CN115288351A

CN115288351A - Integrated mounting structure of indoor furred ceiling integration

Info

Publication number: CN115288351A
Application number: CN202211078698.XA
Authority: CN
Inventors: 吴骏; 宋雪芳; 金上游; 詹浩; 张成星; 李洋; 成金壮
Original assignee: Zhejiang Provincial Yijian Construction Group Ltd
Current assignee: Zhejiang Provincial Yijian Construction Group Ltd
Priority date: 2022-09-05
Filing date: 2022-09-05
Publication date: 2022-11-04
Anticipated expiration: 2042-09-05
Also published as: CN115288351B

Abstract

The invention discloses an integrated mounting structure of an indoor suspended ceiling, which comprises: the suspended ceiling plate assembly comprises transverse keels, longitudinal keels and suspended ceiling panels, an accommodating cover body is arranged above at least one suspended ceiling panel, an air inlet and an air outlet are formed in the accommodating cover body, and a flow guide channel is formed in the accommodating cover body; the dust collection assembly comprises a filtering main body arranged in the flow guide channel, wherein the filtering main body is provided with a vent hole and an adhesion layer; the locking assembly comprises two locking arms which are oppositely arranged, the tops of the two locking arms are connected through a connecting plate, and the transverse keel penetrates through the through groove of each locking arm; hoist and mount subassembly, including balladeur train and jib, the balladeur train is fixed to be set up on the wall top surface, the top and the balladeur train sliding connection of jib, and the bottom of jib links to each other with the connecting plate. The suspended ceiling mounting structure is stable in structure, not easy to deform and flexible in construction, and has an air purifying function.

Description

Integrated mounting structure of indoor furred ceiling

Technical Field

The invention belongs to the technical field of indoor decoration of constructional engineering, and particularly relates to an integrated mounting structure of an indoor ceiling.

Background

In conventional ceiling decoration projects, the main purpose of a suspended ceiling is to conceal equipment, pipes, etc. At present, the application of the technology at home and abroad shows the trend of multi-shape, multi-material and diversification, and the suspended ceilings comprise a plasterboard latex paint suspended ceiling, a steel structure suspended ceiling, an aluminum plate aluminum square tube suspended ceiling and a mineral wool board composite board suspended ceiling. In the present ceiling technology, the main disadvantages are that: 1) The ceiling is easy to deform in the long-time use process, and the service life is influenced; 2) Wiring equipment such as indoor water and electricity, heating and ventilation and the like is more, when wiring needs to be adjusted, the flexibility of suspended ceiling construction is not high, and the stability is also problematic; 3) Indoor air's purification often need set up extra installation dust remover, increases the furred ceiling burden, and the expense is high, influences furred ceiling life moreover.

The invention patent with the publication number of CN110952706B relates to an indoor ceiling structure, which comprises at least three groups of mounting fasteners, a keel main body and a plurality of gypsum boards, wherein each mounting fastener comprises a mounting section and a connecting section which are integrally arranged, a first cavity is arranged in the mounting section, the mounting section penetrates through the connecting section to be rotatably connected with a rotating rod, one end of the rotating rod is concentrically provided with a rotating disc, the mounting section is also provided with two groups of sliding grooves, sliding blocks are arranged in the sliding grooves, a driving assembly is arranged between the sliding blocks and the rotating disc, the connecting section comprises a supporting plate and a pressing plate, one side of the pressing plate is provided with a guide sliding block, the mounting section is provided with a guide sliding groove, and a threaded rod is rotatably connected through the supporting plate; the indoor suspended ceiling construction method comprises the steps of measuring and positioning, perforating a wall body, installing a fastener, installing a keel main body and installing a gypsum board. According to the indoor suspended ceiling structure and the construction method thereof, the keel main body is fixed on the wall body through the mounting fastener, the mounting process is simple, the practicability is high, and the efficiency of the indoor suspended ceiling is improved.

Korean patent application No. KR100371851B1 discloses a patio type air conditioner in which an electric dust collector is installed above a suction port, and dust and the like contained in air are collected by the electric dust collector before the air flowing from a room through the suction port passes through a heat exchanger, thereby providing a good purifying effect on air discharged from the room. In addition, since the electric dust collector is not supported or fixed by a separate structure but supported above the suction port by the control box, the manufacturing cost and the manufacturing time are reduced.

Disclosure of Invention

The invention aims to provide an integrated mounting structure of an indoor ceiling, which has a stable structure, is not easy to deform and has an air purifying function, and the mounting structure has the advantages of high construction flexibility, quickness in mounting and high efficiency.

The technical scheme adopted by the invention for realizing the purpose is as follows:

integrated mounting structure of indoor furred ceiling integration includes:

the ceiling board assembly comprises transverse keels, longitudinal keels and a ceiling panel, wherein a plurality of fastening grooves are arranged in parallel on the upper surfaces of the transverse keels along the length direction, the longitudinal keels penetrate through the fastening grooves, and the edges of the ceiling panel are matched with the transverse keels and the longitudinal keels; an accommodating cover body is arranged above at least one suspended ceiling panel, an air inlet and an air outlet are respectively arranged on at least one suspended ceiling panel, and movable air doors and control mechanisms thereof are respectively arranged at the parts corresponding to the air inlet and the air outlet; a flow guide channel is arranged inside the accommodating cover body, and the air inlet and the air outlet are communicated with the flow guide channel;

the dust collection assembly comprises a filter main body arranged in the flow guide channel, the filter main body is made of a flexible sheet material with vent holes, and at least part of the filter main body is provided with an adhesive layer;

the locking assembly comprises two oppositely arranged locking arms, the locking arms are provided with through grooves and are in inverted U-shaped structures, the tops of the two locking arms are connected through a connecting plate, the transverse keel penetrates through the through grooves of the locking arms, and the two oppositely arranged locking arms are respectively positioned at two ends of the fastening groove;

the hoisting assembly comprises a sliding frame and a vertical hanging rod, the sliding frame is horizontally arranged, the sliding frame is fixedly arranged on the wall top surface, the top end of the hanging rod is connected with the sliding frame in a sliding mode, and the bottom end of the hanging rod is connected with the connecting plate.

By adopting the technical scheme, the transverse keel and the longitudinal keel are embedded in the fastening groove in a cross manner to realize mortise-tenon connection, and then the locking assembly and the hoisting assembly are matched to realize the installation and fixation of the suspended ceiling plate assembly. The clamping to horizontal fossil fragments and vertical fossil fragments can be realized simultaneously through the locking arm of two relative settings among the locking Assembly, can prevent that vertical fossil fragments from shifting or droing to jib and connecting plate cooperation can reduce the bearing of horizontal fossil fragments, can avoid horizontal fossil fragments to warp, reduce the probability of horizontal fossil fragments deformation, further avoid vertical fossil fragments skew, and then guarantee the stability of furred ceiling board subassembly, thereby can improve furred ceiling overall structure's stability, effectively avoid the furred ceiling to warp.

The ceiling panel is matched with the accommodating cover body, so that equipment such as an air conditioner can be hidden, and the protection of internal equipment can be improved. The air conditioner and other equipment can be installed inside the accommodating cover body, and air circulation is realized through the matching of the air inlet, the flow guide channel and the air outlet. The arrangement of the containing cover body can strengthen the protection along with the internal equipment and has the function of heat insulation. The heat energy on the building is downwards transmitted through the top surface of the wall, and in the process of contacting with the accommodating cover body, the heat energy cannot be directly transmitted to the equipment inside the accommodating cover body, the transmission speed is also influenced, and then the influence of the heat energy on the building on the equipment can be reduced or delayed, and the normal operation of the equipment is ensured.

The dust collection assembly is provided to help achieve air purification during operation of the apparatus. Generally, the dust collecting assembly is disposed at an end of the flow guide channel adjacent to the air outlet. The indoor air flow enters the interior of the accommodating cover body through the air inlet, and dust particles on the surface of the equipment can be brought into the interior of the flow guide channel in the flowing process. After the air is filtered by the filtering main body, dust particles wrapped in the air flow are attached to the surface of the filtering main body, the air flow after dust removal is blown into the room through the air outlet again, and the air purification effect can be achieved through the circulation. Remove dust to holding casing inside through the collection dirt subassembly to collect the dirt particle, prevent that the dust from wafting indoor, improve the air quality. In addition, the cleanliness of the interior of the accommodating shell is improved, normal operation of equipment such as an air conditioner is facilitated, and unnecessary energy loss can be reduced.

In addition, the cooperation of horizontal fossil fragments, vertical fossil fragments and furred ceiling panel can be sealed the wall top, sets up the furred ceiling panel on the holding cover body and goes up the air inlet and also all dispose the air door with the air outlet, can avoid biology such as mosquito, cockroach or mouse to get into furred ceiling inner space, guarantees the security of furred ceiling.

Further, the filter body in the dust collection assembly is detachable. So, after holding casing internally mounted's equipment operation a period, can take out the filter main part from the water conservancy diversion passageway, be convenient for wash or change new filter main part to guarantee to filter the dust collection effect.

In addition, the transverse keels are in cross fit with the longitudinal keels and are in joggle fit through the fastening grooves, and the installation is simple. The cooperation of hoisting component can realize the removal of horizontal fossil fragments and longitudinal joist through the cooperation of balladeur train and jib, can make things convenient for the dismantlement of furred ceiling board subassembly, and the installation is simple, and the practicality is high.

According to one embodiment of the invention, the interior of the accommodating cover body is provided with a detachable partition plate, the inner wall of the accommodating cover body is provided with a slot, the edge of the partition plate is embedded in the slot, and the partition plate and the inner wall of the accommodating cover body form a flow guide channel; the division plate is provided with a diversion air hole.

Furthermore, the division board includes the first plate body that is close to the setting cover body top and the second plate body that is close to the setting cover body lateral wall setting, and the second plate body is located between air intake and the air outlet.

From this, through the detachable division board with the inside space partition of the holding cover body for equipment work area and air current fluid region, after the air current got into equipment work area, can get into the water conservancy diversion passageway through the water conservancy diversion gas pocket under the water conservancy diversion effect of division board to in this in-process is cleared up the laying dust that probably exists in equipment work area inside and equipment surface, helps improving the work efficiency of equipment, reduces energy consumption. The inner wall of the flow guide channel can be cleaned in the process of continuous flow of the airflow entering the flow guide channel, so that dust particles are prevented from being deposited. The dust particles carried in the airflow are collected by the dust collecting component to achieve the effect of purifying the air.

In addition, the arrangement of the partition plate can also improve the sound insulation effect of the accommodating cover body. The noise generated in the operation process of the air conditioner and other equipment in the accommodating cover body is blocked by the partition plate in the outward transmission process. The noise causes the vibration of the partition plate in the process of transmitting along the partition plate, so that the effect of weakening the vibration energy of the noise is realized, and the effects of reducing the noise and eliminating the noise are achieved.

The setting of division board forms bearing structure in the inside of the holding cover body, helps keeping the spatial structure of the holding cover body, can effectively reduce the probability that the holding cover body warp, and then strengthens the protection to internal plant. The partition plate has simple structure, easy processing and reduced cost.

In addition, if the small-sized living things accidentally enter the internal space of the suspended ceiling through the air inlet or the air outlet, the small-sized living things can only move in the accommodating shell. Because the interior of the accommodating shell is provided with the partition plate, the filtering main body and other parts except the air conditioner and other equipment, and the components can be disassembled, organisms entering the interior of the accommodating shell can collide with the movable parts in the moving process, and then abnormal sound is caused, and the accommodating shell is helpful for warning users to check and eliminate risks.

Furthermore, the partition plate is of a plane plate structure, and reinforcing ribs are arranged in the partition plate. The rigidity of the partition plate can be further improved through the reinforcing ribs, and the structural stability of the accommodating cover body is kept.

Furthermore, the first plate body and the second plate body are of a structure formed by splicing a plurality of strip-shaped plates, and the reinforcing ribs are arranged inside the strip-shaped plates and extend along the length direction. The left end and the right end of the accommodating cover body are connected with the plurality of strip-shaped plates of the first plate body, the top of the accommodating cover body and the upper surface of the ceiling panel are connected with the plurality of strip-shaped plates of the second plate body, and the plurality of strip-shaped plates of the first plate body and the second plate body are arranged in an alternating mode to form a cross-shaped or approximately cross-shaped structure. The parts of the strip-shaped plates, which are positioned in the flow guide channels, are provided with flow guide air holes, so that air flow is facilitated.

So, the setting through strip panel sets up the bearing structure of horizontal direction and vertical direction in the inside of holding casing, can resist the impact that comes from the equidirectional, keeps stable in structure, prevents to warp.

According to one embodiment of the invention, a fixed frame is arranged in the flow guide channel, one end of the fixed frame is connected with the side wall of the partition plate, and the other end of the fixed frame is connected with the inner wall of the accommodating cover body; the filter body is laid at least partially on the fixed frame.

Therefore, the filter body can be spread through the fixing frame to support the filter body, the contact between the air flow and the filter body is facilitated, and the dust collection and removal effects are improved.

In addition, fixed frame's being provided with helps keeping the spatial structure of water conservancy diversion passageway, prevents that the division board from shifting, warping, and then keeps the structural stability of holding casing and furred ceiling panel.

Furthermore, fixed frame includes parallel arrangement's first fixed mobile jib and the fixed mobile jib of second, is connected with a plurality of fixed branch between first fixed mobile jib and the fixed mobile jib of second, and a plurality of fixed branch are "Z" shape and arrange.

Furthermore, the inner wall of the flow guide channel is provided with a slot, and the first fixed main rod and the second fixed main rod are both embedded in the slot.

Further, a plurality of fixed frames set up from top to bottom, and the filter main part is in the surface winding setting of a plurality of fixed frames.

So, the fixed frame that the multilayer set up can further ensure water conservancy diversion passageway inner structure's stability, the deformation of preapring for an unfavorable turn of events. On the other hand, the multilayer arrangement of the filtering main body is realized, the contact path of the air flow and the filtering main body can be prolonged, and the dust removal effect is improved. Moreover, the air flow flows between the multi-layer filtering bodies, and the air flow noise can be reduced. The air flow is divided by the vent holes on the filtering main body and then is converged again, which is helpful for improving the balance of the air flow.

Furthermore, the fixed frame is of a V-shaped structure which is obliquely arranged, and the opening end of the fixed frame is arranged away from the air outlet. The top end of the V-shaped structure on the fixed frame, namely the side far away from the opening end, can be paved with a closed material for receiving larger dust particles or other impurities falling from the filtering main body, and under the condition that the viscosity of the adhesion layer is reduced, part of dust particles can be intercepted by the closed material to prevent the dust particles from diffusing indoors along with the air flow.

According to one embodiment of the present invention, a filter body includes a plurality of layers of mesh members arranged in an overlapping manner, the mesh members including first wires extending in a longitudinal direction and second wires perpendicular thereto; the first wire and the second wire are arranged in a crossed mode to form a vent hole.

Further, the first wire body and the second wire body may be various fiber materials, reinforcing fibers, metal wires, high molecular compounds having elasticity and plasticity, and the like.

According to one embodiment of the invention, the connecting plate is of an inverted U-shaped structure and comprises two connecting arms, the two connecting arms are correspondingly connected with the two locking arms which are oppositely arranged one by one, and a telescopic spring is connected between the two connecting arms.

So, can prevent through expanding spring that the locking arm interval of two relative settings is too far away, and then can improve the centre gripping dynamics to vertical fossil fragments, effectively prevent that vertical fossil fragments from shifting, guarantee the stability of furred ceiling structure.

Furthermore, the top of connecting plate disposes the extension board, and the extension board links to each other with the jib.

According to one embodiment of the present invention, a horizontal sliding groove is disposed on the carriage, and a slider is disposed in the sliding groove and can reciprocate along the sliding groove; the top of the suspender is rotatably connected with the sliding block; the bottom of jib disposes the lifting hook, lifting hook and extension board clearance fit.

Therefore, the top of the suspender is rotatably connected with the sliding block through parts such as a rotating shaft and the like, can rotate within a certain angle range, can properly adjust the angles of the transverse keel and the longitudinal keel in the installation process, and is convenient to install. The top of extension board can set up the couple, realizes dismantling being connected of jib and horizontal fossil fragments through the clearance fit of couple and lifting hook.

In addition, locking Assembly helps improving the shock attenuation effect with hoist and mount subassembly's cooperation structure. The vibrations of upstairs production are through the in-process of wall top down transmission, through balladeur train, jib and to parts transmission such as connecting plate, locking arm, can cause the jib to revolve the rotation of axle and carry out the rotation of small-amplitude, or two linking arms on the connecting plate carry out the swing of small-amplitude under expanding spring's cooperation, or the function of other parts to consume the vibrations energy at this in-process, realize the shock attenuation, help keeping the stability of furred ceiling structure. However, under the cooperation of spout and slider to and the action of gravity of horizontal fossil fragments, vertical fossil fragments etc. the jib can keep vertical, and two linking arms on the connecting plate and the locking arm that links to each other with it still keep the clamping state to horizontal fossil fragments and vertical fossil fragments under expanding spring's effect, guarantee the stability of structure, can prevent that the furred ceiling from warping.

Effect of energy absorption of downstairs vibration

Compared with the prior art, the invention has the following beneficial effects:

1. the accommodating cover body is matched with the flow guide channel, so that the air flow can be guided, the dust removal effect is realized in the flowing process of the air flow, the cleanness of the inside of the accommodating cover body and the surface of equipment is ensured, and the energy loss is reduced; the accommodating cover body also has the functions of heat insulation and noise reduction;

2. the flow guide channel is arranged by matching the partition plate with the accommodating cover body, so that airflow can be guided to flow, a supporting structure can be formed in the accommodating cover body, the space structure of the accommodating cover body is kept, and the ceiling structure is prevented from deforming; the arrangement of the partition plate is also beneficial to noise reduction;

3. the arrangement of the dust collecting component can effectively reduce the dust content in the air flow, and the matching of the filtering main body and the fixed frame is beneficial to maintaining the space structure of the flow guide channel and preventing deformation;

4. the locking assembly is matched with the transverse keel and the longitudinal keel, so that the structural stability of the suspended ceiling is kept, and the deformation is prevented;

5. the hoisting assembly is matched with the locking assembly, so that the mounting, the rotating and the dismounting are convenient, and the practicability is high.

6. Locking Assembly has the cushioning effect with the hoist and mount subassembly cooperation, improves structural stability.

Therefore, the integrated mounting structure for the indoor ceiling is stable in structure, not prone to deformation and high in construction flexibility, installation speed and efficiency, and has an air purifying function.

Drawings

Fig. 1 is a schematic perspective view of an integrated installation structure of an indoor ceiling according to embodiment 1 of the present invention;

FIG. 2 is an enlarged view of a portion A of FIG. 1;

FIG. 3 is a schematic view of the locking assembly shown in FIG. 1;

FIG. 4 is a schematic view of an assembly structure of the locking assembly and the hoisting assembly shown in FIG. 1;

FIG. 5 is a schematic view of the internal structure of the receiving cover shown in FIG. 1;

FIG. 6 is a schematic structural view of the filter body of FIG. 5;

FIG. 7 is an enlarged view of a portion B of FIG. 6;

fig. 8 is a schematic internal structural view of a housing cover body of an integrated mounting structure for an indoor ceiling according to embodiment 2 of the present invention;

fig. 9 is a schematic structural view of a strip-shaped plate according to embodiment 2 of the present invention;

FIG. 10 is a schematic view of the filter body of FIG. 8 engaged with a mounting frame;

fig. 11 is a schematic structural view of a fixing frame of an integrated installation structure of an indoor ceiling according to embodiment 3 of the present invention.

Reference numbers: a frame rod 10; a transverse keel 11; a longitudinal keel 12; a fastening groove 13; a ceiling panel 14; a locking assembly 20; a lock arm 21; a through groove 22; a connecting plate 23; a connecting arm 231; a tension spring 24; an extension plate 25; a carriage 31; a chute 32; a slider 33; a boom 34; a hook 35; a rotating shaft 36; an accommodating cover body 40; an air inlet 41; an air outlet 42; a flow guide passage 43; a partition plate 44; a first plate body 51; a second plate body 52; a slot 53; a strip-shaped sheet material 54; a flange 55; a reinforcing rib 56; a filter body 60; a vent hole 61; an adhesive layer 62; a first wire 63; a second wire 64; a fixed frame 70; the first fixed main lever 71; a second fixed main lever 72; a fixing stay 73; a sealing layer 74.

Detailed Description

The following describes the technical solution of the present invention in further detail with reference to the detailed description and the accompanying drawings. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example 1

Fig. 1 to 7 schematically show an integrated installation structure of an indoor ceiling according to an embodiment of the invention. As shown, the apparatus includes a ceiling plate assembly, a dirt collection assembly, a locking assembly 20, and a hoist assembly.

The ceiling tile assembly includes four framing posts 10 and a plurality of transverse runners 11, a plurality of longitudinal runners 12 and a plurality of ceiling panels 14.

Four frame bars 10 are mounted on four indoor walls, respectively. The evenly distributed mounting holes are formed in the surface of the frame rod 10, so that the installation of the wall and the frame rod 10 is simpler, the installation difficulty can be reduced, and the installation time can be shortened.

The transverse keel 11 is in a convex structure, and two tail ends of the transverse keel are respectively contacted with the frame rods 10. A plurality of fastening grooves 13 are arranged in parallel in the longitudinal direction on the upper surface of the cross runners 11, and the longitudinal runners 12 are inserted through the fastening grooves 13. The cross-shaped matching points of the transverse keels 11 and the longitudinal keels 12 are provided with locking assemblies 20 for enhancing the connection tightness of the transverse keels and the longitudinal keels.

The locking assembly 20 comprises two oppositely arranged locking arms 21, and the locking arms 21 are provided with through grooves 22 and are in an inverted U-shaped structure. The cross keel 11 passes through the through slot 22 of the locking arm 21, and two oppositely arranged locking arms 21 are respectively positioned at two ends of the fastening slot 13, namely the longitudinal keel 12 is clamped between the two correspondingly arranged locking arms 21. The internal surface of locking arm 21 can set up the protection pad, also has configured the protection pad on the opposite face on two locking arms 21 of relative setting, can strengthen the protection to horizontal fossil fragments 11, vertical fossil fragments 12, prevents the mar.

The tops of the two locking arms 21 are connected through a connecting plate 23, the connecting plate 23 is of an inverted U-shaped structure and comprises two connecting arms 231, the two connecting arms 231 are connected with the two locking arms 21 which are arranged oppositely in a one-to-one correspondence mode, and an expansion spring 24 is connected between the two connecting arms 231.

So, can prevent through expanding spring 24 that two locking arms 21 intervals that set up relatively are too far away, and then can improve the centre gripping dynamics to vertical fossil fragments 12, effectively prevent that vertical fossil fragments 12 from shifting, guarantee the stability of suspended ceiling structure.

The top of the connecting plate 23 is provided with an extension plate 25, and the extension plate 25 is connected with the hoisting assembly. The hoisting assembly comprises a horizontally arranged carriage 31 and a vertically arranged suspender 34, the carriage 31 is fixedly arranged on the top surface of the wall, the top end of the suspender 34 is connected with the carriage 31 in a sliding way, and the bottom end of the suspender 34 is connected with the connecting plate 23. Specifically, a slide groove 32 extending horizontally is disposed on the carriage 31, a slider 33 is disposed in the slide groove 32, and the slider 33 can reciprocate along the slide groove 32; the top of the suspender 34 is rotatably connected with the sliding block 33; the bottom of the boom 34 is provided with a hook 35, and the hook 35 is movably engaged with the extension plate 25.

The top of the suspender 34 is rotatably connected with the sliding block 33 through a rotating shaft 36 and other parts, can rotate within a certain angle range, and can properly adjust the angles of the transverse keel 11 and the longitudinal keel 12 in the installation process, thereby facilitating the installation. The top of the extension plate 25 can be provided with a hook, and the hanger rod 34 and the transverse keel 11 can be detachably connected through the movable fit of the hook and the hook 35.

The ceiling panels 14 have edges that mate with the cross runners 11, the longitudinal runners 12. The gaps between the transverse keels 11, the longitudinal keels 12 and the frame rails 10 are filled with a plurality of ceiling panels 14 to seal the ceiling. A light trough is provided on a portion of the ceiling panel 14 for mounting a light fixture. A receiving enclosure 40 is disposed above at least one of the ceiling panels 14 to conceal equipment, such as an air conditioner, and to improve protection of internal equipment.

The ceiling panel 14 configured with the accommodating cover 40 is provided with an air inlet 41 and an air outlet 42, movable air doors and a control mechanism thereof are respectively arranged at positions corresponding to the air inlet 41 and the air outlet 42, and when the air conditioner inside the accommodating cover 40 operates, the air doors of the air inlet 41 and the air outlet 42 are regulated and controlled by the control mechanism, so that the indoor air flows.

The interior of the accommodating cover 40 is provided with a flow guide channel 43 through a partition plate 44, and the air inlet 41 and the air outlet 42 are both communicated with the flow guide channel 43. The guide channel 43 is matched with the dust collecting component, and can filter dust particles in flowing gas to achieve the effect of purifying air.

The dust collecting assembly includes a filter body 60 disposed inside the guide passage 43, the filter body 60 is a flexible sheet material having a vent hole 61, and the filter body 60 is at least partially provided with an adhesive layer 62.

The filter body 60 includes a plurality of layers of mesh members arranged one above another, the mesh members including first wires 63 extending longitudinally and second wires 64 perpendicular thereto; the first wire 63 and the second wire 64 are arranged to intersect with each other and form the vent hole 61. The first and second threads may be various fiber materials, reinforcing fibers, metal wires, elastic and plastic high molecular compounds, and the like.

The dust collecting assembly is disposed inside the flow guide channel 43 near one end of the air outlet 42. The indoor air flow enters the interior of the housing 40 through the air inlet 41, and during the flowing process, the dust particles on the surface of the equipment can be brought into the interior of the flow guide channel 43. After being filtered by the filtering main body 60, the dust particles entrained in the airflow are attached to the surface of the filtering main body 60, and the airflow after dust removal is blown into the room again through the air outlet 42, so that the air purification effect can be realized through the circulation. Remove dust to holding casing inside through the collection dirt subassembly to collect the dirt particle, prevent that the dust from wafting indoor, improve the air quality. In addition, the cleanliness of the interior of the accommodating shell is improved, normal operation of equipment such as an air conditioner is facilitated, and unnecessary energy loss can be reduced.

The filter body 60 is detachable, so that the filter body 60 can be taken out from the flow guide channel 43 after the equipment installed inside the accommodating shell operates for a period of time, and the filter body 60 is convenient to clean or replace for a new one, so as to ensure the effect of filtering and collecting dust.

Example 2

Fig. 8 to 10 schematically show an integrated installation structure of an indoor ceiling according to another embodiment of the present invention, which is different from example 1 in that:

the interior of the accommodating cover 40 is configured with a detachable partition plate 44, and the partition plate 44 and the inner wall of the accommodating cover 40 enclose a flow guide channel 43. The partition plate 44 includes a first plate 51 disposed near the top of the accommodating cover 40 and a second plate 52 disposed near the sidewall of the accommodating cover 40, and the second plate 52 is located between the air inlet 41 and the air outlet 42.

A transverse slot 53 is arranged at the top of the side wall of the accommodating cover body 40, and the edge of the first plate body 51 is embedded in the transverse slot 53; the top of the receiving cover 40 is provided with a longitudinal or longitudinally inclined slot 53, and the edge of the second plate 52 is fitted in the longitudinal or longitudinally inclined slot 53. A plurality of air holes are uniformly distributed on the first plate 51, and the air holes are arranged on the second plate 52 inside the air guide channel 43.

The inner space of the accommodating cover body 40 is divided into an equipment working area and an airflow fluid area by the detachable partition plate 44, after airflow enters the equipment working area, the airflow can enter the flow guide channel 43 through the flow guide air holes under the flow guide effect of the partition plate 44, and dust possibly existing in the equipment working area and on the surface of the equipment is cleaned in the process, so that the working efficiency of the equipment is improved, and the energy consumption is reduced. The air flow entering the flow guide channel 43 can clean the inner wall of the flow guide channel 43 in the process of continuous flow, so as to prevent dust particles from depositing. The dust particles carried in the airflow are collected by the dust collecting component to achieve the effect of purifying the air.

The partition plate 44 is disposed inside the accommodating cover 40 to form a supporting structure, which helps to maintain the space structure of the accommodating cover 40, and can effectively reduce the deformation probability of the accommodating cover 40, thereby enhancing the protection of the internal devices. The partition plate 44 has a simple structure, is easy to process, and can reduce the cost.

The first plate body 51 and the second plate body 52 are both a structure formed by splicing a plurality of strip-shaped plates 54, the edges of the strip-shaped plates 54 are provided with flanges 55 which are convenient to splice, and reinforcing ribs 56 are arranged inside the strip-shaped plates 54. The rigidity of the partition plate 44 can be further enhanced by the reinforcing rib 56, which is advantageous for maintaining the structural stability of the receiving cover 40.

The plurality of strip-shaped boards 54 of the first board body 51 are connected to the left end and the right end of the accommodating cover body 40, the plurality of strip-shaped boards 54 of the second board body 52 are connected to the top of the accommodating cover body 40 and the upper surface of the ceiling panel 14, and the plurality of strip-shaped boards 54 of the first board body 51 and the plurality of strip-shaped boards 54 of the second board body 52 are inserted into each other to form a criss-cross structure or an approximately criss-cross structure. The strip-shaped plate 54 is provided with flow guiding air holes at the inner part of the flow guiding channel 43 for facilitating the flow of air flow.

The filter body 60 is fitted with the fixing frame 70. The fixing frame 70 is disposed inside the guide passage 43. Specifically, the fixed frame 70 includes a first fixed main rod 71 and a second fixed main rod 72 that are arranged in parallel, a plurality of fixed struts 73 are connected between the first fixed main rod 71 and the second fixed main rod 72, and the plurality of fixed struts 73 are arranged in a "Z" shape. The inner wall of the diversion channel 43 is provided with a slot, and the first fixed main rod 71 and the second fixed main rod 72 are respectively embedded in the corresponding slots. One end of the fixing frame 70 is connected to the sidewall of the partition plate 44, and the other end of the fixing frame 70 is connected to the inner wall of the receiving cover 40. The filter body 60 is laid on the fixing frame 70 and connected with the fixing frame 70.

The filter main body 60 can be spread by the fixing frame, which is helpful for the contact between the air flow and the filter main body 60 and improves the dust collection and removal effect. In addition, the fixing frame 70 helps to maintain the spatial structure of the guide passage 43, prevent the partition plate 44 from being displaced and deformed, and thus maintain the structural stability of the receiving case and the ceiling panel 14.

In other embodiments, a plurality of fixing frames 70 may be disposed up and down inside the flow guide channel 43, and the filtering main body 60 is disposed on the surfaces of the fixing frames 70 in a winding manner, so as to ensure that at least a portion of the filtering main body 60 is attached to the fixing frames 70, thereby ensuring stability and preventing falling off. The fixed frame 70 with multiple layers can further ensure the stability of the internal structure of the flow guide channel 43, and prevent deformation. On the other hand, the multi-layer arrangement of the filtering main body 60 is realized, the contact path of the air flow and the filtering main body 60 can be prolonged, and the dust removal effect is improved. Also, the air flow flows between the multi-layer filter bodies 60, and the air flow noise can be reduced. The airflow is divided by the ventilation holes 61 in the filter body 60 and then merged again, which contributes to the improvement of the balance of the airflow.

Example 3

Fig. 11 schematically shows a fixing frame 70 of an integrated indoor ceiling mounting structure according to another embodiment of the present invention, which is different from example 2 in that:

the fixing frame 70 is a V-shaped structure disposed obliquely, and an open end of the fixing frame 70 is disposed away from the air outlet 42. The top end of the V-shaped structure of the fixing frame 70, i.e. the side away from the open end, may be covered with a sealing layer 74, and an airtight material may be used to receive larger dust particles or other impurities falling from the filter body 60, and in case the viscosity of the adhesive layer 62 is decreased, a part of the dust particles may be intercepted by the sealing layer 74, so as to prevent the dust particles from diffusing into the room along with the airflow.

Conventional operations in the operation steps of the present invention are well known to those skilled in the art and will not be described herein.

The embodiments described above are intended to illustrate the technical solutions of the present invention in detail, and it should be understood that the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the present invention, and any modification, supplement or similar substitution made within the scope of the principles of the present invention should be included in the protection scope of the present invention.

Claims

1. Integrated mounting structure of indoor suspended ceiling integration, its characterized in that includes:

the ceiling board assembly comprises transverse keels (11), longitudinal keels (12) and a ceiling panel (14), wherein a plurality of fastening grooves (13) are arranged in parallel on the upper surfaces of the transverse keels (11) along the length direction, the longitudinal keels (12) penetrate through the fastening grooves (13), and the edges of the ceiling panel (14) are matched with the transverse keels (11) and the longitudinal keels (12); an accommodating cover body (40) is arranged above at least one suspended ceiling panel (14), an air inlet (41) and an air outlet (42) are respectively arranged on the at least one suspended ceiling panel (14), and movable air doors and control mechanisms thereof are respectively arranged at positions corresponding to the air inlet (41) and the air outlet (42); a flow guide channel (43) is arranged inside the accommodating cover body (40), and the air inlet (41) and the air outlet (42) are communicated with the flow guide channel (43);

the dust collection assembly comprises a filter body (60) arranged inside the flow guide channel (43), the filter body (60) is made of flexible sheet materials with vent holes (61), and at least part of the filter body (60) is provided with an adhesive layer (62);

the locking assembly (20) comprises two oppositely arranged locking arms (21), the locking arms (21) are provided with through grooves (22) and are of inverted U-shaped structures, the tops of the two locking arms (21) are connected through a connecting plate (23), the transverse keel (11) penetrates through the through grooves (22) of the locking arms (21), and the two oppositely arranged locking arms (21) are respectively positioned at two ends of the fastening groove (13);

the hoisting assembly comprises a horizontally arranged sliding frame (31) and a vertically arranged hanging rod (34), the sliding frame (31) is fixedly arranged on the top surface of a wall, the top end of the hanging rod (34) is connected with the sliding frame (31) in a sliding manner, and the bottom end of the hanging rod (34) is connected with the connecting plate (23).

2. An integrated mounting structure of an indoor suspended ceiling according to claim 1,

a detachable partition plate (44) is arranged in the accommodating cover body (40), a groove (53) is arranged on the inner wall of the accommodating cover body (40), the edge of the partition plate (44) is embedded in the groove (53), and the partition plate (44) and the inner wall of the accommodating cover body (40) enclose a flow guide channel (43); the partition plate (44) is provided with a flow guide air hole;

the partition plate (44) comprises a first plate body (51) and a second plate body (52), the first plate body (51) is close to the top of the accommodating cover body (40), the second plate body (52) is close to the side wall of the accommodating cover body (40), and the second plate body (52) is located between the air inlet (41) and the air outlet (42).

3. An integrated mounting structure of an indoor ceiling as claimed in claim 2,

a fixed frame (70) is arranged in the flow guide channel (43), one end of the fixed frame (70) is connected with the side wall of the partition plate (44), and the other end of the fixed frame (70) is connected with the inner wall of the accommodating cover body (40); the filter body (60) is laid at least partially on the fixing frame (70).

4. An integrated mounting structure of an indoor suspended ceiling according to claim 1,

the filtering body (60) comprises a plurality of layers of grid members which are arranged in an overlapping manner, and each grid member comprises a first wire (63) which extends longitudinally and a second wire (64) which is perpendicular to the first wire; the first wire (63) and the second wire (64) are arranged in a crossing manner to form a vent hole (61).

5. An integrated mounting structure of an indoor ceiling as claimed in claim 1,

the connecting plate (23) is of an inverted U-shaped structure and comprises two connecting arms (231), the two connecting arms (231) are correspondingly connected with the two locking arms (21) which are oppositely arranged one by one, and a telescopic spring (24) is connected between the two connecting arms (231);

an extension plate (25) is arranged at the top of the connecting plate (23), and the extension plate (25) is connected with the suspension rod (34).

6. An integrated mounting structure of an indoor suspended ceiling according to claim 5,

a horizontal sliding chute (32) is arranged on the sliding frame (31), a sliding block (33) is arranged in the sliding chute (32), and the sliding block (33) can move back and forth along the sliding chute (32); the top of the suspender (34) is rotationally connected with the sliding block (33); the bottom of jib (34) is configured with lifting hook (35), lifting hook (35) with extension board (25) clearance fit.