CN210256614U - Slant control guide rail for concrete vibrating rod - Google Patents

Slant control guide rail for concrete vibrating rod Download PDF

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Publication number
CN210256614U
CN210256614U CN201920967169.2U CN201920967169U CN210256614U CN 210256614 U CN210256614 U CN 210256614U CN 201920967169 U CN201920967169 U CN 201920967169U CN 210256614 U CN210256614 U CN 210256614U
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China
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rod
fixed
frame
slide rail
sliding
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Active
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CN201920967169.2U
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Chinese (zh)
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韩天灵
林程
林志兴
戴家豪
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Powerchina Fujian Engineering Co ltd
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Powerchina Fujian Engineering Co ltd
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Abstract

The utility model discloses a slant control guide rail for a concrete vibrating rod, which belongs to the technical field of building construction and comprises a bracket, a first slide rail, a second slide rail, a first guide component and a second guide component; the support comprises a rectangular top frame and four support rods which are vertically fixed at the corners of the bottom of the top frame respectively, reinforcing rods are fixed between the two support rods fixed at the bottoms of the frame edges on the two sides of the top frame, the first slide rail comprises a first cross rod arranged between the frame edges on the two sides of the top frame and two first slide joints which are fixed at the two ends of the first cross rod and are in sliding fit with the frame edges on the two sides of the top frame respectively, and the second slide rail comprises a second cross rod arranged between the reinforcing rods and two second slide joints which are fixed at the two ends of the second cross rod and are in sliding fit with the reinforcing rods respectively; the first guide assembly is fixed on the first cross rod in a sliding manner, and the second guide assembly is fixed on the second cross rod; the multi-direction guide control vibrating rod can be realized, the operation intensity of constructors is reduced, and the construction efficiency is improved.

Description

Slant control guide rail for concrete vibrating rod
Technical Field
The utility model relates to a construction technical field, more specifically relates to a concrete vibrating rod slant control guide rail.
Background
The vibration refers to a process of vibrating and tamping concrete mixture discharged into a pouring bin; when the concrete mixed by the concrete mixer is used for pouring the member, air bubbles in the concrete must be removed, tamping is carried out, so that the concrete is combined compactly, the phenomena of honeycomb pitted surface and the like of the concrete are eliminated, the strength of the concrete is improved, and the quality of the concrete member is ensured; the vibrator vibration operation that has now is that the constructor is handheld vibrating rod mostly, the direction of vibrating of control vibrating rod, pour the component according to the difference and often also need different slant angle to vibrate the operation, this leads to handheld vibrating rod to carry out the process of vibrating, constructor need bear the partial gravity of vibrating rod in vertical direction, make constructor's operation intensity of labour improve, the operating efficiency descends, and handheld vibrating rod vibrates the operation and also is difficult to the stable control good direction of vibrating in addition, make the effect of vibrating also can receive the influence.
SUMMERY OF THE UTILITY MODEL
In order to overcome the defects of the prior art, the technical problem to be solved by the utility model is to provide a concrete vibrating rod slant control guide rail, a first slide rail and a second slide rail which are distributed up and down are arranged on a bracket, a first guide assembly with a first spacing ring is arranged on a first cross bar of the first slide rail, a second guide assembly with a second spacing ring is arranged on a second cross bar of the second slide rail, a third sliding joint of the first guide assembly is in sliding fit with the first cross bar, a fourth sliding joint of the second guide assembly is in sliding fit with a second cross bar of the second guide rail, so that the first spacing ring and the second spacing ring which can be adjusted in multiple directions are realized, and the guide rail for the guiding function of the vibrating rod can be adjusted in multiple directions through the matching of the first spacing ring and the second spacing ring, and the adjustment performance is good, the multi-direction guide control vibrating rod can be realized, the operation intensity of constructors is reduced, and the construction efficiency is improved.
To achieve the purpose, the utility model adopts the following technical proposal: a slant control guide rail for a concrete vibrating rod comprises a support, a first slide rail fixed on the support, a second slide rail fixed on the support and positioned below the first slide rail, a first guide assembly fixed on the first slide rail, and a second guide assembly fixed on the second slide rail;
the support comprises a rectangular top frame and four support rods which are vertically fixed at the corners of the bottom of the top frame respectively, reinforcing rods are fixed between the two support rods fixed at the bottoms of the two side frames of the top frame, the first slide rail comprises a first cross rod arranged between the two side frames of the top frame and two first sliding joints which are fixed at the two ends of the first cross rod and are respectively in sliding fit with the two side frames of the top frame, and the second slide rail comprises a second cross rod arranged between the reinforcing rods and two second sliding joints which are fixed at the two ends of the second cross rod and are respectively in sliding fit with the reinforcing rods;
the first guide assembly comprises a third sliding joint fixed on the first cross rod and matched with the first cross rod in a sliding manner, and a first limiting ring fixed on the third sliding joint and used for the vibrating rod to pass through;
the second guide assembly comprises a fourth sliding joint fixed on the second cross rod and in sliding fit with the second cross rod, and a second limiting ring fixed on the fourth sliding joint and allowing the vibrating rod to penetrate through.
Optionally, the first sliding joint comprises a first rod sleeve fixed at the end of the first transverse rod and allowing the side frame edge of the top frame to movably penetrate through, a first locking nut fixed at the middle position of the top of the first rod sleeve, and a first locking bolt in threaded fit with the first locking nut, and a first through hole corresponding to the first locking nut and allowing the first locking bolt to movably extend into is formed in the top of the first rod sleeve;
the second sliding joint comprises a second rod sleeve fixed at the end part of the second transverse rod and used for the reinforcing rod to movably penetrate, a second locking nut fixed at the top of the second rod sleeve at the middle position, and a second locking bolt in threaded fit with the second locking nut, wherein the top of the second rod sleeve is provided with a second through hole corresponding to the second locking nut and used for the second locking bolt to movably extend into.
Optionally, the third sliding joint includes a third rod sleeve sleeved on the first cross rod and slidably engaged with the first cross rod, a third lock nut fixed at a middle position of the top of the third rod sleeve, and a third lock bolt in threaded engagement with the third lock nut, a third through hole corresponding to the third lock nut and allowing the third lock bolt to movably extend into is formed at the top of the third rod sleeve, and the first limit ring is fixed on an outer side wall of the third rod sleeve;
the fourth sliding joint comprises a fourth rod sleeve, a fourth locking nut and a fourth locking bolt, the fourth rod sleeve is sleeved on the second cross rod and is in sliding fit with the second cross rod, the fourth locking nut is fixed at the top of the fourth rod sleeve in the middle position, the fourth locking bolt is in threaded fit with the fourth locking nut, a fourth through hole is formed in the top of the fourth rod sleeve, corresponds to the fourth locking nut and is used for the fourth locking bolt to movably extend into, and the second limiting ring is fixed on one outer side wall of the fourth rod sleeve.
Optionally, the first limiting ring and the second limiting ring are coated with buffer rubber sleeves.
Optionally, the bottom of each strut is fixed with a roller.
The utility model has the advantages that: the utility model discloses a set up the first slide rail and the second slide rail that two distribute from top to bottom on the support, and set up the first direction subassembly that has first spacing ring on the first horizontal pole of first slide rail, set up the second direction subassembly that has the second spacing ring on the second horizontal pole of second slide rail, and make the third sliding joint and the first horizontal pole sliding fit of first direction subassembly, the fourth sliding joint of second direction subassembly and the second horizontal pole sliding fit of second guide rail, thereby realize diversified first spacing ring and the second spacing ring that can adjust, can form the guide rail that is used for the vibrating rod guide effect with adjustable it is multi-direction like this through the cooperation of first spacing ring with the second spacing ring, it is good to nimble can the adjustment performance, can realize multi-direction directional control vibrating rod, reduce constructor working strength, construction efficiency is improved.
Drawings
Fig. 1 is a whole cross-sectional view of a slant control guide rail of a concrete vibrating rod provided by the embodiment of the utility model.
Fig. 2 is an enlarged schematic view of the position a in fig. 1.
Fig. 3 is a plan view of a first usage state of the slant control guide rail of the concrete vibrator according to the embodiment of the present invention.
Fig. 4 is a top view of a second usage state of the slant control guide rail of the concrete vibrator according to the embodiment of the present invention.
In the figure: 1. a support; 11. a top frame; 12. a strut; 121. a roller; 13. a reinforcing bar; 2. a first slide rail; 21. a first cross bar; 221. a first rod sleeve; 222. a first lock nut; 223. a first locking bolt; 3. a second slide rail; 31. a second cross bar; 321. a second rod sleeve; 322. a second lock nut; 323. a second locking bolt; 41. a first limit ring; 421. a third rod sleeve; 422. a third lock nut; 423. a third locking bolt; 51. a second stop collar; 521. a fourth rod sleeve; 522. a fourth lock nut; 523. a fourth locking bolt; 6. and (5) vibrating the rod.
Detailed Description
The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.
As shown in fig. 1, a slant control guide rail for a concrete vibrating rod comprises a support 1, a first slide rail 2 fixed on the support 1, a second slide rail 3 fixed on the support 1 and located below the first slide rail 2, a first guide assembly fixed on the first slide rail 2, and a second guide assembly fixed on the second slide rail 3, wherein the support 1 comprises a rectangular top frame 11 and four support rods 12 vertically fixed at corners of the bottom of the top frame 11, and a reinforcing rod 13 is fixed between the two support rods 12 fixed at the bottoms of the two side frame edges of the top frame 11; particularly, the top frame 11, the supporting rod 12 and the reinforcing rod 13 can be made of aluminum alloy pipes, the whole support 1 is formed by welding, and the support 1 made of the aluminum alloy pipes is light in overall weight and convenient to move; in addition, the rollers 121 are fixed to the bottoms of the support rods 12, so that the moving convenience of the support 1 can be further improved.
As shown in fig. 1 to 3, the first slide rail 2 includes a first cross bar 21 disposed between two side frame edges of the top frame 11, and two first sliding joints fixed on two ends of the first cross bar 21 and respectively slidably engaged with the two side frame edges of the top frame 11, and the second slide rail 3 includes a second cross bar 31 disposed between the reinforcing bars 13, and two second sliding joints fixed on two ends of the second cross bar 31 and respectively slidably engaged with the reinforcing bars 13; specifically, the first sliding joint includes a first rod sleeve 221 fixed at the end of the first cross rod 21 and allowing the side frame edge of the top frame 11 to movably pass through, a first lock nut 222 fixed at the middle position of the top of the first rod sleeve 221, and a first lock bolt 223 in threaded fit with the first lock nut 222, and a first through hole (not shown) corresponding to the first lock nut 222 and allowing the first lock bolt 223 to movably extend into is formed at the top of the first rod sleeve 221; the second sliding joint comprises a second rod sleeve 321 fixed at the end of the second cross rod 31 and allowing the reinforcing rod 13 to movably pass through, a second lock nut 322 fixed at the middle position of the top of the second rod sleeve 321, and a second lock bolt 323 in threaded fit with the second lock nut 322, and a second through hole (not shown) corresponding to the second lock nut 322 and allowing the second lock bolt 323 to movably extend into is formed at the top of the second rod sleeve 321; the first rod sleeve 221 and the second rod sleeve 321 can be fixed in a welding mode; taking the sliding adjustment of the first slide rail 2 as an example: when the sliding first cross rod 21 needs to be adjusted, the first bolt is twisted and loosened, so that the side frame edge of the top frame 11 is not pressed and contacted, and the sliding of the first rod sleeve 221 is not interfered; after the first bolt is loosened, the position of the first cross rod 21 can be adjusted by manually pushing the first cross rod 21, and after the first bolt is adjusted to a specified position, the first bolt is twisted, so that the end of the first bolt rod extends into the first rod sleeve 221 and forms clamping fixation with the side frame edge of the fixed frame between the inner bottom wall of the first rod sleeve 221, and the first cross rod 21 is fixed.
As shown in fig. 1 to 3, the first guide assembly includes a third sliding joint fixed on the first cross bar 21 and slidably engaged with the first cross bar 21, and a first limit ring 41 fixed on the third sliding joint and allowing the vibrating rod 6 to pass through; the second guide assembly comprises a fourth sliding joint which is fixed on the second cross rod 31 and is in sliding fit with the second cross rod 31, and a second limiting ring 51 which is fixed on the fourth sliding joint and is used for the vibrating rod 6 to pass through; specifically, the third sliding joint includes a third rod sleeve 421 sleeved on the first cross rod 21 and slidably engaged with the first cross rod 21, a third lock nut 422 fixed at the top of the third rod sleeve 421 at the middle position, and a third lock bolt 423 in threaded engagement with the third lock nut 422, the top of the third rod sleeve 421 is provided with a third through hole corresponding to the third lock nut 422 and allowing the third lock bolt 423 to movably extend into, and the first limit ring 41 is fixed on an outer side wall of the third rod sleeve 421; the fourth sliding joint comprises a fourth rod sleeve 521, a fourth locking nut 522 and a fourth locking bolt 523, wherein the fourth rod sleeve 521 is sleeved on the second cross rod 31 and is in sliding fit with the second cross rod 31, the fourth locking nut 522 is fixed at the middle position of the top of the fourth rod sleeve 521, the fourth locking bolt 523 is in threaded fit with the fourth locking nut 522, a fourth through hole corresponding to the fourth locking nut 522 and allowing the fourth locking bolt 523 to movably extend into is formed in the top of the fourth rod sleeve 521, and the second limiting ring 51 is fixed on one outer side wall of the fourth rod sleeve 521; similarly, third rod cover 421 and fourth rod cover 521 can also be fixed through the welded mode, and third sliding joint and fourth sliding joint are unanimous with first sliding joint and second sliding joint's slip regulation and locking principle, the utility model provides a first rod cover 221, second rod cover 321, third rod cover 421 and fourth rod cover 521 also all can be the aluminum alloy pipe box, and corresponding first spacing ring 41 and second spacing ring 51 also can be through welded fastening on third rod cover 421 and fourth rod cover 521.
The utility model discloses a through set up two first slide rail 2 and the second slide rail 3 that distribute from top to bottom on support 1, and set up the first direction subassembly that has first spacing ring 41 on first horizontal pole 21 of first slide rail 2, set up the second direction subassembly that has second spacing ring 51 on second horizontal pole 31 of second slide rail 3, and make the third sliding joint of first direction subassembly and first horizontal pole 21 sliding fit, the fourth sliding joint of second direction subassembly and the second horizontal pole 31 sliding fit of second guide rail, thereby realize multidirectional adjustable first spacing ring 41 and second spacing ring 51, can form the multi-direction adjustable guide rail that is used for the guide effect of the vibrating rod 6 through the cooperation of first spacing ring 41 and second spacing ring 51 like this, and the flexibility can be adjusted the performance, can realize the multi-direction control vibrating rod 6, reduce constructor working strength, the construction efficiency is improved; for example, in the first usage state shown in fig. 3, the longitudinal directions of the first cross bar 21 and the second cross bar 31 can be kept consistent, and only the transverse positions of the first limiting ring 41 and the second limiting ring 51 are changed, so as to implement the oblique guiding control in the transverse direction, while in the second usage state shown in fig. 4, the longitudinal directions of the first cross bar 21 and the second cross bar 31, and the longitudinal directions of the first limiting ring 41 and the second limiting ring 51 can be adjusted differently, so as to implement the inclination angle required by the constructor.
Optionally, the first and second position-limiting rings 41 and 51 are covered with a buffer rubber sleeve (not shown); specifically, the contact wear between the first and second position limiting rings 41 and 51 and the vibrating rod 6 can be reduced by the arranged buffer rubber sleeve, and the buffer rubber sleeve can be made of rubber or silica gel.
While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention. The present invention is not to be limited by the specific embodiments disclosed herein, and other embodiments that fall within the scope of the claims of the present application are intended to be within the scope of the present invention.

Claims (5)

1. The utility model provides a concrete vibrating rod slant control guide rail which characterized in that:
the device comprises a support (1), a first slide rail (2) fixed on the support (1), a second slide rail (3) fixed on the support (1) and positioned below the first slide rail (2), a first guide assembly fixed on the first slide rail (2), and a second guide assembly fixed on the second slide rail (3);
the support (1) comprises a rectangular top frame (11) and four support rods (12) which are vertically fixed at corners of the bottom of the top frame (11) respectively, reinforcing rods (13) are fixed between the two support rods (12) fixed at the bottoms of the frame edges of the two sides of the top frame (11), the first slide rail (2) comprises a first cross rod (21) arranged between the frame edges of the two sides of the top frame (11) and two first sliding connectors which are fixed at two ends of the first cross rod (21) and are in sliding fit with the frame edges of the two sides of the top frame (11) respectively, and the second slide rail (3) comprises a second cross rod (31) arranged between the reinforcing rods (13) and two second sliding connectors which are fixed at two ends of the second cross rod (31) and are in sliding fit with the reinforcing rods (13) respectively;
the first guide assembly comprises a third sliding joint which is fixed on the first cross rod (21) and is in sliding fit with the first cross rod (21), and a first limiting ring (41) which is fixed on the third sliding joint and is used for the vibrating rod (6) to pass through;
the second guide assembly comprises a fourth sliding joint fixed on the second cross rod (31) and in sliding fit with the second cross rod (31), and a second limiting ring (51) fixed on the fourth sliding joint and allowing the vibrating rod (6) to penetrate through.
2. A concrete vibrator tilt control guide rail according to claim 1, wherein:
the first sliding joint comprises a first rod sleeve (221) which is fixed at the end part of the first cross rod (21) and is used for the side frame edge of the top frame (11) to movably penetrate, a first locking nut (222) which is fixed at the middle position of the top of the first rod sleeve (221), and a first locking bolt (223) which is in threaded fit with the first locking nut (222), wherein a first through hole which corresponds to the first locking nut (222) and is used for the first locking bolt (223) to movably extend into is formed in the top of the first rod sleeve (221);
the second sliding joint comprises a second rod sleeve (321) fixed at the end of the second cross rod (31) and used for the reinforcing rod (13) to movably penetrate, a second locking nut (322) fixed at the top of the second rod sleeve (321) at the middle position, and a second locking bolt (323) in threaded fit with the second locking nut (322), wherein a second through hole corresponding to the second locking nut (322) and used for the second locking bolt (323) to movably extend into is formed in the top of the second rod sleeve (321).
3. A concrete vibrator tilt control guide rail according to claim 1, wherein:
the third sliding joint comprises a third rod sleeve (421) which is sleeved on the first cross rod (21) and is in sliding fit with the first cross rod (21), a third locking nut (422) which is fixed at the top of the third rod sleeve (421) at the middle position, and a third locking bolt (423) which is in threaded fit with the third locking nut (422), a third through hole which corresponds to the third locking nut (422) and is used for the third locking bolt (423) to movably extend into is arranged at the top of the third rod sleeve (421), and the first limiting ring (41) is fixed on one outer side wall of the third rod sleeve (421);
the fourth sliding joint comprises a fourth rod sleeve (521) which is sleeved on the second cross rod (31) and is in sliding fit with the second cross rod (31), a fourth locking nut (522) which is fixed at the top of the fourth rod sleeve (521) at the middle position, and a fourth locking bolt (523) which is in threaded fit with the fourth locking nut (522), a fourth through hole which corresponds to the fourth locking nut (522) and is used for the fourth locking bolt (523) to movably extend into is formed in the top of the fourth rod sleeve (521), and the second limiting ring (51) is fixed on an outer side wall of the fourth rod sleeve (521).
4. A concrete vibrator tilt control guide rail according to claim 1, wherein:
the first limiting ring (41) and the second limiting ring (51) are coated with buffer rubber sleeves.
5. A concrete vibrator tilt control guide rail according to claim 1, wherein:
the bottom of the supporting rod (12) is fixed with a roller (121).
CN201920967169.2U 2019-06-26 2019-06-26 Slant control guide rail for concrete vibrating rod Active CN210256614U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201920967169.2U CN210256614U (en) 2019-06-26 2019-06-26 Slant control guide rail for concrete vibrating rod

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201920967169.2U CN210256614U (en) 2019-06-26 2019-06-26 Slant control guide rail for concrete vibrating rod

Publications (1)

Publication Number Publication Date
CN210256614U true CN210256614U (en) 2020-04-07

Family

ID=70044852

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201920967169.2U Active CN210256614U (en) 2019-06-26 2019-06-26 Slant control guide rail for concrete vibrating rod

Country Status (1)

Country Link
CN (1) CN210256614U (en)

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