CN220228116U - Anti-vibration pump pipe support - Google Patents

Abstract

The utility model relates to a pump line supporting equipment's field specifically discloses an antidetonation pump line support, and it includes vertical braced frame, horizontal braced frame, be used for the centre gripping pump line and can provide the elasticity buffer power's elasticity antidetonation subassembly and be used for the centre gripping pump line and can produce the slip antidetonation subassembly of certain displacement in the horizontal direction, the bottom of vertical braced frame and the one end fixed connection of horizontal braced frame, elasticity antidetonation subassembly is installed at vertical braced frame lateral wall, the slip antidetonation subassembly is installed at horizontal braced frame lateral wall. In the pump pipe working process, the elastic shock-resistant component and the sliding shock-resistant component have a certain movable space when clamping and limiting the pump pipe, so that the pump pipe is prevented from being fixedly connected to be damaged due to vibration, and meanwhile, vibration generated by the pump pipe is slowly released through the elastic shock-resistant component, so that the damping effect can be achieved. The shock absorber has the advantages of good shock absorption effect, simple structure and convenience in implementation.

Description

Anti-vibration pump pipe support

Technical Field

The application relates to the field of pump tube support equipment, in particular to an anti-vibration pump tube support.

Background

The concrete has the advantages of abundant raw materials, low price, high compressive strength and good durability, is not only used in various civil engineering, but also widely applied to the fields of shipbuilding industry, mechanical industry, ocean development, geothermal engineering and the like. In the construction process of building engineering, concrete is required to be poured by using a concrete pump pipe for conveying, and then the concrete is transferred into a mould required to be poured.

Concrete pump pipes are generally fixed on a support frame of a construction site, but the concrete pump pipes can vibrate severely in the use process, and the support frame or the pump pipe can be damaged after long-time use.

Disclosure of Invention

In order to solve the problem that the pump line used for a long time because of vibration is impaired, this application provides an antidetonation pump line support, has shock attenuation effectual, simple structure and implements convenient advantage.

The application provides an antidetonation pump line support adopts following technical scheme:

the utility model provides an antidetonation pump line support, includes vertical supporting frame, horizontal supporting frame and elasticity antidetonation subassembly, the horizontal supporting frame level is placed, vertical supporting frame one end and horizontal supporting frame fixed connection, elasticity antidetonation subassembly includes installation sleeve, elastic component and is used for the first clamping part of centre gripping pump line, installation sleeve is tubular structure and one end is fixed on vertical supporting frame, first clamping part slides and sets up in the installation sleeve, the elastic component is in the installation sleeve, just elastic component both ends respectively with vertical supporting frame and first clamping part fixed connection.

Through adopting above-mentioned technical scheme, utilize first holder to carry out spacingly to the pump line, avoid the pump line to break away from the mounting bracket because of the vibration, improved the stability of structure, first holder possesses certain activity space simultaneously, when the pump line takes place to vibrate, first holder synchronous movement in the installation sleeve, and then avoid holder and pump line to damage because of the vibration, first holder compresses or tensile elastic component when removing to utilize the elasticity of elastic component to carry out the slow-release to the vibration of pump line, play absorbing effect.

Optionally, one side that first holder is close to the elastic component is provided with the arch, just first holder cover is equipped with spacing apron, spacing apron and the one end fixed connection that vertical support frame was kept away from to the installation sleeve, spacing apron is equipped with bellied one end with first holder and is restricted in the installation sleeve.

Through adopting above-mentioned technical scheme, utilize the cooperation of protruding and spacing apron of first holder, can prevent at pump line vibration in-process, first holder is pulled out from the installation sleeve, has further improved the stability of structure, has improved the spacing effect of first holder to the pump line.

Optionally, still include slip antidetonation subassembly, slip antidetonation subassembly includes mounting plate, second locating part and is used for the second clamping part of centre gripping pump line, mounting plate fixes on horizontal support frame, the second locating part sets up at the mounting plate top, the second clamping part slides and sets up in the second locating part.

Through adopting above-mentioned technical scheme, utilize the second holder to carry out further spacing to the pump line for the pump line is in under the centre gripping of first holder and second holder all the time, and then can not break away from the support because of the vibration, and when the pump line takes place to vibrate, the second holder then slides in the second locating part, provides some activity spaces for the pump line, avoids holder and pump line excessive vibration to damage.

Optionally, the sliding anti-seismic assembly further includes a pulley, and the pulley is located between the second clamping member and the second limiting member.

Through adopting above-mentioned technical scheme, through setting up the frictional force that the pulley has reduced between second holder and the second locating part, improved the slip effect of second holder in the second locating part, and then improved the protection effect to the pump line.

Optionally, a sliding fit groove is formed in one side, close to the pulley, of the second clamping piece, and the pulley rotates in the sliding fit groove when the second clamping piece moves in the second limiting piece.

Through adopting above-mentioned technical scheme, carry out spacingly through setting up sliding fit groove to the pulley, improve the stability of pulley when rotating, avoid the pulley slope or break away from and influence the effect of sliding of second holder in the second locating part, and then ensure that the shock attenuation effect is not influenced.

Optionally, the first clamping piece includes hoop and elasticity down hoop on the centre gripping complex elasticity, hoop one end is semi-circular structure under the elasticity, and the other end is columnar structure, hoop columnar structure's one end stretches into in the installation sleeve and links to each other with the elastic component under the elasticity, hoop constitutes the circular clamping structure that is used for the centre gripping pump line under the elasticity and passes through the bolt fastening under the elasticity.

Through adopting above-mentioned technical scheme, utilize the elasticity to go up the centre gripping cooperation of hoop and elasticity lower hoop, realize the centre gripping location to the pump line, and circular structure can improve the area of contact with the pump line, further promotes the centre gripping effect, and hoop and elasticity lower hoop pass through bolt fastening on the elasticity simultaneously, more be convenient for install and dismantle the pump line.

Optionally, the second clamping piece includes the slip down hoop of centre gripping complex and slides and go up the hoop, slip down hoop one end and be semi-circular structure, the other end is columnar structure, slip down hoop columnar structure's one end stretches into in the second locating part and slides in the second locating part, slip down hoop and slip down the hoop and constitute the circular clamping structure that is used for centre gripping pump line and pass through the bolt fastening.

Through adopting above-mentioned technical scheme, utilize the slip down to hoop and slip to go up the centre gripping cooperation of hoop, carry out the centre gripping spacing to the pump line, and circular clamping structure can promote the centre gripping effect, and the slip down the hoop is in the removal of second locating part, provides the activity space for the vibration of pump line, avoids fixed connection to lead to the pump line to damage.

Optionally, the vertical supporting frame includes first connecting piece and vertical support board, vertical support board has a plurality of and vertically places, first connecting piece will be a plurality of vertical support board connects and forms frame construction, the horizontal supporting frame includes horizontal support board and second connecting piece, the horizontal support board corresponds vertical support board and is equipped with a plurality of and horizontally places, the second connecting piece will a plurality of horizontal support board connects, and a plurality of horizontal support board one end respectively with a plurality of vertical support board fixed connection.

Through adopting above-mentioned technical scheme, utilize first connecting piece and second connecting piece to connect vertical support board and horizontal support board and constitute frame construction, provide stable installation for elasticity antidetonation subassembly and slip antidetonation subassembly, further ensure the centre gripping positioning effect of pump line support.

Optionally, the vertical support plate comprises a plurality of reinforcing members, wherein the plurality of reinforcing members are arranged corresponding to the vertical support plate, and two ends of each reinforcing member are respectively fixedly connected to the vertical support plate and the horizontal support plate.

Through adopting above-mentioned technical scheme, utilize reinforcement to make reinforcement, vertical support board and horizontal support board constitute triangle-shaped frame construction, further improve the holistic stability of pump pipe support, and then improve the centre gripping location effect to the pump pipe.

Optionally, each junction of first connecting piece and vertical support board all is provided with two connecting plates, two the connecting plate passes through bolted connection and fixes respectively in first connecting piece and vertical support board, every junction of second connecting piece and horizontal support board all is provided with two connecting plates, two the connecting plate passes through bolted connection and fixes respectively at second connecting piece and horizontal support board.

Through adopting above-mentioned technical scheme, utilize the connection board to optimize the mounting structure of backup pad and connecting piece, can avoid directly welding the connecting piece to the backup pad in, utilize the connection board more be convenient for install and dismantle, when not needing to use, can dismantle backup pad and connecting piece, more be convenient for preserve and transportation.

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

1. the first clamping piece and the second clamping piece are utilized to limit the pump pipe, the pump pipe is prevented from being separated from the mounting frame due to vibration, the stability of the structure is improved, meanwhile, the first clamping piece and the second clamping piece are provided with a certain movable space, when the pump pipe vibrates, the first clamping piece synchronously moves in the mounting sleeve, compresses or stretches the elastic piece, the vibration of the pump pipe is slowly released through the elasticity of the elastic piece, the second clamping piece slides in the second limiting piece through the pulley, and therefore the vibration reduction effect is achieved, and the clamping piece is prevented from being damaged due to excessive vibration of the pump pipe;

2. the limiting cover plate is matched with the protrusion of the first clamping piece, so that the first clamping piece is prevented from being pulled out of the mounting sleeve in the vibration process of the pump pipe, the stability of the structure is further improved, and the limiting effect of the first clamping piece on the pump pipe is improved;

3. the pulley is limited by the sliding fit groove, so that the stability of the pulley during rotation is improved, the sliding effect of the second clamping piece in the second limiting piece is prevented from being influenced by the inclination or separation of the pulley, and the shock absorption effect is further prevented from being influenced.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present application;

FIG. 2 is a cross-sectional view of an elastomeric vibration resistant assembly in an embodiment of the present application;

FIG. 3 is a cross-sectional view of a sliding shock assembly in an embodiment of the present application.

Reference numerals: 1. a vertical support frame; 11. a vertical support plate; 12. a first connector; 2. a horizontal support frame; 21. a horizontal support plate; 22. a second connector; 3. an elastic shock-resistant component; 31. an elastic member; 32. a mounting sleeve; 33. a first clamping member; 331. an elastic upper cuff; 332. an elastic lower cuff; 34. a protrusion; 35. a limit cover plate; 4. a sliding anti-vibration assembly; 41. a mounting base plate; 42. a second limiting piece; 43. a pulley; 44. a second clamping member; 441. sliding the upper hoop; 442. sliding the lower hoop; 45. a sliding fit groove; 5. a connecting plate; 6. and (3) a reinforcement.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-3.

The embodiment of the application discloses an anti-seismic pump pipe support, referring to fig. 1, comprising a vertical support frame 1 and a horizontal support frame 2, wherein the vertical support frame 1 is vertically arranged, the horizontal support frame 2 is horizontally arranged, and the bottom of the vertical support frame 1 is fixedly connected with one end of the horizontal support frame 2 to form an L-shaped frame structure; wherein, the side wall of the vertical supporting frame 1 is provided with an elastic anti-vibration component 3 which is used for clamping the pump pipe and can provide elastic buffering force in the horizontal direction, and the horizontal supporting frame 2 is provided with a sliding anti-vibration component 4 which is used for clamping the pump pipe and can generate certain displacement in the horizontal direction. In the working process of the pump pipe, vibration generated by the pump pipe can be slowly released through the elastic anti-vibration component 3, so that the damping effect can be achieved.

Specifically, referring to fig. 1, the vertical supporting frame 1 includes two vertical supporting plates 11 and first connecting members 12, the vertical supporting plates 11 are vertically placed, the first connecting members 12 are horizontally arranged and two ends of the first connecting members are respectively and fixedly connected to side walls of the two vertical supporting plates 11, the first connecting members 12 are provided with two connecting members, one connecting member is close to the top of the vertical supporting frame 1, the other connecting member is close to the bottom of the vertical supporting frame 1, and the elastic shock-resistant assembly 3 is mounted on the first connecting members 12 close to the top of the vertical supporting frame 1.

Further, the horizontal supporting frame 2 includes two horizontal supporting plates 21 and two second connecting members 22, the two horizontal supporting plates 21 are horizontally placed, the two horizontal supporting plates 21 are parallel to each other, the second connecting members 22 are horizontally arranged, two ends of the second connecting members 22 are respectively and fixedly connected to the side walls of the two horizontal supporting plates 21, the two second connecting members 22 are close to each other, and the sliding anti-vibration assembly 4 is installed on the two second connecting members 22. One end of each horizontal supporting plate 21 is fixedly connected with the bottoms of the two vertical supporting plates 11 respectively, and then the two horizontal supporting plates are combined to form an L-shaped frame structure.

Further, the connecting plates 5 are fixed to both ends of the first connecting member 12 and both ends of the second connecting member 22, and the same connecting plates 5 are also fixed to the side walls of the vertical support plate 11 and the side walls of the horizontal support plate 21 at corresponding positions, the first connecting member 12 is aligned with the connecting plates 5 of the vertical support plate 11 and is fixed by bolts, and the second connecting member 22 is aligned with the connecting plates 5 of the horizontal support plate 21 and is fixed by bolts. The fixing bolts between the connecting plates 5 are unscrewed, so that the first connecting piece 12 and the second connecting piece 22 can be detached from the vertical supporting plate 11 and the horizontal supporting plate 21, the brackets are convenient to store when the brackets are not used, and the space required for storing and conveying is saved.

In addition, still be provided with reinforcement 6 between horizontal support frame 2 and the vertical support frame 1, reinforcement 6 corresponds vertical support board 11 and horizontal support board 21 and is provided with two, and reinforcement 6 one end fixed connection is at vertical support board 11 top, and the other end fixed connection is kept away from the one end of vertical support board 11 at horizontal support board 21. The horizontal supporting frame 2, the vertical supporting frame 1 and the reinforcing member 6 form a triangular frame structure, so that the overall stability of the supporting frame is further improved. In this embodiment, the horizontal support frame 2 and the vertical support frame 1 are each welded by H-section steel, and the reinforcement 6 is also H-section steel.

Further, referring to fig. 2, the elastic shock-resistant assembly 3 includes an elastic member 31, a mounting sleeve 32 and a first clamping member 33 for clamping a pump pipe, wherein the mounting sleeve 32 is in a through rectangular cylindrical structure, the mounting sleeve 32 is horizontally disposed and one end of the mounting sleeve is fixed on the first connecting member 12, the elastic member 31 is located in the mounting sleeve 32, the first clamping member 33 extends into the mounting sleeve 32 from one side of the mounting sleeve 32 away from the first connecting member 12, two ends of the elastic member 31 are respectively connected with the first connecting member 12 and the first clamping member 33, and the pump pipe is clamped in the first clamping member 33. When the pump pipe vibrates, the elasticity of the elastic piece 31 is utilized to provide a slow release effect for the vibrating pump pipe, so that the effect of damping the pump pipe is achieved.

Specifically, the first clamping member 33 includes an elastic lower ferrule 332 and an elastic upper ferrule 331, one end of the elastic lower ferrule 332 is in a rectangular columnar structure, and is configured to be inserted into the mounting sleeve 32 and slide in the mounting sleeve 32, the other end of the elastic lower ferrule 332 is formed with a semicircular opening, and an end of the columnar structure, which is far from the semicircular opening, is provided with a protrusion 34. The elastic upper hoop 331 has a semicircular structure, the semicircular openings of the elastic upper hoop 331 and the elastic lower hoop 332 are spliced into a complete circular structure and are fixed by bolts, and the pump tube is clamped in the circular structure.

Meanwhile, in order to prevent the elastic lower hoop 332 from being ejected from the mounting sleeve 32, the elastic lower hoop 332 is further sleeved with a limiting cover plate 35, the limiting cover plate 35 is in a rectangular annular structure, after the elastic lower hoop 332 is stretched into the mounting sleeve 32, the protrusions 34 on the elastic lower hoop 332 are located in the mounting sleeve 32, and then the limiting cover plate 35 is welded or bolted to one end, far away from the first connecting piece 12, of the mounting sleeve 32. At this time, the protrusion 34 on the elastic lower hoop 332 will abut against the limiting cover plate 35 under the elastic force of the elastic member 31, so as to prevent the elastic lower hoop 332 from separating from the mounting sleeve 32 due to the elastic force of the elastic member 31 or the vibration of the pump tube, and improve the stability of mounting the first clamping member 33 and the clamping limiting effect on the pump tube.

Further, referring to fig. 3, the sliding anti-vibration assembly 4 includes a mounting base plate 41, a second limiting member 42, a pulley 43 and a second clamping member 44, wherein the mounting base plate 41 is fixed on the second connecting member 22, the second limiting member 42 is in a through rectangular cylindrical structure, the second limiting member 42 is fixed at the top of the mounting base plate 41, the opening is vertically upward, the second clamping member 44 is arranged in the second limiting member 42, the second clamping member 44 slides in the second limiting member 42 along the horizontal direction, the pulley 43 is rotatably mounted at the bottom of the second clamping member 44, the pulley 43 is located above the mounting base plate 41, when the second clamping member 44 slides horizontally, the pulley 43 slides above the mounting base plate 41, and the pump pipe is clamped in the second clamping member 44. When the pump pipe vibrates, the elasticity of the elastic piece 31 provides a slow release effect for the vibrating pump pipe, and in the process, the pump pipe can move in the horizontal direction, and the second clamping piece 44 is matched with the mounting base plate 41 and the second limiting piece 42, so that the integral horizontal movement of the pump pipe can be realized, and the clamping piece is prevented from being damaged due to vibration of the pump pipe while the clamping limiting is provided for the pump pipe.

Further, the second clamping member 44 includes a sliding lower hoop 442 and a sliding upper hoop 441, one end of the sliding lower hoop 442 is in a semicircular structure and forms a complete circular structure with the semicircular sliding upper hoop 441, one end of the sliding lower hoop 442 away from the sliding upper hoop 441 is in a rectangular columnar structure, the sliding lower hoop 442 is located in the second limiting member 42, one end of the sliding lower hoop 442 away from the sliding upper hoop 441 is provided with a sliding fit groove 45, and the pulley 43 is rotatably mounted in the sliding fit groove 45. When the pump tube vibrates, the sliding lower band 442 moves back and forth in the second stopper 42, and the pulley 43 rotates synchronously in the sliding fit groove 45, thereby providing a certain range of motion for the pump tube.

The implementation principle of the anti-vibration pump pipe support disclosed by the embodiment of the application is as follows: the elastic lower hoop 332 and the elastic upper hoop 331 of the elastic shock-resistant component 3 are opened, the sliding lower hoop 442 and the sliding upper hoop 441 of the sliding shock-resistant component 4 are opened at the same time, then one side of the pump tube is respectively abutted on the elastic lower hoop 332 and the sliding lower hoop 442, and the elastic upper hoop 331 and the sliding upper hoop 441 are respectively fixed on the elastic lower hoop 332 and the sliding lower hoop 442 through bolts, so that the clamping limit of the pump tube can be realized.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (10)

1. An antidetonation pump line support, its characterized in that: including vertical braced frame (1), horizontal braced frame (2), elasticity antidetonation subassembly (3) and slip antidetonation subassembly (4), horizontal braced frame (2) level is placed, vertical braced frame (1) one end and horizontal braced frame (2) fixed connection, elasticity antidetonation subassembly (3) include installation sleeve (32), elastic component (31) and are used for centre gripping pump line first clamping piece (33), installation sleeve (32) are fixed in vertical braced frame (1) lateral wall, first clamping piece (33) one end is inserted in installation sleeve (32) to relative installation sleeve (32) are followed the horizontal direction and are slided, elastic component (31) are in installation sleeve (32), just elastic component (31) both ends are connected with vertical braced frame (1) and first clamping piece (33) respectively, slip antidetonation subassembly (4) are used for centre gripping pump line and supply the pump line to take place the displacement at the horizontal direction.

2. An anti-shock pump tube mount according to claim 1, wherein: one side that first holder (33) is close to elastic component (31) is provided with protruding (34), just first holder (33) cover is equipped with spacing apron (35), the one end fixed connection that vertical braced frame (1) was kept away from with installation sleeve (32) spacing apron (35), spacing apron (35) restrict the one end that first holder (33) was equipped with protruding (34) in installation sleeve (32).

3. An anti-shock pump tube mount according to claim 1, wherein: still include slip antidetonation subassembly (4), slip antidetonation subassembly (4) include mounting plate (41), second locating part (42) and are used for centre gripping pump line's second clamping part (44), mounting plate (41) are fixed on horizontal support frame (2), second locating part (42) set up at mounting plate (41) top, second clamping part (44) slip setting is in second locating part (42).

4. A shock-resistant pump tube support according to claim 3, wherein: the sliding anti-vibration assembly (4) further comprises a pulley (43), the pulley (43) is rotatably mounted at the bottom of the second clamping piece (44), and the pulley (43) is located above the mounting bottom plate (41).

5. An anti-shock pump tube mount according to claim 4, wherein: and a sliding fit groove (45) is formed in one side, close to the pulley (43), of the second clamping piece (44), and the pulley (43) is rotatably arranged in the sliding fit groove (45).

6. A shock-resistant pump tube support according to claim 3, wherein: the second clamping piece (44) comprises a sliding lower hoop (442) and a sliding upper hoop (441) which are in clamping fit, one end of the sliding lower hoop (442) is of a semicircular structure, the other end of the sliding lower hoop is of a columnar structure, one end of the sliding lower hoop (442) of the columnar structure stretches into the second limiting piece (42) and slides in the second limiting piece (42), and the sliding upper hoop (441) and the sliding lower hoop (442) form a circular clamping structure for clamping a pump pipe.

7. An anti-shock pump tube mount according to claim 1, wherein: the first clamping piece (33) comprises an elastic upper hoop (331) and an elastic lower hoop (332) which are in clamping fit, one end of the elastic lower hoop (332) is of a semicircular structure, the other end of the elastic lower hoop is of a columnar structure, one end of the columnar structure of the elastic lower hoop (332) stretches into the mounting sleeve (32) and is connected with the elastic piece (31), and the elastic upper hoop (331) and the elastic lower hoop (332) form a circular clamping structure for clamping a pump pipe.

8. An anti-shock pump tube mount according to claim 1, wherein: the vertical supporting frame (1) comprises a first connecting piece (12) and a vertical supporting plate (11), the vertical supporting plate (11) is provided with a plurality of vertical supporting plates (21) and is vertically placed, the first connecting piece (12) is used for connecting the vertical supporting plates (11) and forming a frame structure, the horizontal supporting frame (2) comprises a horizontal supporting plate (21) and a second connecting piece (22), the horizontal supporting plate (21) is provided with a plurality of vertical supporting plates (11) and is horizontally placed, the second connecting piece (22) is used for connecting the horizontal supporting plates (21), and one ends of the horizontal supporting plates (21) are respectively fixedly connected with the vertical supporting plates (11).

9. An anti-shock pump tube mount according to claim 8, wherein: still include reinforcement (6), reinforcement (6) are provided with a plurality ofly corresponding vertical support board (11), reinforcement (6) both ends are fixed connection respectively on vertical support board (11) and horizontal support board (21).

10. An anti-shock pump tube mount according to claim 8, wherein: each connecting part of the first connecting piece (12) and the vertical supporting plate (11) is provided with two connecting plates (5), two connecting plates (5) are connected through bolts and are respectively fixed on the first connecting piece (12) and the vertical supporting plate (11), each connecting part of the second connecting piece (22) and the horizontal supporting plate (21) is provided with two connecting plates (5), and two connecting plates (5) are connected through bolts and are respectively fixed on the second connecting piece (22) and the horizontal supporting plate (21).