CN217685748U - Furred ceiling air supply mounting structure - Google Patents

Abstract

The utility model relates to the technical field of air pipe ceiling installation, in particular to a ceiling air supply installation structure, which comprises an air supply pipe, an air outlet piece and a support rod; the blast pipe is used for being connected with an air outlet of the hoisting type indoor unit and is positioned between the floor slab and the suspended ceiling; the number of the support rods is more than two, the support rods are connected with the floor through the first hanger rod, and each support rod is located on the lower side of the air supply pipe and used for supporting the air supply pipe; the air outlet part is positioned at the lower side of the air supply pipe and is provided with an air inlet and an air outlet, the air outlet part is communicated with the air supply pipe through the air inlet end and penetrates through the suspended ceiling through the air outlet end, a filter is arranged in the air outlet part, a connecting part is arranged on the air outlet part, and the connecting part is connected with the floor slab through a second suspender; wherein, the air outlet end of the air outlet piece is provided with a flow dispersing plate, and the air outlet piece is fixedly connected with the suspended ceiling through the flow dispersing plate. According to the technical scheme of the utility model, it can reduce the deformation of furred ceiling, improves the life of furred ceiling.

Description

Furred ceiling air supply mounting structure

Technical Field

The utility model relates to an tuber pipe furred ceiling installation technical field, in particular to furred ceiling air supply mounting structure.

Background

An air conditioner is a household appliance commonly used in daily life, and generally includes an indoor unit and an outdoor unit, wherein the indoor unit is installed on an indoor side, and the outdoor unit is installed on an outdoor side. Indoor units in the prior art are classified into a vertical type indoor unit, a wall-mounted type indoor unit and a ceiling-mounted type indoor unit according to different installation modes. Wherein, the hoist and mount formula indoor set is used widely because it occupies indoor effective space less.

The hoisting type indoor unit generally supplies air through an air supply pipe, and the air supply pipe is connected with an air outlet piece to supply air through the air outlet piece. If a plurality of air outlets are needed in the room, the air outlets are needed to be installed at a plurality of preset positions. Wherein, the air-out spare is pressed on the furred ceiling, leads to the furred ceiling to warp easily, influences the life of furred ceiling, so need solve to this kind of condition urgently.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a furred ceiling air supply mounting structure, the main technical problem that will solve is: how to reduce the deformation of furred ceiling, improve the life of furred ceiling.

In order to achieve the above object, the utility model mainly provides the following technical scheme:

the embodiment of the utility model provides a suspended ceiling air supply installation structure, which comprises an air supply pipe, an air outlet piece and a support rod; the blast pipe is used for being connected with an air outlet of the hoisting type indoor unit and is positioned between the floor slab and the suspended ceiling; the number of the support rods is more than two, the support rods are connected with the floor through the first hanger rod, and each support rod is located on the lower side of the air supply pipe and used for supporting the air supply pipe; the air outlet part is positioned at the lower side of the air supply pipe, is provided with an air inlet and an air outlet, is communicated with the air supply pipe through the air inlet end and penetrates through the suspended ceiling through the air outlet end, a filter is arranged inside the air outlet part, a connecting part is arranged on the air outlet part, and the connecting part is connected with the floor slab through a second suspender; the air outlet end of the air outlet piece is provided with a flow dispersing plate, and the air outlet piece is fixedly connected with the suspended ceiling through the flow dispersing plate.

Optionally, an air inlet end of the air outlet member is communicated with the blast pipe through a hard air pipe; the air inlet end of the air outlet piece is inserted into one end of the hard air pipe, an annular flange used for being connected with the inner wall of the hard air pipe in a clamping mode is arranged on the side face of the air inlet end of the air outlet piece, and a sealing ring is further sleeved between the air inlet end of the air outlet piece and the inner wall of the hard air pipe.

Optionally, the first suspender and the second suspender are both connected with the floor slab through a connecting piece; wherein, each connecting piece all is connected with the floor through the screw, all is equipped with the screw that supplies first jib or second jib to pass on each connecting piece, and equal spiro union has first nut on first jib or the second jib to hang on the connecting piece through first nut.

Optionally, a wooden support is arranged between each support rod and the lower side of the air supply pipe, so that the air supply pipe is supported by the wooden support.

Optionally, the wooden support includes a first supporting plate and a second supporting plate, the first supporting plate and the second supporting plate each have an L-shaped supporting clamping table, and the first supporting plate is clamped with one corner of the lower side of the air supply pipe through the L-shaped supporting clamping table and provides support for the air supply pipe; the second supporting plate is clamped with the other corner of the lower side of the blast pipe through the L-shaped supporting clamping table and provides support for the second supporting plate.

Optionally, each of the support rods is an angle steel piece, the angle steel piece includes a first L-shaped substrate and a second L-shaped substrate, each of the first hanger rods is used for passing through the first substrate, and each of the first hanger rods is screwed with a second nut, which is located at the lower side of the first substrate and abuts against the first substrate.

Optionally, the second suspender is used for passing through the connecting portion, the second suspender is screwed with a third nut and a fourth nut, the third nut is located on the upper side of the connecting portion, a first vibration damping piece is arranged between the third nut and the fourth nut, and the fourth nut is located on the lower side of the connecting portion, and a second vibration damping piece is arranged between the fourth nut and the connecting portion.

Optionally, the connecting portion is an angle steel member, the connecting portion is connected with the air outlet member through a first screw, and a rubber pad is arranged between the connecting portion and the air outlet member.

Optionally, the flow dispersing plate is connected with the suspended ceiling through a second screw, and a sealing adhesive layer is arranged between the flow dispersing plate and the suspended ceiling.

Borrow by above-mentioned technical scheme, the utility model discloses furred ceiling air supply mounting structure has following beneficial effect at least:

1. the second hanger rod can connect the air outlet piece to the floor slab, and can provide upward tension for the air outlet piece so as to reduce the compression of the air outlet piece on the suspended ceiling, thereby reducing the deformation of the suspended ceiling and prolonging the service life of the suspended ceiling;

2. the upper end of the hard air pipe can be fixedly connected with the air supply pipe through a flange, and the lower end of the hard air pipe is clamped and fixed with the air inlet end of the air outlet piece. Wherein, the stereoplasm tuber pipe can provide ascending pulling force to air-out spare, and the stereoplasm tuber pipe can further reduce the oppression of air-out spare to the furred ceiling with the cooperation of second jib to can further reduce the deformation of furred ceiling, improve the life of furred ceiling.

The above description is only an outline of the technical solution of the present invention, and in order to make the technical means of the present invention more clearly understood and to be implemented in accordance with the content of the specification, the following detailed description will be given of preferred embodiments of the present invention in conjunction with the accompanying drawings.

Drawings

Fig. 1 is a schematic partial structural view of a suspended ceiling air supply installation structure according to an embodiment of the present invention;

FIG. 2 is a schematic view of the structure in which the support rods provide support to the blower tube;

FIG. 3 is a partial schematic structural view of another perspective of a ceiling air supply mounting structure;

FIG. 4 is an enlarged schematic view at A in FIG. 3;

FIG. 5 is an enlarged schematic view at B in FIG. 3;

FIG. 6 is an enlarged schematic view at C of FIG. 3;

fig. 7 is an enlarged schematic view at D in fig. 3.

Reference numerals: 1. a floor slab; 2. an air supply pipe; 3. a suspended ceiling; 4. an air outlet member; 5. a filter; 6. a rigid air duct; 7. a first boom; 8. a second boom; 9. a support bar; 10. a wooden support; 11. a second nut; 12. a flow dispersing plate; 13. a connecting member; 14. a first nut; 15. a second screw; 16. sealing the adhesive layer; 17. a connecting portion; 18. a rubber pad; 19. a third nut; 20. a fourth nut; 21. a first damping member; 22. a second damping member; 23. a first screw; 41. an air inlet end; 411. an annular flange; 91. a first substrate; 92. a second substrate; 100. an L-shaped support clamping table; 101. a first pallet; 102. a second pallet.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that, if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, and the like in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between the embodiments may be combined with each other, but must be based on the realization of the technical solutions by a person skilled in the art, and when the technical solutions are contradictory to each other or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

As shown in fig. 1, an embodiment of the present invention provides a ceiling air supply installation structure, which includes an air supply pipe 2, an air outlet member 4 and a support rod 9. The blast pipe 2 is used for being connected with an air outlet of the hoisting type indoor unit and is positioned between the floor slab 1 and the suspended ceiling 3.

The number of the supporting rods 9 is more than two, and the supporting rods are all connected with the floor slab 1 through the first suspender 7. Each support bar 9 is located on the lower side of the blast pipe 2 and is used for supporting the blast pipe 2. In a specific example of application, as shown in fig. 2, each support bar 9 may be a steel angle, and the steel angle includes a first base plate 91 and a second base plate 92 in an L shape. Each first suspension rod 7 is used for passing through the first substrate 91, a second nut 11 is screwed on each first suspension rod 7, and the second nut 11 is located at the lower side of the first substrate 91 and abuts against the first substrate 91. Wherein, through screwing second nut 11, can adjust the height of support piece to compensate the clearance between support piece and the blast pipe 2 downside, make support piece can provide stable support to blast pipe 2.

As shown in fig. 3, the air outlet member 4 is located at the lower side of the air supply pipe 2, and the air outlet member 4 has an air inlet and an air outlet. The air outlet member 4 is communicated with the air supply pipe 2 through an air inlet end 41 and penetrates through the suspended ceiling 3 through an air outlet end. Air-out 4 inside filters 5 that are equipped with to filter the air-out through filter 5, improve the air-out quality. As shown in fig. 7, the air outlet member 4 is further provided with a connecting portion 17, the connecting portion 17 may be an angle steel member, the connecting portion 17 is connected to the air outlet member 4 through a first screw 23, and a rubber pad 18 is disposed between the connecting portion 17 and the air outlet member 4, and the rubber pad 18 and the first screw 23 are matched to improve the connection stability between the connecting portion 17 and the air outlet member 4. The connecting portion 17 is also connected to the floor slab 1 via the second hanger bar 8 to provide an upward pulling force to the wind outlet member 4.

As shown in fig. 3, the air outlet end of the air outlet element 4 is further provided with a diffuser 12, the diffuser 12 may be made of stainless steel, the diffuser 12 is provided with small air outlet holes, and the aperture ratio of the diffuser 12 is not less than 75%. The air outlet part 4 is fixedly connected with the suspended ceiling 3 through the flow dispersing plate 12. As shown in fig. 5, the diffuser plate 12 may be connected to the ceiling 3 by second screws 15, and a sealant layer 16 is disposed between the two. The sealant layer 16 can fill the gap between the diffuser plate 12 and the ceiling 3, thereby reducing air leakage. In addition, the sealant layer 16 and the second screws 15 can improve the connection stability between the current spreading plate 12 and the ceiling 3.

In above-mentioned example, second jib 8 can be connected to air-out spare 4 on floor 1, and second jib 8 can provide ascending pulling force to air-out spare 4 to reduce the oppression of air-out spare 4 to furred ceiling 3, thereby can reduce the deformation of furred ceiling 3, improve furred ceiling 3's life.

In a specific example of application, as shown in fig. 3 and 4, the first and second suspension rods 7 and 8 may be connected to the floor slab 1 by the connecting member 13. Wherein, each connecting piece 13 can be a channel steel, and each connecting piece 13 is n-shaped. One side plate of each connecting piece 13 is fixedly connected with the floor slab 1 through screws. The other side plate of each connecting piece 13 is provided with a screw hole for the first suspender 7 or the second suspender 8 to pass through. The first hanger rod 7 or the second hanger rod 8 is respectively screwed with a first nut 14 so as to be hung on the connecting piece 13 through the first nut 14. In this example, the connection of the first 7 or second 8 hanger bar to the floor 1 is facilitated by the provision of an n-shaped connector 13.

As shown in fig. 3, the air inlet 41 of the air outlet 4 can be connected to the blower pipe 2 through the rigid air duct 6. The upper end of the hard air pipe 6 can be fixedly connected with the air supply pipe 2 through a flange, and the lower end of the hard air pipe 6 is fixedly connected with the air inlet end 41 of the air outlet part 4 in a clamping mode. Wherein, stereoplasm tuber pipe 6 can provide ascending pulling force to air-out piece 4, and stereoplasm tuber pipe 6 and the cooperation of second jib 8 can further reduce the oppression of air-out piece 4 to furred ceiling 3 to can further reduce the deformation of furred ceiling 3, improve furred ceiling 3's life.

In a specific application example, as shown in fig. 6, the air inlet end 41 of the air outlet member 4 may be inserted into one end of the rigid air duct 6, and an annular flange 411 for snap-fitting with an inner wall of the rigid air duct 6 is disposed on a side surface of the air inlet end 41 of the air outlet member 4. Wherein, the air inlet end 41 of the air outlet member 4 can be connected with the hard air pipe 6 in a clamping manner through the annular flange 411. The depth of the air inlet end 41 of the air outlet piece 4 inserted into the hard air pipe 6 is adjustable to adapt to the height between the air outlet piece 4 and the blast pipe 2.

A sealing ring is further sleeved between the air inlet end 41 of the air outlet element 4 and the inner wall of the hard air pipe 6, so that air leakage of a gap between the air outlet element 4 and the hard air pipe 6 is reduced.

As shown in fig. 2, a wooden support 10 is further provided between each support rod 9 and the lower side of the air supply duct 2, so that the air supply duct 2 is supported by the wooden support 10. The wooden support 10 is made of soft materials, so that scratch caused by direct contact of the support rod 9 and the air supply pipe 2 can be avoided. In one specific example of application, the wooden pallet 10 may include a first pallet 101 and a second pallet 102, each of the first pallet 101 and the second pallet 102 having an L-shaped support pallet 100. The first pallet 101 is clamped to a corner of the lower side of the blast pipe 2 by its L-shaped support clamp 100 and provides support thereto. The second support plate 102 is clamped with the other corner of the lower side of the blast pipe 2 by the L-shaped support clamping table 100 and provides support for the second support plate. In this example, the first and second pallets 101 and 102 cooperate to provide support for the blower tube 2 and are held relatively stable to the blower tube 2 by the L-shaped support platform.

As shown in fig. 2, each of the support rods is connected to the floor 1 through two first suspension rods 7, and the two first suspension rods 7 are located on both sides of the wooden support 10. One first suspender 7 is close to the first supporting plate 101 and abuts against the first supporting plate 101 through the side surface, so that the first supporting plate 101 abuts against the blast pipe 2, and the connection stability between the first supporting plate 101 and the blast pipe 2 is improved. The other first hanger rod 7 is close to the second supporting plate 102 and abuts against the second supporting plate 102 through the side surface, so that the second supporting plate 102 abuts against the blast pipe 2, and the connection stability between the second supporting plate 102 and the blast pipe 2 is improved.

In a specific application example, as shown in fig. 7, the connecting portion 17 may be an angle steel member, and the aforementioned second suspension bar 8 is used to pass through a base plate of the connecting portion 17. The second hanger bar 8 is screwed with a third nut 19 and a fourth nut 20. The third nut 19 is located above the connecting portion 17 with a first damper 21 interposed therebetween, and the fourth nut 20 is located below the connecting portion 17 with a second damper 22 interposed therebetween. In this example, the hanging height of the second hanger bar 8 to the air outlet 4 can be adapted by screwing the third nut 19 and the fourth nut 20.

The first vibration damping piece 21 and the second vibration damping piece 22 are sleeved on the second suspender 8, and the first vibration damping piece 21 and the second vibration damping piece 22 are matched with each other, so that the air outlet vibration of the air outlet piece 4 can be reduced. The first damping member 21 may be in the form of a plate, the second damping member 22 may be in the form of a step, and the second damping member 22 is further inserted into the through hole of the connecting portion 17 and abuts against the first damping member 21. The second hanger bar 8 is adapted to pass through the connection 17 through the through hole. The second suspension rod 8 is not in direct contact with the connecting part 17 through the first vibration damper 21 and the second vibration damper 22, so as to further reduce the outlet air vibration of the outlet air member 4.

The aforementioned first and second vibration dampers 21 and 22 may be both vibration damper rubbers.

The working principle and preferred embodiments of the present invention are described below.

The utility model discloses lie in designing a furred ceiling air supply mounting structure, it includes air-out spare 4 and is used for blast pipe 2 be connected with the air outlet of hoist and mount formula indoor set. The downside of blast pipe 2 is equipped with more than two bracing pieces 9, and each bracing piece 9 all is connected with floor 1 through first jib 7, just provides the support to blast pipe 2. A wooden support 10 is arranged between each support rod 9 and the lower side of the blast pipe 2, so that the blast pipe 2 is supported through the wooden support 10, and collision damage is reduced.

The air outlet of the air outlet member 4 is provided with a flow dispersing plate 12, and the air outlet member 4 is fixed with the ceiling 3 through the flow dispersing plate 12. The air outlet part 4 is also connected with the floor slab 1 through a second suspender 8. The second jib 8 can provide ascending power to air-out piece 4 to reduce the oppression of air-out piece 4 to furred ceiling 3, thereby can reduce the deformation of furred ceiling 3, improve furred ceiling 3's life.

Here, it should be noted that: in the case of no conflict, a person skilled in the art may combine the relevant technical features in the foregoing examples with each other according to an actual situation to achieve a corresponding technical effect, and details of various combining situations are not described herein again.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A suspended ceiling air supply installation structure is characterized by comprising an air supply pipe (2), an air outlet piece (4) and a support rod (9);

the blast pipe (2) is used for being connected with an air outlet of the hoisting indoor unit and is positioned between the floor (1) and the ceiling (3);

the number of the support rods (9) is more than two, the support rods are connected with the floor (1) through first suspension rods (7), and each support rod (9) is located on the lower side of the air supply pipe (2) and used for supporting the air supply pipe (2);

the air outlet piece (4) is positioned on the lower side of the air supply pipe (2), the air outlet piece (4) is provided with an air inlet and an air outlet, the air outlet piece (4) is communicated with the air supply pipe (2) through an air inlet end (41) and penetrates through the suspended ceiling (3) through an air outlet end, a filter (5) is arranged inside the air outlet piece (4), a connecting part (17) is arranged on the air outlet piece (4), and the connecting part (17) is connected with the floor slab (1) through a second suspender (8); the air outlet end of the air outlet piece (4) is provided with a flow dispersing plate (12), and the air outlet piece (4) is fixedly connected with the suspended ceiling (3) through the flow dispersing plate (12).

2. The suspended ceiling air supply installation structure is characterized in that an air inlet end (41) of the air outlet piece (4) is communicated with the air supply pipe (2) through a hard air pipe (6);

air inlet end (41) of air-out spare (4) insert the one end of stereoplasm tuber pipe (6), the side of air inlet end (41) of air-out spare (4) is equipped with and is used for inner wall joint complex annular flange (411) with stereoplasm tuber pipe (6), it is equipped with the sealing washer still to overlap between air inlet end (41) of air-out spare (4) and the inner wall of stereoplasm tuber pipe (6).

3. The suspended ceiling air supply mounting structure of claim 1,

the first suspender (7) and the second suspender (8) are connected with the floor slab (1) through a connecting piece (13); wherein, each connecting piece (13) all is connected with floor (1) through the screw, all is equipped with the screw that supplies first jib (7) or second jib (8) to pass on each connecting piece (13), and first nut (14) all have the spiro union on first jib (7) or second jib (8) to hang on connecting piece (13) through first nut (14).

4. The suspended ceiling air supply mounting structure of claim 1,

a wooden support (10) is arranged between each support rod (9) and the lower side of the air supply pipe (2) so as to support the air supply pipe (2) through the wooden support (10).

5. The suspended ceiling air supply mounting structure of claim 4,

the wooden support (10) comprises a first supporting plate (101) and a second supporting plate (102), the first supporting plate (101) and the second supporting plate (102) are respectively provided with an L-shaped supporting clamping table (100), and the first supporting plate (101) is clamped with one corner of the lower side of the blast pipe (2) through the L-shaped supporting clamping table (100) and provides support for the blast pipe; the second supporting plate (102) is clamped with the other corner of the lower side of the blast pipe (2) through an L-shaped supporting clamping table (100) and provides support for the second supporting plate.

6. The suspended ceiling air supply mounting structure of claim 5,

each support rod is connected with the floor through two first suspension rods (7), and the two first suspension rods are positioned on two sides of the wooden support (10); wherein, one first suspender (7) is close to the first supporting plate (101) and is propped against the first supporting plate (101) through the side surface, so that the first supporting plate (101) is propped against the blast pipe (2); the other first suspender (7) is close to the second supporting plate (102) and is propped against the second supporting plate (102) through the side surface, so that the second supporting plate (102) is propped against the blast pipe (2).

7. The suspended ceiling air supply mounting structure of claim 1,

each bracing piece (9) are angle steel spare, angle steel spare is including first base plate (91) and second base plate (92) that are L shape, each first jib (7) all are used for passing first base plate (91), each first jib (7) are gone up all spiro union has second nut (11), second nut (11) are located the downside of first base plate (91) and offset with first base plate (91).

8. The suspended ceiling air supply mounting structure of claim 1,

the second suspender (8) is used for penetrating the connecting part (17), the second suspender (8) is connected with a third nut (19) and a fourth nut (20) in a threaded mode, the third nut (19) is located on the upper side of the connecting part (17) and a first damping part (21) is arranged between the third nut and the fourth nut, and the fourth nut (20) is located on the lower side of the connecting part (17) and a second damping part (22) is arranged between the fourth nut and the fourth nut.

9. The suspended ceiling air supply mounting structure of claim 1,

connecting portion (17) are angle steel spare, connecting portion (17) are connected through first screw (23) and air-out spare (4), and are equipped with cushion (18) between the two.

10. The suspended ceiling air supply mounting structure of claim 1,

the flow dispersing plate (12) is connected with the suspended ceiling (3) through a second screw (15), and a sealing glue layer (16) is arranged between the flow dispersing plate and the suspended ceiling.

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