CN213575963U - Assembled antidetonation gallows of fire-fighting pipeline - Google Patents

Abstract

The utility model discloses a fire control pipeline assembled antidetonation gallows relates to the fire control pipeline field, the utility model discloses a transverse wave antidetonation frame, mount, connect the slide rail, pipeline fixed establishment and longitudinal wave antidetonation frame, two fixed block upper surfaces respectively with two sliding block lower surface welding, two connecting plate side surfaces are equipped with a plurality of first through-holes respectively, it is equipped with a plurality of second through-holes respectively to connect slide rail body both ends, a plurality of second connecting bolt pass a plurality of second through-holes and a plurality of first through-hole normal running fit respectively, a plurality of fixed plate one end all with installation piece upper surface welding, two longitudinal wave connecting axle one end respectively with two connecting block one side surface welding. The utility model relates to a fire pipeline assembled antidetonation gallows can resist the horizontal earthquake effort of shear wave through setting up shear wave antidetonation frame, and the vertical wave antidetonation frame can resist the horizontal earthquake effort of vertical wave effect, has improved the stability and the security of device, and installation piece and connecting block have increased the antidetonation effect.

Description

Assembled antidetonation gallows of fire-fighting pipeline

Technical Field

The utility model relates to a fire pipeline field, in particular to a fire pipeline assembled antidetonation gallows.

Background

The fire-fighting pipeline is a pipeline material which is used for connecting fire-fighting equipment and equipment in the aspect of fire fighting and conveying water, gas or other media for fire fighting.

A fire pipeline assembled gallows has the security poor stability under the prior art, can't resist the earthquake and shortcoming such as inconvenient installation and dismantlement, for this we provide a fire pipeline assembled antidetonation gallows.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at provides a firefighting pipe assembled antidetonation gallows can effectively solve security poor stability among the background art, can't resist earthquake and inconvenient installation and dismantlement scheduling problem.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme: an assembled anti-seismic support and hanger for a fire-fighting pipeline comprises a transverse wave anti-seismic frame, a fixing frame, a connecting slide rail, a pipeline fixing mechanism and a longitudinal wave anti-seismic frame, the transverse wave anti-seismic frame comprises a sliding block, the fixed frame comprises a fixed block, a connecting plate and a second connecting bolt, the connecting slide rail comprises a connecting slide rail body, a connecting block and a mounting block, the pipeline fixing mechanism comprises a fixing plate, the longitudinal wave anti-seismic frame comprises a longitudinal wave connecting shaft, the upper surfaces of the two fixed blocks are respectively welded with the lower surfaces of the two sliding blocks, the side surfaces of the two connecting plates are respectively provided with a plurality of first through holes, two ends of the connecting slide rail body are respectively provided with a plurality of second through holes, a plurality of second connecting bolts penetrate through the plurality of second through holes to be matched with the plurality of first through holes in a rotating mode, one end of the fixing plate is welded with the upper surface of the mounting block, and one end of each longitudinal wave connecting shaft is welded with one side surface of the two connecting blocks.

Preferably, the shear wave anti-seismic frame further comprises a shear wave anti-seismic frame body, a plurality of mounting holes are formed in the upper surfaces of the two shear wave anti-seismic frame bodies respectively, the mounting bolts are in rotating fit with the first mounting holes respectively, one ends of the two first shear wave anti-seismic springs are connected with one ends of the two shear wave anti-seismic frame bodies respectively, the other ends of the two first shear wave anti-seismic springs are connected with one side surface of the two sliding blocks respectively, one ends of the two second shear wave anti-seismic springs are connected with the other side surface of the two sliding blocks respectively, the other ends of the two second shear wave anti-seismic springs are connected with the other ends of the two shear wave anti-seismic frame bodies respectively, the shear wave anti-seismic frame can resist the horizontal seismic force of shear waves, and the stability and the safety of the device are improved.

Preferably, the mount still includes mount body, fixing bolt and first connecting bolt, two fixed block side surfaces are equipped with a plurality of first screw holes respectively, two mount body side surfaces are equipped with a plurality of second screw holes and a plurality of first round hole respectively, and are a plurality of fixing bolt passes a plurality of second screw holes and a plurality of first screw hole normal running fit respectively, two connecting plate side surfaces are equipped with a plurality of second round holes respectively, and are a plurality of first connecting bolt passes a plurality of second round holes and a plurality of first round hole normal running fit respectively, and wherein, fixing bolt, first connecting bolt and second connecting bolt all have four, and fixing bolt, first connecting bolt and second connecting bolt make the device be convenient for install and dismantle.

Preferably, installation piece and two connecting blocks all with be connected slide rail body sliding fit, installation piece and connecting block have increased the antidetonation effect.

Preferably, the pipeline fixing mechanism further comprises a pipeline fixing mechanism body, a plurality of first limiting holes are formed in the side surface of the fixed plate, a plurality of second limiting holes are formed in the side surface of the rotating block, a plurality of rotating pipes penetrate through the second limiting holes to be in rotating fit with the first limiting holes, one end of each rotating block is welded to the side surface of the pipeline fixing mechanism body, the side surface of each protecting pad is connected with the side surface of the inner portion of the fixing mechanism body, one end of each opening plate is welded to the side surface of the fixing mechanism body, a plurality of second mounting holes are formed in the side surface of each opening plate, a plurality of opening bolts are in rotating fit with the second mounting holes, and the pipeline fixing mechanism is used for fixing pipelines, and the opening and closing bolts enable the pipeline to be convenient to mount and dismount.

Preferably, the longitudinal wave anti-seismic frame further comprises a longitudinal wave anti-seismic frame body, a longitudinal wave connecting block, longitudinal wave anti-seismic springs, a longitudinal wave fixed block and a longitudinal wave fixed shaft, two first positioning holes are formed in the side surfaces of the two longitudinal wave connecting blocks respectively, the two longitudinal wave connecting shafts are in two first positioning hole rotation fit respectively, the two longitudinal wave anti-seismic springs are installed inside the two longitudinal wave anti-seismic frame bodies respectively, one ends of the two longitudinal wave anti-seismic springs are connected with one ends of the two longitudinal wave connecting shafts respectively, the other ends of the two longitudinal wave anti-seismic springs are connected with one ends of the two longitudinal wave fixed blocks respectively, the two side surfaces of the two longitudinal wave fixed blocks are provided with two second positioning holes respectively, the two longitudinal wave fixed shafts are in rotation fit with the two second positioning holes respectively, the longitudinal wave anti-seismic frame can resist the horizontal seismic force action of the longitudinal waves.

The utility model discloses following beneficial effect has:

1. the utility model can resist the action of horizontal earthquake force of transverse wave by arranging the transverse wave earthquake-proof frame, and can resist the action of horizontal earthquake force of longitudinal wave by arranging the longitudinal wave earthquake-proof frame, thereby improving the stability and the safety of the device, and increasing the earthquake-proof action by the mounting block and the connecting block;

2. the utility model has the advantages that the device is convenient to install and disassemble by arranging the fixing bolt, the first connecting bolt and the second connecting bolt;

3. the utility model discloses a set up pipeline fixed establishment and be used for fixed pipeline, and the bolt that opens and shuts makes the pipeline be convenient for install and dismantle.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view of the overall structure of an assembled anti-seismic support hanger for a fire fighting pipeline according to the present invention;

FIG. 2 is a schematic structural view of the fixing frame and the connecting slide rail of the assembled anti-seismic support hanger for the fire fighting pipeline of the present invention;

FIG. 3 is a schematic structural view of a pipe fixing mechanism of the assembled anti-seismic support hanger for a fire fighting pipe of the present invention;

fig. 4 is the utility model discloses a fire control pipeline assembled antidetonation props up a structure schematic diagram of longitudinal wave antidetonation frame of gallows.

In the drawings, the components represented by the respective reference numerals are listed below:

100. a transverse wave anti-seismic frame; 110. installing a bolt; 120. a first transverse wave anti-seismic spring; 130. a second transverse wave anti-seismic spring; 140. a slider; 200. a fixed mount; 210. a fixed block; 220. fixing the bolt; 230. a connecting plate; 240. a first connecting bolt; 250. a second connecting bolt; 300. connecting a slide rail; 310. connecting blocks; 320. mounting blocks; 400. a pipeline fixing mechanism; 410. a fixing plate; 420. rotating the tube; 430. rotating the block; 440. a protection pad; 450. opening and closing the board; 460. opening and closing the bolt; 500. a longitudinal wave anti-seismic frame; 510. a longitudinal wave connecting shaft; 520. a longitudinal wave connecting block; 530. a longitudinal wave anti-seismic spring; 540. longitudinal wave fixed blocks; 550. the longitudinal wave fixed shaft.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front end", "rear end", "both ends", "one end", "the other end" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element to which the reference is made must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, and for example, "connected" may be either fixedly connected or detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-4, the utility model relates to an assembled anti-seismic support and hanger for fire fighting pipeline, comprising a transverse wave anti-seismic frame 100, a fixing frame 200, a connecting slide rail 300, a pipeline fixing mechanism 400 and a longitudinal wave anti-seismic frame 500, wherein the transverse wave anti-seismic frame 100 comprises a slide block 140, the fixing frame 200 comprises a fixing block 210, a connecting plate 230 and a second connecting bolt 250, the connecting slide rail 300 comprises a connecting slide rail body, a connecting block 310 and a mounting block 320, the pipeline fixing mechanism 400 comprises a fixing plate 410, the longitudinal wave anti-seismic frame 500 comprises a longitudinal wave connecting shaft 510, the upper surfaces of the two fixing blocks 210 are respectively welded with the lower surfaces of the two slide blocks 140, the side surfaces of the two connecting plates 230 are respectively provided with a plurality of first through holes, the two ends of the connecting slide rail body are respectively provided with a plurality of second through holes, the plurality of second connecting bolts 250 respectively pass through the plurality of, one ends of the two longitudinal wave connecting shafts 510 are respectively welded to one side surfaces of the two connecting blocks 310.

Referring to fig. 1, the shear wave anti-seismic frame 100 further includes a shear wave anti-seismic frame body, mounting bolts 110, first shear wave anti-seismic springs 120 and second shear wave anti-seismic springs 130, wherein a plurality of first mounting holes are respectively formed in the upper surfaces of the two shear wave anti-seismic frame bodies, the mounting bolts 110 are respectively in rotating fit with the first mounting holes, one ends of the two first shear wave anti-seismic springs 120 are respectively connected with one end inside the two shear wave anti-seismic frame bodies, the other ends of the two first shear wave anti-seismic springs 120 are respectively connected with one side surface of the two sliding blocks 140, one ends of the two second shear wave anti-seismic springs 130 are respectively connected with the other side surface of the two sliding blocks 140, the other ends of the two second shear wave springs 130 are respectively connected with the other end inside the two shear wave anti-seismic frame bodies, the shear wave anti-seismic frame 100 can resist the horizontal seismic force of shear waves.

Referring to fig. 2, the fixing frame 200 further includes a fixing frame body, fixing bolts 220 and first connecting bolts 240, a plurality of first threaded holes are respectively formed in side surfaces of the two fixing blocks 210, a plurality of second threaded holes and a plurality of first round holes are respectively formed in side surfaces of the two fixing frame bodies, the plurality of fixing bolts 220 respectively penetrate through the plurality of second threaded holes to be in rotating fit with the plurality of first threaded holes, a plurality of second round holes are respectively formed in side surfaces of the two connecting plates 230, the plurality of first connecting bolts 240 respectively penetrate through the plurality of second round holes to be in rotating fit with the plurality of first round holes, wherein the number of the fixing bolts 220, the number of the first connecting bolts 240 and the number of the second connecting bolts 250 are four, and the fixing bolts 220, the first connecting bolts 240 and the second connecting bolts.

Referring to fig. 2, the mounting block 320 and the two connecting blocks 310 are slidably engaged with the connecting rail body, and the mounting block 320 and the connecting blocks 310 increase the anti-vibration effect.

Referring to fig. 3, the pipe fixing mechanism 400 further includes a pipe fixing mechanism body, a rotary pipe 420, rotary blocks 430, protective pads 440, split plates 450, and split bolts 460, wherein a plurality of first limiting holes are respectively formed in side surfaces of a plurality of fixing plates 410, a plurality of second limiting holes are respectively formed in side surfaces of a plurality of rotary blocks 430, a plurality of rotary pipes 420 are respectively rotatably fitted into the plurality of first limiting holes through the plurality of second limiting holes, one ends of the plurality of rotary blocks 430 are respectively welded to side surfaces of the pipe fixing mechanism body, side surfaces of the plurality of protective pads 440 are respectively connected to side surfaces inside the plurality of fixing mechanism bodies, one ends of the plurality of split plates 450 are respectively welded to side surfaces of the plurality of fixing mechanism bodies, a plurality of second mounting holes are respectively formed in side surfaces of the plurality of split plates 450, the plurality of split bolts 460 are respectively rotatably fitted into the plurality of second, and the opening and closing bolt 460 makes the pipe easy to install and disassemble.

Referring to fig. 4, the longitudinal wave anti-seismic frame 500 further includes a longitudinal wave anti-seismic frame body, a longitudinal wave connecting block 520, a longitudinal wave anti-seismic spring 530, a longitudinal wave fixing block 540, and a longitudinal wave fixing shaft 550, wherein two first positioning holes are respectively formed in side surfaces of the two longitudinal wave connecting blocks 520, the two longitudinal wave connecting shafts 510 are respectively rotatably engaged with the two first positioning holes, the two longitudinal wave anti-seismic springs 530 are respectively installed inside the two longitudinal wave anti-seismic frame bodies, one ends of the two longitudinal wave anti-seismic springs 530 are respectively connected with one ends of the two longitudinal wave connecting shafts 510, the other ends of the two longitudinal wave anti-seismic springs 530 are respectively connected with one ends of the two longitudinal wave fixing blocks 540, two second positioning holes are respectively formed in side surfaces of the two longitudinal wave fixing blocks 540, the two longitudinal wave fixing shafts 550 are respectively rotatably engaged with the two second positioning holes, the longitudinal wave anti-seismic frame 500.

The working principle of the utility model is as follows:

wherein, shear wave antidetonation frame 100 can resist the horizontal earthquake power of shear wave effect, and longitudinal wave antidetonation frame 500 can resist the horizontal earthquake power of longitudinal wave effect, has improved the stability and the security of device, and installation piece 320 and connecting block 310 have increased the antidetonation effect, and fixing bolt 220, first connecting bolt 240 and second connecting bolt 250 make the device be convenient for install and dismantle, and pipeline fixing mechanism 400 is used for fixed pipeline, and opens and shuts bolt 460 and make the pipeline be convenient for install and dismantle.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a fire control pipeline assembled antidetonation gallows, includes transverse wave antidetonation frame (100), mount (200), connects slide rail (300), pipeline fixed establishment (400) and longitudinal wave antidetonation frame (500), its characterized in that: the transverse wave anti-seismic frame (100) comprises sliding blocks (140), the fixing frame (200) comprises fixed blocks (210), connecting plates (230) and second connecting bolts (250), the connecting slide rails (300) comprise connecting slide rail bodies, connecting blocks (310) and mounting blocks (320), the pipeline fixing mechanism (400) comprises a fixing plate (410), the longitudinal wave anti-seismic frame (500) comprises longitudinal wave connecting shafts (510), the upper surfaces of the two fixed blocks (210) are respectively welded with the lower surfaces of the two sliding blocks (140), a plurality of first through holes are respectively arranged on the side surfaces of the two connecting plates (230), a plurality of second through holes are respectively arranged at the two ends of the connecting slide rail bodies, a plurality of second connecting bolts (250) respectively penetrate through the plurality of second through holes to be in rotating fit with the plurality of first through holes, one ends of the fixing plates (410) are respectively welded with the upper surfaces of the mounting blocks (320), one ends of the two longitudinal wave connecting shafts (510) are respectively welded with the surfaces of one sides of the two connecting blocks (310).

2. The fire pipeline fabricated earthquake-resistant support and hanger as claimed in claim 1, wherein: the transverse wave anti-seismic frame (100) further comprises a transverse wave anti-seismic frame body, mounting bolts (110), first transverse wave anti-seismic springs (120) and second transverse wave anti-seismic springs (130), wherein a plurality of first mounting holes are formed in the upper surfaces of the two transverse wave anti-seismic frame bodies respectively, the mounting bolts (110) are in rotating fit with the first mounting holes respectively, one ends of the two first transverse wave anti-seismic springs (120) are connected with one ends of the two transverse wave anti-seismic frame bodies respectively, the other ends of the two first transverse wave anti-seismic springs (120) are connected with one side surfaces of the two sliding blocks (140) respectively, one ends of the two second transverse wave springs (130) are connected with the other side surfaces of the two anti-seismic sliding blocks (140) respectively, and the other ends of the two second transverse wave anti-seismic springs (130) are connected with the other ends of the two transverse wave anti-seismic frame bodies respectively.

3. The fire pipeline fabricated earthquake-resistant support and hanger as claimed in claim 1, wherein: the fixing frame (200) further comprises a fixing frame body, fixing bolts (220) and first connecting bolts (240), a plurality of first threaded holes are formed in the side surfaces of the two fixing blocks (210) respectively, a plurality of second threaded holes and a plurality of first round holes are formed in the side surfaces of the two fixing frame bodies respectively, the fixing bolts (220) penetrate through the second threaded holes and the first threaded holes respectively in a rotating fit mode, a plurality of second round holes are formed in the side surfaces of the two connecting plates (230) respectively, and the first connecting bolts (240) penetrate through the second round holes and the first round holes respectively in a rotating fit mode.

4. The fire pipeline fabricated earthquake-resistant support and hanger as claimed in claim 1, wherein: the mounting block (320) and the two connecting blocks (310) are in sliding fit with the connecting slide rail body.

5. The fire pipeline fabricated earthquake-resistant support and hanger as claimed in claim 1, wherein: the pipeline fixing mechanism (400) further comprises a pipeline fixing mechanism body, a plurality of rotary pipes (420), rotary blocks (430), protective pads (440), an opening plate (450) and opening and closing bolts (460), wherein a plurality of first limiting holes are formed in the side surfaces of the fixed plates (410), a plurality of second limiting holes are formed in the side surfaces of the rotary blocks (430), a plurality of rotary pipes (420) penetrate through the plurality of second limiting holes to be matched with the plurality of first limiting holes in a rotating mode, one ends of the rotary blocks (430) are welded to the side surfaces of the pipeline fixing mechanism body respectively, the side surfaces of the protective pads (440) are connected with the inner side surfaces of the fixing mechanism body respectively, one ends of the opening plate (450) are welded to the side surfaces of the fixing mechanism body respectively, and a plurality of second mounting holes are formed in the side surfaces of the opening plate (450) respectively, the opening and closing bolts (460) are respectively matched with the second mounting holes in a rotating mode.

6. The fire pipeline fabricated earthquake-resistant support and hanger as claimed in claim 1, wherein: the longitudinal wave anti-seismic frame (500) also comprises a longitudinal wave anti-seismic frame body, a longitudinal wave connecting block (520), a longitudinal wave anti-seismic spring (530), a longitudinal wave fixing block (540) and a longitudinal wave fixing shaft (550), two first positioning holes are respectively arranged on the side surfaces of the two longitudinal wave connecting blocks (520), the two longitudinal wave connecting shafts (510) are respectively in rotary fit with the two first positioning holes, the two longitudinal wave anti-seismic springs (530) are respectively arranged in the two longitudinal wave anti-seismic frame bodies, one end of each longitudinal wave anti-seismic spring (530) is respectively connected with one end of each longitudinal wave connecting shaft (510), the other ends of the two longitudinal wave anti-seismic springs (530) are respectively connected with one ends of two longitudinal wave fixing blocks (540), two second positioning holes are formed in the side surfaces of the two longitudinal wave fixing blocks (540) respectively, and the two longitudinal wave fixing shafts (550) are in rotating fit with the two second positioning holes respectively.

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