind cabinet self rocks, reduce the amplitude of wind cabinet in jib week side, and then reduce the too big risk of wind cabinet range of rocking, on the other hand, because elasticity butt piece forces the wind cabinet to support tightly in the butt piece, thereby increase the gliding frictional force of wind cabinet level, reduce the slip trend of wind cabinet in the horizontal direction, elasticity butt piece deformation simultaneously, the rocking of buffering wind cabinet, and then realize improving the shock attenuation buffering effect of jib horizontal direction.

Optionally, an anti-skid damping pad is arranged between the abutting block and the air cabinet.

Through adopting above-mentioned technical scheme, further increase wind cabinet horizontal slip's frictional force, reduce the slip trend of wind cabinet in the horizontal direction, reduce the effort that the wind cabinet rocked simultaneously and transmit to fixing bolt's risk, improve the firm in connection nature of fixing bolt and floor.

Optionally, the elastic abutting part comprises a blocking piece fixed on the periphery of the locking nut and a buffer spring coaxially sleeved on the periphery of the suspender; and two ends of the buffer spring are respectively abutted against the baffle and the opposite side walls of the wind cabinet.

By adopting the technical scheme, on one hand, the buffer spring is coaxially sleeved on the peripheral side of the suspender, so that the elastic abutting part is synchronously installed when the suspender is connected with the wind cabinet, the installation steps of the elastic abutting part are reduced, and the installation efficiency of the installation structure is improved; on the other hand, the setting of separation blade reduces buffer spring pine and takes off lock nut's risk, makes buffer spring be in the state of straining constantly, and increase wind cabinet horizontal slip's frictional force improves jib horizontal direction's shock attenuation buffering effect.

Optionally, a limiting disc is arranged on the periphery of the locking nut; and one side of the limiting disc facing the floor slab is fixedly provided with a plurality of limiting teeth penetrating into the floor slab.

Through adopting above-mentioned technical scheme, the introduction of spacing dish and spacing tooth reduces the wind cabinet and rocks the in-process jib wobbling risk, improves this mounting structure's firm in connection nature.

Optionally, the limiting disc is in threaded connection with the locking nut.

Through adopting above-mentioned technical scheme, be convenient for after this mounting structure installation is taken one's place, suitably adjust the interval of spacing dish and floor to adjust the degree of depth that spacing tooth inserted the floor, further reduce the wind cabinet and rock the in-process jib wobbling risk, improve this mounting structure's firm in connection.

Optionally, the circumferential side of the limiting disc is provided with anti-slip lines for increasing friction force.

By adopting the technical scheme, the installation personnel can manually rotate the limiting disc to adjust the distance between the limiting disc and the floor slab, and the auxiliary tool can apply force to the periphery of the limiting disc conveniently, so that the installation personnel can rotate the limiting disc more effectively, and the depth of the limiting teeth inserted into the floor slab is increased.

Optionally, the abutting block comprises a channel steel connected to the periphery of the suspender in a sliding manner and at least two adjusting nuts in threaded connection with the periphery of the suspender; at least two adjusting nuts are located in the channel steel.

Through adopting above-mentioned technical scheme, the adjusting nut that the rotating is located the channel-section steel makes the channel-section steel support tightly in the week side of wind cabinet to this clearance between regulation butt piece and the wind cabinet, and the reduction in clearance between wind cabinet and the butt piece can reduce the amplitude of wind cabinet in jib week side when wind cabinet self rocks, thereby reduces the too big risk of wind cabinet amplitude of rocking.

Optionally, the end, away from fixing bolt, of lock nut is fixed with the backup pad, one side, away from lock nut, of backup pad runs through and has seted up the perforation, the jib passes the perforation, the one end that the jib is located lock nut is fixed with the limiting plate, the limiting plate with be provided with damping spring between the backup pad.

Through adopting above-mentioned technical scheme, damping spring's setting makes jib and lock nut break away from rigid connection's mode to when the wind cabinet operation, damping spring's the effectual vibrations of the vertical direction of buffering jib of deformation reduces not hard up risk between fixing bolt and the floor, improves this mounting structure's firm in connection.

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

1. the elastic abutting part forces the wind cabinet to abut against the abutting block, so that on one hand, when the wind cabinet works, the clearance between the wind cabinet and the abutting block is reduced, and the risk of overlarge shaking amplitude of the wind cabinet is reduced, on the other hand, the friction force of horizontal sliding of the wind cabinet is increased, the sliding trend of the wind cabinet in the horizontal direction is reduced, and meanwhile, the elastic abutting part deforms to buffer the shaking of the wind cabinet, so that the damping and buffering effect of the horizontal direction of the suspender is improved;

2. the limiting disc and the limiting teeth are introduced, so that the swinging risk of the hanger rod in the swinging process of the wind cabinet is reduced, and the connection firmness of the mounting structure is improved;

3. through damping spring, make jib and lock nut break away from rigid connection's mode to when the wind cabinet operation, damping spring's the effectual vibrations of the vertical direction of buffering jib of deformation reduces not hard up risk between fixing bolt and the floor, improves this mounting structure's firm in connection.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a schematic structural view of a lock nut and an elastic abutment member of an embodiment of the present application.

Fig. 3 is an enlarged view of a portion a of fig. 1.

Description of reference numerals: 1. a wind cabinet; 2. fixing the bolt; 3. locking the nut; 31. a support plate; 311. perforating; 4. a boom; 41. a limiting plate; 5. a butting block; 51. channel steel; 52. adjusting the nut; 6. an elastic abutting member; 61. a baffle plate; 62. a buffer spring; 7. a damping spring; 8. a limiting disc; 81. limiting teeth; 9. antiskid shock pad.

Detailed Description

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

The embodiment of the application discloses indoor heating and ventilation mounting structure. Referring to fig. 1, an indoor heating and ventilation installation structure includes a wind cabinet 1, a fixing bolt 2 fixedly installed on a floor, a locking nut 3 threadedly connected to the fixing bolt 2, and a hanger rod 4 connected to the locking nut 3, wherein the fixing bolt 2 may be an explosive bolt. One end of the suspender 4 far away from the fixing bolt 2 penetrates through the side wall of the wind cabinet 1, and the suspender 4 penetrates through the peripheral side of one end of the wind cabinet 1 and is provided with a butt block 5 abutted against the wind cabinet 1. Be provided with between wind cabinet 1 and the floor and force wind cabinet 1 to support tightly in the elasticity butt piece 6 of butt piece 5 to when 1 operation of wind cabinet, reduce the clearance between wind cabinet 1 and the butt piece 5, reduce wind cabinet 1 and rock the too big risk of amplitude.

Referring to fig. 2, a support plate 31 is fixed to an end of the lock nut 3 away from the fixing bolt 2, and closes an end of the lock nut 3 away from the fixing bolt 2. A through hole 311 for the end of the suspension rod 4 to pass through is formed through the surface of the support plate 31, and a stopper plate 41 is fixed to one end of the suspension rod 4 located in the lock nut 3. Be provided with damping spring 7 between limiting plate 41 and the backup pad 31, damping spring 7's both ends butt respectively in the relative lateral wall of limiting plate 41 and backup pad 31, borrow this design, make jib 4 and lock nut 3 break away from rigid connection's mode to when the operation of wind cabinet 1, damping spring 7's deformation cushions the vibrations of 4 vertical directions of jib, reduces not hard up risk between fixing bolt 2 and the floor.

Referring to fig. 2, the circumferential side of the lock nut 3 is connected with a limiting disc 8 through threads, one side of the limiting disc 8 facing the floor is fixed with a plurality of limiting teeth 81 penetrating into the floor, and the plurality of limiting teeth 81 are arranged on the side wall of the limiting disc 8 at equal intervals around the axis of the lock nut 3. The week side of spacing dish 8 is provided with the anti-skidding line that increases frictional force, borrows this design, and the manual spacing dish 8 of the manual rotating of installer of both having been convenient for adjusts the interval of spacing dish 8 and floor, also makes things convenient for appurtenance at the application of force of 8 week sides of spacing dish, makes the ann change the spacing dish 8 of personnel's rotating more effectively to this increases the degree of depth that spacing tooth 81 inserted the floor, reduces the risk that jib 4 rocked.

Referring to fig. 3, the abutment block 5 includes a channel 51 slidably connected to the circumferential side of the boom 4 and two adjusting nuts 52 screwed to the circumferential side of the boom 4, and the notch of the channel 51 is horizontally oriented to the circumferential side of the boom 4. Be provided with anti-skidding shock pad 9 between channel-section steel 51 and the wind cabinet 1, the lateral wall that anti-skidding shock pad 9 deviates from mutually supports butt respectively in the relative lateral wall of channel-section steel 51 and wind cabinet 1.

Referring to fig. 1, fig. 3, two adjusting nut 52 all are located channel-section steel 51, one of them adjusting nut 52 supports tightly in channel-section steel 51's last inside wall, another one supports tightly in channel-section steel 51's lower inside wall, borrow this design, treat this mounting structure installation back of taking one's place, the rotating is located channel-section steel 51 goes up the adjusting nut 52 of inside wall, finely tune the size of channel-section steel 51 notch, make anti-skidding shock pad 9 support tightly in the week side of wind cabinet 1, with this clearance between adjusting anti-skidding shock pad 9 and the wind cabinet 1, increase the frictional force of 1 horizontal slip of wind cabinet, reduce wind cabinet 1 at the slip trend of horizontal direction, simultaneously, 6 deformations of elasticity butt piece, the rocking of buffering wind cabinet 1, and then realize improving the shock attenuation buffering effect of 4 horizontal direction of jib.

Referring to fig. 2, the elastic abutting member 6 includes a stopper 61 fixed to the circumferential side of the lock nut 3 and a buffer spring 62 coaxially sleeved on the circumferential side of the hanger rod 4, and both ends of the buffer spring 62 abut against the stopper 61 and the opposite side walls of the wind cabinet 1, respectively. Through separation blade 61, make buffer spring 62 be in the state of straining constantly, buffer spring 62 resumes the in-process of the state before the compression and forces wind cabinet 1 to support tightly in the lateral wall of anti-skidding shock pad 9 to this increase wind cabinet 1 horizontal gliding frictional force, improve the shock attenuation buffering effect of jib 4 horizontal direction.

The implementation principle of an indoor heating and ventilation installation structure of the embodiment of the application is as follows: the fixing bolt 2 is preset on the floor slab, the damping spring 7 is preset between the limiting plate 41 and the supporting plate 31, and the limiting plate 8 is preset on the periphery of the locking nut 3. Then, the buffer spring 62 is sleeved on the peripheral side of the hanger rod 4, the hanger rod 4 penetrates through the wind cabinet 1, and the anti-skid shock pad 9 is sleeved at one end of the hanger rod 4 penetrating through the wind cabinet 1. And then the channel steel 51 is sleeved at one end of the hanger rod 4 penetrating through the wind cabinet 1, and meanwhile, along with the channel steel 51 sleeved at the peripheral side of the hanger rod 4, the two adjusting nuts 52 are screwed to the peripheral side of the hanger rod 4, so that the two adjusting nuts 52 are abutted against the opposite inner side walls of the channel steel 51. The locking nut 3 is then screwed to the fixing bolt 2 to expose the periphery of the floor slab and the mounting structure is mounted in place. And finally, rotating the limiting disc 8 and the adjusting nut 52, finely adjusting the depth of the limiting teeth 81 inserted into the floor slab and shortening the distance between the channel steel 51 and the wind cabinet 1 respectively to limit the swinging of the suspender 4 in the operation process of the wind cabinet 1 and improve the connection firmness of the mounting structure.

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 an indoor heating leads to mounting structure which characterized in that: comprises a wind cabinet (1), a fixing bolt (2) fixedly arranged on a floor slab, a locking nut (3) in threaded connection with the fixing bolt (2) and a suspender (4) connected with the locking nut (3); one end of the hanger rod (4) far away from the floor is provided with a butting block (5) abutted against the air supply cabinet (1); an elastic abutting part (6) for forcing the air cabinet (1) to abut against the abutting block (5) is arranged between the air cabinet (1) and the floor slab.

2. An indoor heating and ventilating installation structure as claimed in claim 1, wherein: an anti-skid shock pad (9) is arranged between the abutting block (5) and the air cabinet (1).

3. An indoor heating and ventilating installation structure as claimed in claim 1, wherein: the elastic abutting part (6) comprises a blocking piece (61) fixed on the peripheral side of the locking nut (3) and a buffer spring (62) coaxially sleeved on the peripheral side of the suspender (4); two ends of the buffer spring (62) are respectively abutted against the baffle sheet (61) and the opposite side walls of the wind cabinet (1).

4. An indoor heating and ventilating installation structure as claimed in claim 1, wherein: a limiting disc (8) is arranged on the periphery of the locking nut (3); and one side of the limiting disc (8) facing the floor slab is fixedly provided with a plurality of limiting teeth (81) penetrating into the floor slab.

5. An indoor heating and ventilating installation structure as claimed in claim 4, wherein: the limiting disc (8) is in threaded connection with the locking nut (3).

6. An indoor heating and ventilating installation structure as claimed in claim 5, wherein: the periphery of the limiting disc (8) is provided with anti-skid lines for increasing friction force.

7. An indoor heating and ventilating installation structure as claimed in claim 1, wherein: the butt joint block (5) comprises a channel steel (51) connected to the peripheral side of the suspender (4) in a sliding manner and at least two adjusting nuts (52) connected to the peripheral side of the suspender (4) in a threaded manner; at least two adjusting nuts (52) are located in the channel steel (51).

8. An indoor heating and ventilating installation structure as claimed in claim 1, wherein: fixing bolt (2) one end is kept away from in lock nut (3) is fixed with backup pad (31), one side that lock nut (3) were kept away from in backup pad (31) is run through and has been seted up perforation (311), jib (4) are passed perforation (311), one end that jib (4) are located lock nut (3) is fixed with limiting plate (41), limiting plate (41) with be provided with damping spring (7) between backup pad (31).

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