CN216616508U - Furred ceiling mounting structure of high-efficient equipment - Google Patents

Abstract

The application discloses a ceiling mounting structure capable of being efficiently assembled, which relates to the field of ceiling mounting and comprises a mounting base mounted on a ceiling, a main suspender connected to the mounting base, a main keel connected with the main suspender and an auxiliary keel lapped on the main keel, wherein the main keel is provided with a positioning groove, the main suspender is positioned right above the intersection of the main keel and the auxiliary keel, and the end part of the main suspender, which is far away from the mounting base, is provided with a hoisting connecting mechanism for hoisting the main keel; the mounting base is symmetrically hinged with auxiliary suspenders on two opposite sides of the main suspender, and inclined strut connecting mechanisms used for hooking the auxiliary keels are arranged at the end parts, far away from the mounting base, of the auxiliary suspenders. This application has the difficult impaired effect of main joist and false keel's cross section, is favorable to promoting the life of furred ceiling.

Description

Furred ceiling mounting structure of high-efficient equipment

Technical Field

The utility model relates to a furred ceiling installation field especially relates to a furred ceiling mounting structure of high-efficient equipment.

Background

The suspended ceiling refers to a decoration for decorating the top of the residential environment of a house, namely, decorating the top of an indoor ceiling. The most widely used suspended ceiling at present is an aluminum alloy suspended ceiling which is a decorative framework material formed by cold bending or stamping aluminum strips and aluminum alloy sections, is a suspended ceiling keel material applied in suspended ceiling decoration, and has the advantages of light weight, high rigidity, good fire resistance, good shock resistance, convenience in installation and the like.

Chinese patent with application number cn201922032098.x among the correlation technique, a furred ceiling mounting structure is proposed, including the main joist that transversely sets up, vertically install rider keel and hanger plate on the main joist, the vertical fixed jib that is provided with on the middle part of main joist, the upper end of jib is fixed in the wall body, the rider keel is equipped with the fixed subassembly that is used for installing the hanger plate, main joist and rider keel form the check frame, each hanger plate is installed respectively in the check frame, the constant head tank has been seted up on the upper portion of main joist, the rider keel passes through the constant head tank overlap joint on the main joist, the upper surface of rider keel is along transversely seting up the anti-disengaging groove that runs through rider keel width direction's both sides wall, the main joist slides along main joist length direction and is connected with the anti-disengaging pole, the anti-disengaging pole slides with the anti-disengaging groove and is connected, can avoid the repeated location of rider keel, thereby improve work efficiency.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: in the use process of the suspended ceiling with the large size of the hanging plate, the auxiliary keel is directly placed on the main keel, and the auxiliary keel needs to bear the gravity of the hanging plate, so that the intersection of the main keel and the auxiliary keel needs to bear large load, and the intersection of the main keel and the auxiliary keel is easy to damage.

SUMMERY OF THE UTILITY MODEL

In order to improve the easy problem of damaging of main joist and false keel's intersect, this application provides the furred ceiling mounting structure of a high-efficient equipment.

The application provides a furred ceiling mounting structure of high-efficient equipment adopts following technical scheme:

a ceiling mounting structure capable of being efficiently assembled comprises a mounting base mounted on a ceiling, a main suspension rod connected to the mounting base, a main keel connected with the main suspension rod and an auxiliary keel lapped on the main keel, wherein the main keel is provided with a positioning groove, the main suspension rod is positioned right above the intersection of the main keel and the auxiliary keel, and the end part of the main suspension rod, far away from the mounting base, is provided with a hoisting connecting mechanism for hoisting the main keel; the mounting base is symmetrically hinged with auxiliary suspenders on two opposite sides of the main suspender, and inclined strut connecting mechanisms used for hooking the auxiliary keels are arranged at the end parts, far away from the mounting base, of the auxiliary suspenders.

Through adopting above-mentioned technical scheme, when needs installation furred ceiling, pass through the bolt fastening with the mounting base earlier on the ceiling, pass through hoist and mount coupling mechanism with the main jib again and connect the main joist to pass through hoist and mount coupling mechanism with the false jib and connect the false keel, imbed the hanger plate between main joist and false keel again, can accomplish the installation of furred ceiling. Hoist and mount coupling mechanism can carry the main joist and draw in the use, and bracing coupling mechanism can carry the false keel simultaneously to the load that the cross section of main joist and false keel received can be shared to the false jib, realizes the difficult impaired effect of cross section of main joist and false keel with this, is favorable to promoting the life of furred ceiling.

Optionally, the hoisting connection mechanism includes a hoisting plate fixedly connected to the end of the main hoisting rod and two hoisting pieces respectively connected to two ends of the hoisting plate; a gap is formed between the hoisting plate and the main keel along the length direction of the main hoisting rod; and the two groups of hanging pieces are respectively positioned on two sides of the auxiliary keel.

Through adopting above-mentioned technical scheme, two hang the piece and carry the drawing to the region that the main joist is located the constant head tank both sides respectively to can further reduce the load that main joist and false keel junction received. Meanwhile, the gap between the hoisting plate and the main keel is convenient for the auxiliary keel to be arranged in a penetrating way.

Optionally, the hanging part includes a connecting screw, a sleeve plate sleeved on the main keel, two first connecting nuts connected to the top ends of the connecting screw, and two second connecting nuts connected to the bottom ends of the connecting screw; the top end of the connecting screw rod penetrates through the hoisting plate, and the two first connecting nuts are respectively abutted against two opposite side faces of the hoisting plate; the bottom end of the connecting screw rod penetrates through the top end of the sleeve plate, and the two second connecting nuts are respectively abutted to two opposite side faces of the top end of the sleeve plate.

Through adopting above-mentioned technical scheme, when needing hoist and mount main joist, wear to locate on the hoist and mount board earlier connecting screw's top, and in connecting screw's the rotatory first coupling nut of top screw thread, until two first coupling nuts support respectively tightly in the double-phase opposite side of hoist and mount board, wear to locate the lagging top with connecting screw's bottom again, and in connecting screw's the rotatory second coupling nut of bottom screw thread, until two second coupling nuts support respectively tightly in the double-phase opposite side at lagging top, wear to locate the lagging in with the main joist again, can accomplish the hoist and mount of main joist, simultaneously above-mentioned structure can also adjust the hoist and mount height.

Optionally, the auxiliary suspension rod comprises a sleeve portion hinged to the mounting base, a movable portion inserted into the sleeve portion, and a return elastic member for limiting the movement of the movable portion.

Through adopting above-mentioned technical scheme, in the furred ceiling use, if the false keel receives the external load and can order about the activity portion activity in the sleeve portion to make the elastic component that resets be in tensile or compression state, and then the elastic component that resets can exert reaction force to the activity portion in the use, and offset the loading force that the false keel received, thereby further reduce the pressure of false keel to the main joist.

Optionally, the hoisting connection mechanism comprises a hook connected to the end of the auxiliary lifting rod and a hanging ring in hooking fit with the hook; the hanging ring is fixedly connected to the auxiliary keel.

Through adopting above-mentioned technical scheme, when needs are connected false keel and false jib, with the couple direct hookup on the link can, installation easy operation is of value to and promotes the efficiency of construction.

Optionally, the hoisting connection mechanism further comprises a blocking rod hinged to the hook and a propping elastic piece for driving the blocking rod to reset; the end part of the plugging rod far away from the hinged part is tightly propped against the hook part of the hook.

Through adopting above-mentioned technical scheme, when rider keel and auxiliary hanger rod are connected to needs, stir the shutoff pole earlier and drive the tip of shutoff pole and keep away from the couple, support tight elastic component simultaneously and be in tensile or compression state, again with the couple hookup on the link, cancel the external force of applying in the shutoff pole, support tight elastic component and begin to reset and order about the swing of shutoff pole, and make the shutoff pole support tightly in the hook portion of couple, can reduce the risk of couple and link separation, be of value to and promote the stability of being connected of rider keel and rider keel.

Optionally, a second hinge rod is fixedly connected to an end portion, close to the hook, of the blocking rod, and the second hinge rod penetrates through the hook; the abutting elastic piece comprises a torsional spring sleeved on the second hinge rod, one end of the torsional spring is connected to the hook, and the other end of the torsional spring is connected to the plugging rod.

Through adopting above-mentioned technical scheme, the shutoff pole is around the swing of second articulated arm, and the torsional spring is used for providing the power that resets.

Optionally, a cushion pad is connected to the inner wall of the positioning groove of the main keel.

Through adopting above-mentioned technical scheme, the blotter can slow down the wearing and tearing between main joist and the false keel, and can fill the clearance between full main joist and the false keel, and then reduces the relative rocking between false keel and the main joist.

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

1. the main suspender is used for lifting the areas of the main keel, which are positioned at the two sides of the positioning groove, through the hoisting plate and the two hoisting pieces, and the assistant suspender is used for lifting the assistant keel through the hook and the hanging ring, so that the assistant suspender can share the load borne by the intersection of the main keel and the assistant keel, the effect that the intersection of the main keel and the assistant keel is not easy to damage is realized, and the service life of the suspended ceiling is prolonged;

2. when the auxiliary keel and the auxiliary hanger rod need to be connected, the hook is hooked on the hanging ring, the abutting hinge rod drives the plugging rod to swing through elastic force, and the plugging rod abuts against the hook part of the hook, so that the risk of separation of the hook and the hanging ring can be reduced, and the connection stability of the auxiliary keel and the auxiliary hanger rod is favorably improved;

3. the blotter can slow down the wearing and tearing between main joist and the false keel, and can fill the clearance between full main joist and the false keel, and then reduces the relative rocking between false keel and the main joist.

Drawings

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

Fig. 2 is a schematic structural diagram of a mounting base, a main boom, a hoisting connection mechanism and a main keel according to an embodiment of the application.

Fig. 3 is a schematic structural diagram of a hook, a plugging rod and a torsion spring according to an embodiment of the present application.

Fig. 4 is a schematic overall structure diagram of the second embodiment of the present application.

Fig. 5 is a partially enlarged schematic view of a portion a in fig. 4.

Reference numerals are as follows: 1. mounting a base; 11. hinging the ear plate; 2. a main boom; 3. a main keel; 31. positioning a groove; 32. a cushion pad; 4. a false keel; 5. hoisting the connecting mechanism; 51. hoisting the plate; 52. a hanger; 521. connecting a screw rod; 522. sheathing; 5221. a vertical portion; 5222. a horizontal portion; 523. a first coupling nut; 524. a second coupling nut; 6. an auxiliary boom; 61. a first hinge lever; 62. a sleeve portion; 63. a movable portion; 631. a connecting ring; 64. a spring; 7. a diagonal bracing connection mechanism; 71. hooking; 72. hanging a ring; 73. a plugging rod; 731. a second hinge lever; 74. a torsion spring; 8. a hanger plate.

Detailed Description

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

The embodiment of the application discloses furred ceiling mounting structure of high-efficient equipment. Referring to fig. 1, a ceiling mounting structure of high-efficient equipment includes a mounting base 1 installed on a ceiling, a main boom 2 connected to the mounting base 1, a main runner 3 connected to the main boom 2, a cross runner 4 lapped on the main runner 3, and a hanger plate 8 embedded between the main runner 3 and the cross runner 4.

Referring to fig. 1 and 2, the main keel 3 is provided with a positioning groove 31 for placing the cross keel 4, and the inner wall of the positioning groove 31 of the main keel 3 is connected with a cushion 32 for reducing abrasion in a bonding manner. The main suspender 2 is positioned right above the intersection of the main keel 3 and the auxiliary keel 4, and the end part of the main suspender 2 far away from the mounting base 1 is provided with a hoisting connecting mechanism 5 for hoisting the main keel 3.

Referring to fig. 1 and 2, the mounting base 1 is symmetrically hinged to the auxiliary suspension rod 6 on two opposite sides of the main suspension rod 2, the hinge lug plates 11 are welded on two sides of the top end of the auxiliary suspension rod 1, the two hinge lug plates 11 penetrate through the first hinge rod 61 along the horizontal direction, and the top end of the auxiliary suspension rod 6 is welded to the outer peripheral wall of the first hinge rod 61, so that the top end of the auxiliary suspension rod 6 swings around the first hinge rod 61. The sub boom 6 is in the present embodiment cylindrical in shape, and the end of the sub boom 6 remote from the mounting base 1 is provided with a diagonal bracing connection 7 for hooking the sub keel 4.

When the furred ceiling is installed to needs, earlier with mounting base 1 through the bolt fastening on the ceiling, connect main joist 3 with main jib 2 through hoist and mount coupling mechanism 5 again to pass through hoist and mount coupling mechanism 5 with auxiliary jib 6 and connect auxiliary joist 4, imbed hanger plate 8 between main joist 3 and auxiliary joist 4 again, can accomplish the installation of furred ceiling. Hoist and mount coupling mechanism 5 can carry main joist 3 and draw in the use, and bracing coupling mechanism 7 can carry auxiliary joist 4 simultaneously to the load that the intersection of main joist 3 and auxiliary joist 4 received can be shared to auxiliary suspender 6, with this effect that the intersection of realizing main joist 3 and auxiliary joist 4 is difficult for impaired, is favorable to promoting the life of furred ceiling.

Referring to fig. 1 and 2, the hoisting connection mechanism 5 includes a hoisting plate 51 fixedly connected to the end surface of the bottom end of the main boom 2 by welding and two hoisting pieces 52 respectively connected to two ends of the hoisting plate 51, and a gap exists between the hoisting plate 51 and the main keel 3 along the length direction of the main boom 2, and the gap is used for penetrating the false keel 4 during installation.

Referring to fig. 1 and 2, two sets of hanging members 52 are respectively located at two sides of the cross runner 4, and each hanging member 52 includes a connecting screw 521, a sleeve plate 522 sleeved on the main runner 3, two first connecting nuts 523 connected to the top end of the connecting screw 521, and two second connecting nuts 524 connected to the bottom end of the connecting screw 521. The strap 522 includes a vertical portion 5221 and a horizontal portion 5222 connected to both ends of the vertical portion 5221, the vertical portion 5221 is integrally formed with the horizontal portion 5222, and the strap 522 of the two hangers 52 are opened in opposite directions.

Referring to fig. 1 and 2, the top end of the connection screw 521 is inserted into the hanging plate 51, and the two first connection nuts 523 respectively abut against the two opposite side surfaces of the hanging plate 51. The bottom end of the connecting screw 521 is inserted into the upper horizontal portion 5222, the two second connecting nuts 524 respectively abut against two opposite side surfaces of the upper horizontal portion 5222, and the lower horizontal portion 5222 abuts against the bottom surface of the main runner 3.

When the main keel 3 needs to be hoisted, the top end of the connecting screw 521 is firstly penetrated on the hoisting plate 51, the first connecting nut 523 is rotated by the top end thread of the connecting screw 521 until the two first connecting nuts 523 are respectively abutted against two opposite side surfaces of the hoisting plate 51, then the bottom end of the connecting screw 521 is penetrated on the horizontal part 5222 positioned above, the second connecting nut 524 is rotated by the bottom end thread of the connecting screw 521 until the two second connecting nuts 524 are respectively abutted against two opposite side surfaces of the horizontal part 5222 positioned above, then the main keel 3 is penetrated in the sleeve plate 522, then the hoisting of the main keel 3 can be completed, and the two hoisting pieces 52 respectively lift the areas of the main keel 3 positioned at two sides of the positioning groove 31, so that the load borne by the intersection of the main keel 3 and the auxiliary keel 4 can be further reduced. Meanwhile, the hoisting height can be adjusted by the structure.

Referring to fig. 1 and 3, the hoisting connection mechanism 5 includes a hook 71 connected to an end of the auxiliary boom 6, a hanging ring 72 hooked and adapted to the hook 71, a blocking rod 73 hinged to the hook 71, and a resilient member for urging the blocking rod 73 to return. The hanging ring 72 is fixedly connected to the top surface of the false keel 4 in a welding mode.

Referring to fig. 1 and 3, a second hinge rod 731 is welded to an end portion of the blocking rod 73 close to the hook 71, the second hinge rod 731 penetrates through the hook 71 in the horizontal direction, so that the blocking rod 73 swings around the second hinge rod 731, and an end portion of the blocking rod 73 far away from the hinge portion abuts against a hook portion of the hook 71. The elastic member includes a torsion spring 74 sleeved on the second hinge rod 731, one end of the torsion spring 74 is connected to the hook 71, and the other end is connected to the blocking rod 73.

When the false keel 4 and the false jib 6 need to be connected, stir the shutoff pole 73 earlier and drive the tip of shutoff pole 73 and keep away from couple 71, torsional spring 74 is in tensile state simultaneously, again with couple 71 hookup on link 72, cancel the exogenic force of applying in shutoff pole 73, torsional spring 74 begins to reset and orders about the swing of shutoff pole 73, and make the shutoff pole 73 support tightly in the crotch portion of couple 71, can reduce the risk of couple 71 and link 72 separation, be of value to promoting the stability of being connected of false keel 4 and false jib 6, and installation easy operation, be of value to and promote the efficiency of construction.

The implementation principle of the ceiling mounting structure of this application embodiment of high-efficient equipment is: when the suspended ceiling needs to be installed, the installation base 1 is fixed on the ceiling through bolts, the top end of the connecting screw 521 is arranged on the hoisting plate 51 in a penetrating mode, the first connecting nuts 523 are rotated on the top end threads of the connecting screw 521 until the two first connecting nuts 523 abut against two opposite side faces of the hoisting plate 51 respectively, the bottom end of the connecting screw 521 is arranged on the horizontal part 5222 above in a penetrating mode, the second connecting nuts 524 are rotated on the bottom end threads of the connecting screw 521 until the two second connecting nuts 524 abut against two opposite side faces of the horizontal part 5222 above in a penetrating mode, and the main keel 3 is arranged in the sleeve plate 522 in a penetrating mode, so that the hoisting of the main keel 3 can be completed;

move shutoff pole 73 and drive the tip of shutoff pole 73 and keep away from couple 71, torsional spring 74 is in tensile state simultaneously, again with couple 71 hookup on link 72, cancel the external force of applying in shutoff pole 73, torsional spring 74 begins to reset and orders about the swing of shutoff pole 73, and make shutoff pole 73 support tightly in the crotch portion of couple 71, can accomplish the hoist and mount of false keel 4, imbed hanger plate 8 between main joist 3 and false keel 4 again, can accomplish the installation of furred ceiling. Main boom 2 can carry and carry main joist 3 in the use, and assistant boom 6 can carry and carry auxiliary joist 4 simultaneously to auxiliary boom 6 can share the load that main joist 3 and auxiliary joist 4's cross section received, with this the difficult impaired effect of main joist 3 and auxiliary joist 4's cross section of realization, is favorable to promoting the life of furred ceiling.

Example two:

referring to fig. 4 and 5, the second embodiment of the present application differs from the first embodiment in that: the auxiliary boom 6 includes a sleeve portion 62 hinged to the mounting base 1, a movable portion 63 inserted into the sleeve portion 62, and a return elastic member for restricting the movement of the movable portion 63.

Referring to fig. 4 and 5, the sleeve portion 62 has a cylindrical shape, and the distal end of the sleeve portion 62 is welded to the outer peripheral wall of the first hinge lever 61. The movable portion 63 is cylindrical and inserted into the sleeve portion 62, the end face of the bottom end of the movable portion 63 is connected to the hook 71, and the bottom end is fixedly sleeved with a connecting ring 631. The return elastic member is a spring 64 sleeved on the movable portion 63, one end of the spring 64 is connected to the end surface of the sleeve portion 62, and the other end is connected to the end surface of the connecting ring 631.

Principle of the second embodiment: in the furred ceiling use, if the false keel 4 receives external load and can order about movable part 63 activity in sleeve part 62 to make spring 64 be in tensile state, and then spring 64 can exert reaction force to movable part 63 in the use, and offset the loading power that the false keel 4 received, thereby further reduce the pressure of false keel 4 to main joist 3.

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

Claims (8)

1. The utility model provides a furred ceiling mounting structure of high-efficient equipment, including install mounting base (1) on the ceiling, connect in main jib (2) on mounting base (1), with main joist (3) that main jib (2) are connected and overlap joint in false keel (4) on main joist (3), constant head tank (31), its characterized in that have been seted up in main joist (3): the main suspender (2) is positioned right above the intersection of the main keel (3) and the auxiliary keel (4), and a hoisting connection mechanism (5) for hoisting the main keel (3) is arranged at the end part of the main suspender (2) far away from the mounting base (1);

the mounting base (1) is hinged with auxiliary suspenders (6) symmetrically on two opposite sides of the main suspender (2), and the end part of the auxiliary suspender (6) far away from the mounting base (1) is provided with an inclined strut connecting mechanism (7) for hooking the auxiliary keel (4).

2. An efficiently assembled suspended ceiling mounting structure as set forth in claim 1, wherein: the hoisting connecting mechanism (5) comprises a hoisting plate (51) fixedly connected to the end part of the main hoisting rod (2) and two hoisting pieces (52) respectively connected to two ends of the hoisting plate (51);

a gap exists between the hoisting plate (51) and the main keel (3) along the length direction of the main hoisting rod (2);

the two groups of hanging pieces (52) are respectively positioned on two sides of the auxiliary keel (4).

3. An efficiently assembled suspended ceiling mounting structure as set forth in claim 2, wherein: the hanging piece (52) comprises a connecting screw rod (521), a sleeve plate (522) sleeved on the main keel (3), two first connecting nuts (523) connected to the top end of the connecting screw rod (521) and two second connecting nuts (524) connected to the bottom end of the connecting screw rod (521);

the top end of the connecting screw rod (521) penetrates through the hoisting plate (51), and the two first connecting nuts (523) are respectively abutted against two opposite side surfaces of the hoisting plate (51);

the bottom end of the connecting screw rod (521) penetrates through the top end of the sleeve plate (522), and the two second connecting nuts (524) are respectively abutted against two opposite side surfaces of the top end of the sleeve plate (522).

4. An efficiently assembled suspended ceiling mounting structure as set forth in claim 1, wherein: the auxiliary suspension rod (6) comprises a sleeve part (62) hinged to the mounting base (1), a movable part (63) arranged in the sleeve part (62) in a penetrating mode, and a return elastic piece used for limiting the movement of the movable part (63).

5. An efficiently assembled suspended ceiling mounting structure as set forth in any one of claims 1 to 4, wherein: the hoisting connection mechanism (5) comprises a hook (71) connected to the end part of the auxiliary suspender (6) and a hanging ring (72) in hooking fit with the hook (71);

the hanging ring (72) is fixedly connected to the auxiliary keel (4).

6. An efficiently assembled suspended ceiling mounting structure as set forth in claim 5, wherein: the hoisting connection mechanism (5) further comprises a blocking rod (73) hinged to the hook (71) and a propping elastic piece for driving the blocking rod (73) to reset;

the end part of the plugging rod (73) far away from the hinged part is tightly propped against the hook part of the hook (71).

7. An efficiently assembled suspended ceiling mounting structure as set forth in claim 6, wherein: a second hinged rod (731) is fixedly connected to the end part, close to the hook (71), of the blocking rod (73), and the second hinged rod (731) penetrates through the hook (71);

the abutting elastic piece comprises a torsion spring (74) sleeved on the second hinge rod (731), one end of the torsion spring (74) is connected to the hook (71), and the other end of the torsion spring is connected to the blocking rod (73).

8. An efficiently assembled suspended ceiling mounting structure as set forth in claim 1, wherein: the main keel (3) is connected with a buffer pad (32) on the inner wall of the positioning groove (31).

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