CN219345728U - Fire control pipeline installation mount for fire engineering - Google Patents

Abstract

The utility model discloses a fire-fighting pipeline installation fixing frame for fire-fighting engineering, which belongs to the technical field of fire-fighting engineering and comprises an installation shell, wherein first bearings are arranged on the upper part and the lower part of the inner wall of the installation shell, and the two first bearings are internally provided with the same adjusting component. This fire control pipeline installation mount for fire engineering, through setting up rotary drum, threaded column, spring, dwang and splint, forward rotation action bars, screw thread post and the mounting hole of precession mounting hole mutually support when fixing this mount on the ceiling, upwards remove fire control pipeline, when fire control pipeline moves into between two splint, continue forward rotation action bars, two splint all drive rubber pad and fire control pipeline contact that are close to each other, fire control pipeline installs on the ceiling through this mount, this mount only need rotate the action bars and still can link together fire control pipeline and this mount when fixing on the ceiling, make this mount can be convenient use.

Description

Fire control pipeline installation mount for fire engineering

Technical Field

The utility model belongs to the technical field of fire engineering, and particularly relates to a fire-fighting pipeline installation fixing frame for fire engineering.

Background

The fire-fighting pipeline is mainly used for fire-fighting engineering, and is generally installed on a ceiling, so that the fixing of the fire-fighting pipeline is quite important, the fire-fighting pipeline is fixed on the ceiling by using a fixing frame when being fixed, when the fixing frame is needed to be used, a user needs to use tools and a plurality of bolts to fix the fire-fighting pipeline on the ceiling, and after the fixing frame is fixed, the fire-fighting pipeline is fixed in the fixing frame by using the tools and the plurality of bolts, the operation is complicated, and therefore, the fire-fighting pipeline installation fixing frame for the fire-fighting engineering, which is convenient to use, is needed to solve the problems

Disclosure of Invention

In order to overcome the defects, the utility model provides a fire-fighting pipeline installation fixing frame for fire-fighting engineering, which solves the problem that the fixing frame is troublesome to install and fix a fire-fighting pipeline.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a fire control pipeline installation mount for fire engineering, includes the installation shell, the upper and lower first bearing that all is equipped with of installation shell inner wall, be equipped with same adjusting part in two first bearings, adjusting part sets up in the action bars, adjusting part establishes in the wedge plate, the front and the back of wedge plate respectively with the back and the front overlap joint of installation shell inner wall, the both sides of wedge plate all overlap joint has the promotion subassembly, and the front and the back of two promotion subassemblies all mesh with two gears mutually, all are equipped with fixed subassembly in four gears, wedge plate, two voussoir, four gears and four fixed subassembly all establish in the installation shell, and four fixed subassembly's the outside all is equipped with two second bearings, and eight second bearings are established respectively in the upper and lower of installation shell inner wall, adjusting part's bottom is equipped with the support frame, be equipped with two slip subassemblies and four spacing subassemblies in the support frame, two slip subassemblies are close to the one side all is equipped with the centre gripping subassembly mutually, and two centre gripping subassemblies establish in same support frame, and two slip subassembly keep away from the one end all through being equipped with the dwang, all establishes the pin axle through two both sides that all have the same pivot through setting up the recess with two hinge pin with the support frame.

As a further aspect of the utility model: the adjusting component comprises a threaded cylinder, the threaded cylinder is clamped in the operating rod, the threaded cylinder is arranged in the two first bearings, a threaded rod is connected with the threaded cylinder in a threaded mode, the bottom end of the threaded rod is connected with the supporting frame, a nut is connected with the threaded cylinder in an external threaded mode, and the nut is clamped in the wedge plate.

As a further aspect of the utility model: the pushing assembly comprises wedge blocks, one surfaces of the two wedge blocks, which are close to each other, are respectively overlapped with two sides of the wedge plates, two toothed plates are connected to one surfaces of the two wedge blocks, which are far away from each other, the four toothed plates are meshed with the gears, guide rods are connected in the toothed plates in a sliding manner, and one ends of the four guide rods, which are far away from each other, are respectively connected with two sides of the inner wall of the installation shell.

As a further aspect of the utility model: the fixed subassembly includes the rotary drum, the rotary drum joint is in the gear, the rotary drum is established in two second bearings, sliding connection has the turning block in the rotary drum, the turning block passes through the inner wall connection of spring and rotary drum, the turning block is connected with the screw thread post, the screw thread post is established in the dog, the dog joint is in the rotary drum.

As a further aspect of the utility model: the clamping assembly comprises clamping plates, one faces, away from each other, of the two clamping plates are all arranged at one ends, close to each other, of the two sliding assemblies and the four limiting assemblies, rubber pads are connected to one faces, close to each other, of the two clamping plates, and the top ends of the two clamping plates are overlapped with the inner wall of the same supporting frame.

As a further aspect of the utility model: the sliding assembly comprises sliding sleeves, the two sliding sleeves are respectively connected with two sides of the supporting frame in a clamping mode, sliding rods are connected in the sliding sleeves in a sliding mode, one ends, close to the two sliding rods, of the sliding rods are respectively connected with one faces, far away from the two clamping plates, of the sliding rods, and the ends, far away from the two sliding rods, of the sliding rods are respectively hinged to the bottoms of the two rotating rods through pin shafts.

As a further aspect of the utility model: the limiting assembly comprises limiting sleeves, the four limiting sleeves are respectively clamped on two sides of the supporting frame, limiting rods are connected in a sliding mode in the limiting sleeves, and one ends, close to each other, of the four limiting rods are respectively connected with one sides, far away from the two clamping plates, of the limiting assemblies.

As a further aspect of the utility model: the blocking component comprises a rotating plate, the rotating plate is hinged with the groove through a pin shaft, and the front surface and the back surface of the rotating plate are respectively connected with the front surface and the back surface of the inner wall of the groove through torsion springs

Compared with the prior art, the utility model has the beneficial effects that:

1. this fire control pipeline installation mount for fire control engineering, through setting up screw barrel, the threaded rod, the nut, the rotary drum, the gear, the pinion rack, the screw thread post, a spring, dwang and splint, when the installation shell contacts with the ceiling and the installation shell drives four screw thread posts and the mounting hole on the ceiling when contacting, forward rotation action bars, screw thread post and the mounting hole in the precession mounting hole mutually support when fixing this mount on the ceiling, upwards remove fire control pipeline, when fire control pipeline moves into between two splint, continue forward rotation action bars, two splint that are close to each other all drive the rubber pad and contact with fire control pipeline, fire control pipeline installs on the ceiling through this mount, this mount only need rotate the action bars and still can link together fire control pipeline and this mount when fixing on the ceiling, make this mount can be convenient use.

2. This fire control pipeline installation mount for fire engineering, through setting up splint and rubber pad, because of two splint all are equipped with the rubber pad in the one side that is close to mutually, when two splint all drive the rubber pad and when the fire control pipeline contact and then fix it, splint can not contact and then scratch fire control pipeline with fire control pipeline.

3. This fire control is fire control pipeline installation mount for engineering through setting up screw thread section of thick bamboo, threaded rod and nut, because of threaded rod and nut threaded connection respectively in the inside and the outside of screw thread section of thick bamboo, pivoted screw thread section of thick bamboo accessible threaded rod and nut drive support frame and wedge equidirectional motion respectively.

Drawings

FIG. 1 is a schematic view of a three-dimensional structure of the present utility model;

FIG. 2 is a schematic view of a three-dimensional structure of a support frame according to the present utility model;

FIG. 3 is a schematic cross-sectional view of a front perspective view of the mounting housing of the present utility model;

FIG. 4 is a schematic view of a sectional structure of a partial perspective view of a mounting case of the present utility model;

in the figure: 1 installation shell, 2 first bearings, 3 adjusting components, 31 nuts, 32 threaded rods, 33 threaded cylinders, 4 wedge plates, 5 pushing components, 51 wedge blocks, 52 toothed plates, 53 guide rods, 6 gears, 7 fixing components, 71 rotating cylinders, 72 springs, 73 rotating blocks, 74 threaded columns, 75 check blocks, 8 second bearings, 9 supporting frames, 10 clamping components, 101 clamping plates, 102 rubber pads, 11 sliding components, 111 sliding sleeves, 112 sliding rods, 12 rotating rods, 13 limiting components, 131 limiting sleeves, 132 limiting rods, 14 grooves, 15 blocking components, 151 rotating plates, 152 torsion springs and 16 operating rods.

Detailed Description

The technical scheme of the patent is further described in detail below with reference to the specific embodiments.

As shown in fig. 1-4, the present utility model provides a technical solution: the utility model provides a fire control pipeline installation mount for fire engineering, including installation shell 1, the upper and lower of installation shell 1 inner wall all is equipped with first bearing 2, be equipped with same adjusting component 3 in two first bearings 2, adjusting component 3 sets up in the action bars 16, adjusting component 3 establishes in wedge plate 4, adjusting component 3 includes screw thread section of thick bamboo 33, screw thread section of thick bamboo 33 joint is in action bars 16, through setting up action bars 16, because of the outside at screw thread section of thick bamboo 33 of action bars 16 joint, the user can rotate screw thread section of thick bamboo 33 through the easy handling of action bars 16;

the threaded cylinder 33 is arranged in the two first bearings 2, a threaded rod 32 is connected in the threaded cylinder 33 in a threaded way, the bottom end of the threaded rod 32 is connected with the supporting frame 9, a nut 31 is connected in the threaded cylinder 33 in an external threaded way, the nut 31 is clamped in the wedge plate 4, and the threaded cylinder 33 can be limited and fixed in the installation shell 1 by arranging the first bearings 2, because the threaded cylinder 33 is arranged in the two first bearings 2, and the two first bearings 2 are mutually matched;

the front and back of the wedge plate 4 are respectively lapped with the back and the front of the inner wall of the installation shell 1, both sides of the wedge plate 4 are lapped with pushing assemblies 5, both the front and the back of the two pushing assemblies 5 are meshed with the two gears 6, the pushing assemblies 5 comprise wedge blocks 51, one surface, which is close to the two wedge blocks 51, is lapped with both sides of the wedge plate 4 respectively, by arranging the wedge plate 4 and the wedge blocks 51, when the wedge blocks 51 are contacted with inclined surfaces of the wedge plate 4, the wedge plate 4 moving upwards can push the two wedge blocks 51 to be away from each other, and when the wedge blocks 51 are separated from the inclined surfaces on both sides of the wedge plate 4, the wedge plate 4 moves upwards, and the two wedge blocks 51 are not moved;

two toothed plates 52 are connected to the surfaces of the two wedge blocks 51 far away from each other, the surfaces of the four toothed plates 52 far away from each other are meshed with the gear 6, and the gear 6 and the toothed plates 52 are arranged, so that the toothed plates 52 can be driven to rotate by the moving gear 6 due to the meshing of the gear 6 and the toothed plates 52;

the tooth plate 52 is slidably connected with the guide rods 53, one ends, far away from each other, of the four guide rods 53 are respectively connected with two sides of the inner wall of the installation shell 1, the four gears 6 are internally provided with the fixing assemblies 7, the wedge plate 4, the two wedges 51, the four gears 6 and the four fixing assemblies 7 are respectively arranged in the installation shell 1, the outer sides of the four fixing assemblies 7 are respectively provided with the two second bearings 8, the fixing assemblies 7 comprise a rotary drum 71, the rotary drum 71 is clamped in the gears 6, the rotary drum 71 is arranged in the two second bearings 8, the rotary drum 71 is slidably connected with the rotary block 73, the rotary block 73 is connected with the inner wall of the rotary drum 71 through a spring 72, the rotary block 73 is connected with the threaded column 74, and the rotary drum 71 and the rotary block 73 are arranged in a rectangular shape because the section shape of the rotary drum 71 is arranged in an outer round and inner square shape, and the rotary drum 71 drives the threaded column 74 to rotate through the rotary drum 73;

the threaded post 74 is disposed within the stop 75, and by providing the spring 72, when the spring 72 contracts, the contracting spring 72 compresses the threaded post 74 against the mounting hole;

the stop block 75 is clamped in the rotary drum 71, and by arranging the stop block 75, the stop block 75 can limit the rotary block 73 in the rotary drum 71 because the stop block 75 is arranged above the rotary plate 151, so that the rotary block 73 connected with the threaded column 74 cannot move out from the upper side of the rotary drum 71;

eight second bearings 8 are respectively provided on the upper and lower sides of the inner wall of the installation housing 1, and by providing the second bearings 8, the second bearings 8 can limit and fix the drum 71 in the installation housing 1 because the drum 71 is provided in the second bearings 8.

The fixing frame can be mounted on a ceiling by arranging the mounting shell 1, the first bearing 2, the adjusting component 3, the wedge plate 4, the pushing component 5, the gear 6, the fixing component 7 and the second bearing 8, and the mounting structure consisting of the mounting shell 1, the first bearing 2, the adjusting component 3, the wedge plate 4, the pushing component 5, the gear 6, the fixing component 7 and the second bearing 8.

The bottom end of the adjusting component 3 is provided with a supporting frame 9, two sliding components 11 and four limiting components 13 are arranged in the supporting frame 9, clamping components 10 are arranged on the surfaces, close to each other, of the two sliding components 11, the two clamping components 10 are arranged in the same supporting frame 9, the clamping components 10 comprise clamping plates 101, the surfaces, far away from each other, of the two clamping plates 101 are connected with one ends, close to each other, of the two sliding components 11 and the four limiting components 13, the surfaces, close to each other, of the two clamping plates 101 are connected with rubber pads 102, and by arranging the rubber pads 102, the arc-shaped rubber pads 102 increase friction between the two clamping plates and a fire-fighting pipeline due to the fact that the shapes between the clamping plates 101 and the rubber pads 102 are arc-shaped;

the limiting assembly 13 comprises limiting sleeves 131, the four limiting sleeves 131 are respectively clamped at two sides of the supporting frame 9, limiting rods 132 are slidably connected to the limiting sleeves 131, and the limiting sleeves 131 are arranged to limit the limiting rods 132, so that the limiting rods 132 can be limited by the limiting sleeves 131 due to the fact that the limiting rods 132 are slidably connected to the limiting rods 132, the limiting rods 132 cannot shake during movement, and the clamping plates 101 connected with the limiting rods 132 can move stably along the axial direction of the limiting sleeves 131;

one end, close to each other, of the four limiting rods 132 is connected with one surface, far away from the two clamping plates 101, of each clamping plate 101, the top ends of the two clamping plates 101 are overlapped with the inner wall of the same supporting frame 9, one end, far away from each sliding component 11, of each sliding component 11 is provided with a rotating rod 12 through a pin shaft, each sliding component 11 comprises a sliding sleeve 111, the two sliding sleeves 111 are respectively clamped on two sides of the supporting frame 9, a sliding rod 112 is connected in a sliding manner in the sliding sleeves 111, and the sliding sleeves 111 and the sliding rods 112 are arranged;

one ends of the two sliding rods 112, which are close to each other, are respectively connected with one surfaces of the two clamping plates 101, which are far away from each other, and one ends of the two sliding rods 112, which are far away from each other, are respectively hinged with the bottom ends of the two rotating rods 12 through pin shafts, and the top ends of the two rotating rods 12 are respectively hinged with the same installation shell 1 through pin shafts.

The recess 14 has all been seted up to the both sides of support frame 9, two recesses 14 all are equipped with through the pin and block the subassembly 15, block the subassembly 15 and include rotating plate 151, rotating plate 151 articulates with recess 14 through the round pin axle, the front and the back of rotating plate 151 all are connected with the front and the back of recess 14 inner wall respectively through torsional spring 152, through setting up torsional spring 152 and rotating plate 151, upwards remove fire-fighting pipeline, when fire-fighting pipeline contacts with rotating plate 151 below, because the below of rotating plate 151 sets up to the wedge, the fire-fighting pipeline of upwards moving promotes rotating plate 151 rotation, fire-fighting pipeline passes between two rotating plates 151 and then moves to between two splint 101, rotating plate 151 resumes initial position under torsional force effect of torsional spring 152 for the below of fire-fighting pipeline contacts with the below of two rotating plates 151, the baffle that two rotating plates 151 mutually support each other and constitute can block fire-fighting pipeline, make the fire-fighting pipeline fixed between two splint 101 be difficult for dropping from between it.

The working principle of the utility model is as follows: when the support frame needs to be used, the installation shell 1 is moved, and when the installation shell 1 drives the four threaded columns 74 to contact with installation holes in a ceiling, the installation shell 1 is pressed upwards, the threaded columns 74 move downwards in the stop blocks 75, the downwards moving threaded columns 74 drive the rotating blocks 73 to move downwards in the rotating cylinder 71, and the downwards moving rotating blocks 73 drive the springs 72 to shrink; when the installation shell 1 contacts with a ceiling, the operation rod 16 is rotated positively, the operation rod 16 drives the thread cylinder 33 to rotate positively, the thread cylinder 33 rotates in the two first bearings 2, the thread cylinder 33 rotates positively drives the nut 31 and the threaded rod 32 to move upwards, the nut 31 which moves upwards drives the wedge plate 4 to move upwards, the wedge plate 4 which moves upwards pushes the two wedges 51 away from each other, the two wedges 51 which move away from each other drive the two toothed plates 52 away from each other on the outer sides of the four guide rods 53, the four toothed plates 52 which move away from each other drive the gears 6 to rotate, the rotating four gears 6 drive the rotating drum 71 to rotate, the rotating drum 71 drives the thread column 74 to rotate through the rotating block 73 because the cross section of the rotating drum 71 is set to be a rectangle, and the rotating drum 74 can rotate into the installation hole because the cross section of the rotating drum 71 is set to be a rectangle; simultaneously, the upward moving threaded rod 32 drives the supporting frame 9 to move upward, the upward moving supporting frame 9 drives the two sliding rods 112 to approach each other through the rotating rod 12, and the sliding rods 112 which approach each other drive the clamping plates 101 to approach each other;

when the screw post 74 and the mounting hole fix the support frame on the ceiling, the fire-fighting pipeline is moved upwards, the fire-fighting pipeline pushes the rotating plate 151 to rotate around the pin rod, the torsion spring 152 is twisted, when the fire-fighting pipeline moves between the two clamping plates 101, the rotating plate 151 is separated from the fire-fighting pipeline, the rotating plate 151 returns to the initial position under the torsion force of the torsion spring 152, and the operating rod 16 is continuously rotated; when the wedge block 51 moves out of the inclined plane of the wedge plate 4, the support frame is firmly arranged on the ceiling, the two clamping plates 101 are close to each other, the operating rod 16 is continuously rotated, the threaded cylinder 33 and the nut 31 are matched with each other to drive the wedge plate 4 to move upwards, the wedge block 51 is not moved, and the two clamping plates 101 are continuously close to each other; when both clamping plates 101 drive the rubber pad 102 to contact with the fire-fighting pipeline, the fire-fighting pipeline is mounted on the ceiling through the supporting frame.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art in a specific case.

While the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes may be made without departing from the spirit of the present patent within the knowledge of one of ordinary skill in the art.

Claims (8)

1. Fire control pipeline installation mount for fire engineering, including installing shell (1), its characterized in that: the upper part and the lower part of the inner wall of the installation shell (1) are respectively provided with a first bearing (2), the two first bearings (2) are internally provided with a same adjusting component (3), the adjusting component (3) is arranged in an operating rod (16), the adjusting component (3) is arranged in a wedge plate (4), the front surface and the back surface of the wedge plate (4) are respectively overlapped with the back surface and the front surface of the inner wall of the installation shell (1), both sides of the wedge plate (4) are respectively overlapped with a pushing component (5), the front surface and the back surface of the two pushing components (5) are respectively engaged with two gears (6), the four gears (6) are respectively provided with a fixing component (7), the wedge plate (4), two wedge blocks (51), four gears (6) and four fixing components (7) are respectively arranged in the installation shell (1), the outer sides of the four fixing components (7) are respectively provided with two second bearings (8), eight second bearings (8) are respectively arranged on the upper part and the lower part of the inner wall of the installation shell (1), the bottom end of the adjusting component (3) is provided with two supporting frames (9), the two supporting frames (9) are respectively provided with two sliding components (10) and two sliding components (11) are respectively arranged in the two sliding components (11) in the same side of the two sliding components (11), one end that two slip subassembly (11) kept away from mutually all is equipped with dwang (12) through the round pin axle, and the top of two dwang (12) all articulates with same installation shell (1) through the round pin axle, recess (14) have all been seted up to the both sides of support frame (9), and two recesses (14) all are equipped with through the round pin pole and block subassembly (15).

2. A fire hose mounting bracket for fire engineering according to claim 1, wherein: the adjusting component (3) comprises a threaded cylinder (33), the threaded cylinder (33) is clamped in the operating rod (16), the threaded cylinder (33) is arranged in the two first bearings (2), a threaded rod (32) is connected with the threaded cylinder (33) in an internal thread mode, the bottom end of the threaded rod (32) is connected with the supporting frame (9), a nut (31) is connected with the threaded cylinder (33) in an external thread mode, and the nut (31) is clamped in the wedge plate (4).

3. A fire hose mounting bracket for fire engineering according to claim 1, wherein: the pushing assembly (5) comprises wedge blocks (51), one faces, close to the two wedge blocks (51), are respectively overlapped with two sides of the wedge plate (4), two toothed plates (52) are respectively connected to one faces, far away from the two wedge blocks (51), the faces, far away from the four toothed plates (52), are respectively meshed with the gear (6), guide rods (53) are slidably connected in the toothed plates (52), and one ends, far away from the four guide rods (53), are respectively connected with two sides of the inner wall of the installation shell (1).

4. A fire hose mounting bracket for fire engineering according to claim 1, wherein: the fixed subassembly (7) is including rotary drum (71), rotary drum (71) joint is in gear (6), rotary drum (71) are established in two second bearings (8), sliding connection has rotary block (73) in rotary drum (71), rotary block (73) are connected with the inner wall of rotary drum (71) through spring (72), rotary block (73) are connected with screw thread post (74), screw thread post (74) are established in dog (75), dog (75) joint is in rotary drum (71).

5. A fire hose mounting bracket for fire engineering according to claim 1, wherein: the clamping assembly (10) comprises clamping plates (101), one far away from the two clamping plates (101) is respectively arranged at one ends of the two sliding assemblies (11) and the four limiting assemblies (13) which are close to each other, rubber pads (102) are connected to one near to the two clamping plates (101), and the top ends of the two clamping plates (101) are overlapped with the inner wall of the same supporting frame (9).

6. The fire-fighting pipeline mounting fixture for fire engineering according to claim 5, wherein: the sliding assembly (11) comprises sliding sleeves (111), the two sliding sleeves (111) are respectively clamped on two sides of the supporting frame (9), sliding rods (112) are connected in the sliding sleeves (111), one ends of the two sliding rods (112) close to each other are respectively connected with one sides of the two clamping plates (101) far away from each other, and one ends of the two sliding rods (112) far away from each other are respectively hinged with the bottom ends of the two rotating rods (12) through pin shafts.

7. The fire-fighting pipeline mounting fixture for fire engineering according to claim 6, wherein: the limiting assembly (13) comprises limiting sleeves (131), the four limiting sleeves (131) are respectively clamped on two sides of the supporting frame (9), limiting rods (132) are connected in a sliding mode in the limiting sleeves (131), and one ends, close to each other, of the four limiting rods (132) are respectively connected with one sides, far away from the two clamping plates (101).

8. A fire hose mounting bracket for fire engineering according to claim 1, wherein: the blocking assembly (15) comprises a rotating plate (151), the rotating plate (151) is hinged with the groove (14) through a pin shaft, and the front face and the back face of the rotating plate (151) are respectively connected with the front face and the back face of the inner wall of the groove (14) through torsion springs (152).

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