CN114197732A - Energy-saving convection heat radiation aluminous gusset plate suspended ceiling for exhibition hall and installation method thereof - Google Patents

Abstract

The utility model relates to an exhibition hall is with energy-conserving convection current heat radiation aluminous gusset plate furred ceiling and mounting method thereof belongs to the technical field of decoration engineering, and it includes aluminous gusset plate, main joist and a plurality of false keels of hoist and mount on the main joist, and is adjacent be formed with the space that supplies the aluminous gusset plate installation between the false keel, be connected with the clamp plate on the aluminous gusset plate, be formed with the radiation cavity between aluminous gusset plate and the clamp plate, lie in the radiation cavity on the aluminous gusset plate and laid the radiant tube, let in refrigerant medium or heat medium in the radiant tube, every radiant tube head and the tail in the aluminous gusset plate all communicate each other in proper order. Refrigerant or heat medium can let in the radiant tube in this application, makes the heat in the radiation cavity directly carry out cold and hot exchange with the environment through the mode of infrared radiation heat transfer to the realization can not appear making an uproar to ambient temperature's regulation, helps improving human comfort, can also practice thrift the energy consumption, and then has reached the energy-conserving decoration requirement of building.

Description

Energy-saving convection heat radiation aluminous gusset plate suspended ceiling for exhibition hall and installation method thereof

Technical Field

The application relates to the technical field of decoration engineering, in particular to an energy-saving convection heat radiation aluminous gusset plate suspended ceiling for an exhibition hall and an installation method thereof.

Background

In the correlation technique, the aluminous gusset plate suspended ceiling structure generally comprises a plurality of criss-cross main keels and auxiliary keels, and a space for installing aluminous gusset plates is formed between the adjacent auxiliary keels. The edge slope all around of aluminous gusset plate is formed with the joint towards the direction of keeping away from its center and prolongs the limit, and main joist and false keel all choose for use with aluminous gusset plate matched with triangle aluminum keel, and triangle aluminum keel's relative lateral wall is formed with the joint that supplies the aluminous gusset plate and prolongs the V type joint groove that limit card was gone into, and the tank bottom integrated into one piece in V type joint groove has protruding rib. During the installation aluminous gusset plate, the main joist hoists in the roof through hanging a piece, slides on the false keel and is connected with the fixed triangular keel hanging sign indicating number of one end and main joist, arranges the aluminous gusset plate in between the adjacent false keel to upwards press, the joint prolongs the limit and takes place after deformation alright automatic card go into to V type joint groove and with protruding muscle butt, utilize the joint prolong limit and V type joint groove and protruding muscle between the frictional force alright fix the aluminous gusset plate, make it be difficult for following installation element and drop.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: because the ordinary aluminum gusset plate suspended ceiling only plays an aesthetic and decorative role, the active regulation and control of the indoor environment temperature generally takes the air conditioner as a main part, the wind noise is large and the energy consumption is large. In consideration of building energy conservation, how to combine the aluminous gusset plate ceiling with the temperature regulation function of the indoor environment to meet the requirements of noise reduction and energy conservation needs to be solved urgently.

Disclosure of Invention

In order to solve the problems, the application provides an energy-saving convection heat radiation aluminous gusset plate suspended ceiling for an exhibition hall and an installation method thereof.

The utility model provides an exhibition hall is with energy-conserving convection current heat radiation aluminous gusset plate furred ceiling, adopts following technical scheme:

an energy-saving convection heat radiation aluminous gusset plate suspended ceiling for an exhibition hall comprises aluminous gusset plates, main keels and a plurality of auxiliary keels hung on the main keels, wherein a space for mounting the aluminous gusset plates is formed between every two adjacent auxiliary keels; the radiation type aluminum buckle plate is characterized in that a pressing plate is connected to the aluminum buckle plate, a radiation cavity is formed between the aluminum buckle plate and the pressing plate, radiation pipes are arranged in the radiation cavity on the aluminum buckle plate, a refrigerant medium or a heat medium is introduced into the radiation pipes, and the radiation pipes in the aluminum buckle plate are sequentially communicated with one another from head to tail.

Through adopting above-mentioned technical scheme, alright adjust the temperature in the radiation cavity after letting in refrigerant or heat medium in the radiant tube, aluminium is the higher material of thermal conductivity, and the heat alright of radiation cavity directly carries out cold and hot exchange with the environment with the mode of infrared radiation heat transfer through the aluminous gusset plate to the realization is to ambient temperature's regulation. Because the environment temperature is adjusted directly by the heat radiation, the air noise is avoided, the comfort of the human body is improved, and the heat transfer by utilizing the refrigerant or the heat medium does not occupy too much energy consumption compared with the traditional air conditioning adjusting mode, thereby meeting the decoration requirement of building energy saving.

Preferably, the mounting panel has been laid to the aluminous gusset between one side and the radiant tube of radiant tube orientation, the sunken standing groove that is formed with the confession radiant tube embedding on the mounting panel.

Through adopting above-mentioned technical scheme, arrange the stand groove in with the radiant tube, can fix the mounted position of radiant tube, also can avoid direct contact with the mounting panel with aluminium buckle is isolated simultaneously, reduced because of the too big possibility that takes place the dewfall phenomenon at the aluminium buckle lower surface of the difference in temperature between radiant tube and the aluminium buckle.

Preferably, one side fixedly connected with dead lever of radiant tube is faced to the aluminous gusset plate, the dead lever is equipped with two and is located the relative both sides of mounting panel, be connected with on the clamp plate and be hooked shape engaging lug board, engaging lug board lock joint is on the dead lever.

Through adopting above-mentioned technical scheme, can fix the relative position relation between clamp plate and the aluminous gusset plate, utilize the lock joint between connection otic placode and dead lever simultaneously also can realize the quick dismantlement of clamp plate to the convenience goes on the radiant tube.

Preferably, the fixed rod is sleeved with a torsion spring, one end of the torsion spring is abutted to the pressing plate, and the other end of the torsion spring is abutted to the edge of the aluminum buckle plate in a clamping mode.

Through adopting above-mentioned technical scheme, the torsional spring can extrude the clamp plate simultaneously and prolong the limit with the joint of aluminous gusset plate, and the firm degree of lock joint between multiplicable clamp plate and the dead lever on the one hand reduces the possibility that the engaging lug board breaks away from the dead lever, and the firm degree of on the other hand multiplicable aluminous gusset plate lock on the installation unit reduces the possibility that the aluminous gusset plate receives the exogenic action and drops from the installation unit.

Preferably, the fixed rod is connected with an extension plate, and the end face of the extension plate is attached to one side, facing the radiant tube, of the aluminous gusset plate.

By adopting the technical scheme, after the end face of the extension plate is attached to the aluminum gusset plate, the aluminum gusset plate is not easy to deform under pressure, and the possibility of separation of the clamping extending edge of the aluminum gusset plate and the installation unit is further reduced.

Preferably, be fixed with the connecting plate on the dead lever, one side vertical fixation that the dead lever was kept away from to extension board and connecting plate, the one end that the clamp plate was kept away from to the connection otic placode is equipped with the elasticity barb, set up the tip that supplies the connection otic placode on the connecting plate and the preformed hole that the elasticity barb passed, one side butt of elasticity barb and connecting plate towards the mounting panel.

Through adopting above-mentioned technical scheme, elasticity barb and connecting plate can further increase the firm degree of lock joint between connection otic placode and the dead lever behind the one side butt of mounting panel for the connection otic placode is difficult for receiving directly to take place to break away from with the dead lever.

Preferably, the inner side wall of the pressing plate is coated with a heat reflecting layer.

Through adopting above-mentioned technical scheme, thermal radiation effect and efficiency in the radiation cavity can be strengthened in setting up of heat reflection stratum to can make the environment reach appointed temperature fast.

The second aspect, the application provides the exhibition hall with energy-conserving convection current heat radiation aluminous gusset plate furred ceiling's mounting method, adopts following technical scheme:

an installation method of an energy-saving convection heat radiation aluminous gusset plate suspended ceiling for an exhibition hall comprises the following steps:

s1, hoisting the main keels and the auxiliary keels, and adjusting the distance between the auxiliary keels according to the width of the aluminous gusset plate;

s2, sequentially installing the aluminum gusset plates according to the installation space formed between the auxiliary keels, wherein the head end and the tail end of each radiant tube in each aluminum gusset plate are both connected with connecting tubes, one ends of the connecting tubes extend out of the pressing plates, and the connecting tubes on two adjacent aluminum gusset plates are connected through soft water tubes.

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

1. after a refrigerant or a heating medium is introduced into the radiation pipe, heat in the aluminum pinch plate can be directly subjected to cold and heat exchange with the environment in an infrared radiation heat exchange mode, so that the adjustment of the environment temperature is realized, wind noise is avoided, the human body comfort is improved, the energy consumption can be saved, and the decoration requirement of building energy conservation is further met;

2. the radiant tube and the aluminum pinch plate can be isolated by arranging the mounting plate, so that the possibility of condensation on the lower surface of the aluminum pinch plate due to overlarge temperature difference between the radiant tube and the aluminum pinch plate is reduced;

3. through the setting of torsional spring and elasticity barb, can combine each other to promote jointly and connect otic placode and the reliable degree of being connected of fixed link, the torsional spring can also prolong the limit to the joint of aluminium buckle and carry out the butt simultaneously, further increases the joint and prolongs the limit and the protruding muscle strip between support tight power.

Drawings

FIG. 1 is a schematic overall structural diagram of a suspended ceiling of an aluminous gusset embodying convection heat radiation in an embodiment of the present application.

Fig. 2 is a schematic view of an installation structure for embodying a radiant tube in the embodiment of the present application.

Fig. 3 is an enlarged view of a portion a in fig. 2, and is a schematic view illustrating a connection relationship between the connection plate and the extension plate.

Fig. 4 is a schematic view of an installation structure for embodying a radiant tube in the embodiment of the present application.

Fig. 5 is an enlarged view of a part B in fig. 4, which is a schematic view showing a matching relationship between the connecting lug plate, the elastic barb and the reserved hole.

Description of reference numerals: 1. a main keel; 11. a hanger; 2. a false keel; 21. hanging a triangular keel; 22. a V-shaped clamping groove; 23. a convex rib; 3. an aluminous gusset plate; 31. clamping and extending edges; 4. mounting a plate; 41. a placement groove; 5. a radiant tube; 51. a connecting pipe; 6. fixing the rod; 61. a torsion spring; 62. fixing a connecting column; 63. a movable connecting column; 7. pressing a plate; 71. connecting the ear plates; 711. elastic barbs; 72. closing the plate; 8. a connecting plate; 81. reserving a hole; 9. an extension plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses exhibition hall is with energy-conserving convection current heat radiation aluminous gusset furred ceiling, as shown in figure 1, including aluminous gusset plate 3, main joist 1 and false keel 2, main joist 1 hoists in the roof through hanging 11, and false keel 2 hangs sign indicating number 21 through the triangle fossil fragments and hoists on main joist 1, and false keel 2 is provided with a plurality ofly along the length direction interval of main joist 1 uniformly, is formed with the space that supplies aluminous gusset plate 3 to install between the adjacent false keel 2.

As shown in fig. 2, a clamping extending edge 31 extends upwards from the periphery of the gusset plate 3, and the clamping extending edge 31 inclines at a certain angle towards the direction away from the gusset plate 3. Be equipped with clamp plate 7 in the aluminous gusset plate 3, the relative side of clamp plate 7 extends the shrouding 72 that has one side and the laminating of aluminous gusset plate 3 inner diapire, and clamp plate 7 passes through fixed establishment and aluminous gusset plate 3 relatively fixed, can be formed with the radiation cavity between the inner diapire of this moment clamp plate 7 and aluminous gusset plate 3. The inner bottom wall of the aluminous gusset plate 3 is glued with an aluminum mounting plate 4 positioned in the radiation cavity, an S-shaped placing groove 41 is formed in the mounting plate 4, a radiation tube 5 is embedded in the placing groove 41, and the first end and the last end of the radiation tube 5 are connected with a connecting pipe 51 of which one end extends out of the pressing plate 7.

As shown in fig. 2 and 3, the fixing mechanism includes a fixing rod 6 and a connecting plate 8, the fixing rod 6 is provided with two opposite sides which are located on the mounting plate 4, the fixing rod 6 is fixedly connected with a fixing connecting column 62 along one end of the fixing rod 6 in the length direction, the other end is connected with a movable connecting column 63 in a magnetic attraction manner, and one end of the fixing connecting column 62 far away from the fixing rod 6 is fixedly connected with the inner bottom wall of the buckle plate 3. Decide still fixedly connected with connecting plate 8 of lateral wall of spliced pole 62, leave the distance between the top of connecting rod 8 and dead lever 6, the bottom vertical fixation of connecting plate 8 has extension board 9, and the terminal surface of extension board 9 sets up with the interior diapire laminating of aluminous gusset plate 3 for reinforcing aluminous gusset plate 3's the resistance to deformation ability of being stressed, when making aluminous gusset plate 3 install between the false keel 2, aluminous gusset plate 3's joint is prolonged limit 31 and is difficult for taking place to break away from with V type joint groove 22.

As shown in fig. 4 and 5, the edge of the pressing plate 7 close to the fixing rod 6 is fixedly connected with a hook-shaped connecting ear plate 71, the end of the connecting ear plate 71 is integrally formed with an elastic barb 711, and the connecting plate 8 is provided with a preformed hole 81. After the pressing plate 7 completely covers the mounting plate 4, the connecting ear plate 71 is pressed downwards at the moment, so that the connecting ear plate 71 can be buckled on the fixing rod 6, meanwhile, the tail end of the connecting ear plate 71 and the elastic barbs 711 can be extruded and deformed to penetrate through the reserved holes 81, when the connecting ear plate 71 and the fixing rod 6 are buckled in place, the elastic barbs 711 can restore elastic deformation and abut against the side wall of the connecting plate 8 facing the pressing plate 7, and if no additional force is applied to the elastic barbs 711 at the moment, the connecting ear plate 71 can be buckled with the fixing rod 6 particularly reliably. In the present embodiment, the number of the engaging lug plates 71 is set to two.

As shown in fig. 3 and 4, a torsion spring 61 is further sleeved on the fixing rod 6, one end of the torsion spring 61 abuts against the upper surface of the pressing plate 7, and the other end of the torsion spring abuts against the inner side of the clamping extending edge 31 of the aluminous gusset plate 3. When the torsion spring 61 is not acted by external force, one end of the torsion spring 61 can transmit downward pressure to the pressing plate 7, and the other end can transmit outward thrust to the clamping extending edge 31, so that the clamping extending edge 31 and the V-shaped clamping groove 22 are further abutted tightly. The installation of torsional spring 61 can be equipped with the one end of moving the spliced pole 63 by dead lever 6 and penetrate, and need remove the position of torsional spring 61 when buckle connection otic placode 71 and dead lever 6, makes torsional spring 61 not and the interference in the emergence position between the connection otic placode 71, and the installation of torsional spring 61 is accomplished the back and is moved spliced pole 63 magnetism again and inhale the one end to dead lever 6 for block torsional spring 61 and break away from dead lever 6.

The embodiment of the application provides an exhibition hall is with implementation principle of energy-conserving convection current heat radiation aluminous gusset plate furred ceiling does:

after the main joist 1 and the auxiliary joist 2 are hoisted, the aluminum gusset plate 3 is installed between the adjacent auxiliary joists 2, and when another aluminum gusset plate 3 is installed, the connecting pipe 51 on the aluminum gusset plate 3 to be installed and the connecting pipe 51 on the installed aluminum gusset plate 3 are connected through the soft water pipe, and finally the aluminum gusset plate 3 to be installed is buckled between the auxiliary joists 2, and the like are repeated until the aluminum gusset plates 3 in each row are installed successfully. Holes through which water supply pipes penetrate are reserved on the first aluminum gusset plate 3 and the last aluminum gusset plate 3 which are arranged.

When heat transfer media such as water, oil and air are introduced into the radiation pipe 5, heat can be correspondingly radiated into the radiation cavity, and then the radiation cavity radiates to the environment through the outer wall of the aluminous gusset plate 3, so that the effect of adjusting the environment temperature is achieved. In order to further increase the heat radiation effect in the radiation cavity, a heat reflection layer may be disposed on the inner walls of the pressing plate 7 and the sealing plate 72, and the heat reflection layer may be formed by coating a paint capable of reflecting heat.

The embodiment of the application also discloses an installation method for the convection heat radiation aluminous gusset plate 3 ceiling, which specifically comprises the following steps:

s1, hoisting the main keel 1 and the auxiliary keels 2, and adjusting the distance between the auxiliary keels 2 according to the width of the aluminous gusset plate 3;

s2, the aluminum gusset plates 3 are sequentially installed according to the installation space formed between the false keels 2, the head end and the tail end of the radiant tube 5 positioned in each aluminum gusset plate 3 are both connected with a connecting pipe 51, one end of each connecting pipe extends out of the pressing plate 7, and the connecting pipes 51 on the two adjacent aluminum gusset plates 3 are connected through soft water pipes.

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 exhibition hall is with energy-conserving convection current heat radiation aluminous gusset furred ceiling, includes aluminous gusset plate (3), main joist (1) and a plurality of false keel (2) of hoist and mount on main joist (1), and is adjacent be formed with the space that supplies aluminous gusset plate (3) installation between false keel (2), its characterized in that: be connected with clamp plate (7) on aluminous gusset plate (3), be formed with the radiation cavity between aluminous gusset plate (3) and clamp plate (7), it has radiant tube (5) to lay in the radiation cavity on aluminous gusset plate (3), let in refrigerant medium or heat medium in radiant tube (5), every radiant tube (5) head and the tail in aluminous gusset plate (3) all communicate each other in proper order.

2. The energy-saving convection heat radiation aluminous gusset plate suspended ceiling for the exhibition hall as claimed in claim 1, wherein: mounting panel (4) have been laid towards one side of radiant tube (5) and between radiant tube (5) in aluminous gusset plate (3), sunken standing groove (41) that are formed with confession radiant tube (5) embedding on mounting panel (4).

3. The energy-saving convection heat radiation aluminous gusset plate suspended ceiling for the exhibition hall as claimed in claim 2, wherein: one side fixedly connected with dead lever (6) of radiant tube (5) is faced in aluminous gusset plate (3), dead lever (6) are equipped with two and are located the relative both sides of mounting panel (4), be connected with on clamp plate (7) and be hooked-shaped engaging lug board (71), engaging lug board (71) lock joint is on dead lever (6).

4. The energy-saving convection heat radiation aluminous gusset plate suspended ceiling for the exhibition hall as claimed in claim 3, wherein: the utility model discloses a dead lever, including dead lever (6), dead lever, the one end and clamp plate (7) butt of torsional spring (61), limit (31) looks butt is prolonged with the joint of aluminium buckle (3) to the other end.

5. The energy-saving convection heat radiation aluminous gusset plate suspended ceiling for the exhibition hall as claimed in claim 3, wherein: the fixed rod (6) is connected with an extension plate (9), and the end face of the extension plate (9) is attached to one side, facing the radiant tube (5), of the aluminum buckle plate (3).

6. The energy-saving convection heat radiation aluminous gusset plate suspended ceiling for the exhibition hall as claimed in claim 5, wherein: be fixed with connecting plate (8) on dead lever (6), one side vertical fixation who keeps away from dead lever (6) extension board (9) and connecting plate (8), the one end that clamp plate (7) were kept away from in connection otic placode (71) is equipped with elasticity barb (711), set up on connecting plate (8) and supply the tip of engaging otic placode (71) and preformed hole (81) that elasticity barb (711) passed, elasticity barb (711) and connecting plate (8) are towards one side butt of mounting panel (4).

7. The energy-saving convective heat-radiating aluminous gusset plate suspended ceiling for exhibition hall as claimed in claim 1, wherein: the inner side wall of the pressing plate (7) is coated with a heat reflecting layer.

8. The mounting method of the energy-saving convection heat radiation aluminous gusset plate suspended ceiling for the exhibition hall is characterized by comprising the following steps of:

s1, hoisting the main keels (1) and the auxiliary keels (2), and adjusting the distance between the auxiliary keels (2) according to the width of the aluminous gusset plate (3);

s2, according to the installation space formed between the false keel (2), the aluminum buckle plates (3) are sequentially installed, the head end and the tail end of the radiant tube (5) located in each aluminum buckle plate (3) are respectively connected with a connecting tube (51) with one end extending out of the pressing plate (7), and the connecting tubes (51) on the two adjacent aluminum buckle plates (3) are connected through soft water tubes.

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