CN114458049A

CN114458049A - Vertical supporting stress uniform distribution device for building reinforcement engineering

Info

Publication number: CN114458049A
Application number: CN202210164182.0A
Authority: CN
Inventors: 李继为
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-02-22
Filing date: 2022-02-22
Publication date: 2022-05-10
Anticipated expiration: 2042-02-22
Also published as: CN114458049B

Abstract

The invention discloses a vertical supporting stress uniform distribution device for building reinforcement engineering, which comprises a ground, wherein the top of the ground is fixedly connected with a concrete seat through an opening, the top of the concrete seat is provided with a socket, the bottom of an inner cavity of the socket is fixedly connected with a connecting frame through a fixing block, and a supporting column is arranged on the inner side of the connecting frame. This building reinforcement engineering vertical braces stress equipartition device, through the top at the concrete seat seted up interface and installation connecting frame, make the inside concrete of connecting frame even as an organic whole with the support column, then the butt joint of rethread screw thread awl and thread groove, make the bottom of support column can be by even bearing, thereby can not lead to the stress distribution of support column inhomogeneous because of the influence on unevenness and the ground of support column bottom, make the reinforcement engineering of support column building safer and high-efficient, satisfy in the use of current construction.

Description

Vertical supporting stress uniform distribution device for building reinforcement engineering

Technical Field

The invention relates to the technical field of building reinforcement, in particular to a vertical support stress uniform distribution device for building reinforcement engineering.

Background

Building reinforcement is a processing method for reinforcing a building or a structure by sticking carbon fiber cloth, increasing a cross section, wrapping steel and the like, wherein the building is generally strongly supported by a supporting device in the reinforcing process, so that the supporting strength of the building or the structure is ensured, but when a common supporting column supports the building, the two ends of the common supporting column, the building and the ground are generally not smooth, if the common supporting column is used forcibly, the stress of the supporting column is not uniformly distributed due to the pressure of the building, so that the supporting column is damaged, and a device capable of uniformly distributing the stress of the supporting column is required to be designed.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a device for uniformly distributing vertical supporting stress of a building reinforcement project, which solves the problem that a supporting column is easy to damage due to nonuniform stress distribution when the supporting column is used.

In order to achieve the purpose, the invention is realized by the following technical scheme: a vertical supporting stress uniform distribution device for building reinforcement engineering comprises a ground, wherein a concrete seat is fixedly connected to the top of the ground through an opening, an inserting port is formed in the top of the concrete seat, a connecting frame is fixedly connected to the bottom of an inner cavity of the inserting port through a fixing block, a supporting column is placed on the inner side of the connecting frame and extends to the upper portion of the ground, a fixing base is fixedly connected to the top of the concrete seat and is sleeved on the surface of the supporting column, a limiting port matched with the supporting column for use is formed in the top of the fixing base, sliding grooves are formed in the two sides of the bottom of the inner cavity of the fixing base and in the front portion and the rear portion of the inner cavity of the fixing base, sliding blocks are slidably mounted in the sliding grooves, supporting rods are fixedly connected to the top of the sliding blocks, and the top ends of the supporting rods penetrate through the fixing base and extend to the top of the fixing base, one side of bracing piece is through seting up an opening fixedly connected with screw thread section of thick bamboo, the inboard threaded connection of screw thread section of thick bamboo has the threaded rod, the one end of threaded rod passes through the bearing spare and rotates the one side of connecting in the unable adjustment base inner chamber, unable adjustment base's both sides and anterior and the equal fixedly connected with in rear portion protect the concave piece, the other end of threaded rod runs through unable adjustment base and protection concave piece in proper order and extends to the inside of protecting the concave piece, the threaded rod extends to the first connecting cover of the inside one end fixedly connected with of protection concave piece.

Preferably, the bracing piece extends to unable adjustment base upper portion's one end fixedly connected with slurcam, the thread groove has all been seted up at both sides and surface and the rear portion of support column, one side of slurcam has the screw thread awl that cooperatees and use with the thread groove through seting up opening threaded connection, the one end fixedly connected with second connecting cover of screw thread awl, the slurcam is close to the equal fixedly connected with mortgage piece in both sides of support column one side, unable adjustment base's top is seted up and is matched with the removal mouth that uses with the bracing piece.

Preferably, the top of support column is through seting up opening fixedly connected with bearing seat, the circular recess has been seted up at the top of bearing seat, the inside rotation of circular recess is installed first spin, the top fixedly connected with supporting seat of first spin, the top fixedly connected with roof of supporting seat.

Preferably, the edge side fixedly connected with of support post top supports the seat, and supports and press the seat and be provided with a plurality of, support one side of pressing the seat and rotate through seting up the opening and be connected with the second spin, the top fixedly connected with buffer cylinder of second spin, there is the push rod at the top of buffer cylinder through seting up opening slidable mounting, and the one end that the buffer cylinder was kept away from to the push rod rotates through rotating to be connected in the bottom of roof.

Preferably, the push rod is located the inside one end fixedly connected with stopper of buffer cylinder, the surface of push rod and the inside that is located the buffer cylinder have cup jointed the spring, the bottom fixed connection of spring is in the top of stopper.

Preferably, the surface of the supporting column is fixedly connected with a chute plate, a sliding plate is slidably mounted inside the chute plate, and a connecting plate is fixedly connected to one side of the sliding plate, which is far away from the chute plate.

Preferably, the surface of the support column is fixedly connected with a toothed plate between the two sliding groove plates, and the rear part of the connecting plate is fixedly connected with a driving box through a fixing plate.

Preferably, the right side of drive box inner chamber is through fixed plate fixedly connected with motor, the output shaft of motor passes through shaft coupling fixedly connected with dwang, the one end of dwang runs through the drive box and extends to the outside of drive box.

Preferably, a toothed disc meshed with the toothed plate is fixedly connected to the surface of the rotating rod and located outside the driving box.

Preferably, the surface of the connecting plate is fixedly connected with a loading frame.

Advantageous effects

The invention provides a vertical supporting stress uniform distribution device for a building reinforcement project. Compared with the prior art, the method has the following beneficial effects:

(1) this building reinforcement engineering vertical braces stress equipartition device, through having seted up interface and installation connecting frame at the top of concrete seat, make the inside concrete of connecting frame even as an organic whole with the support column, then the butt joint of rethread screw thread awl and thread groove, make the bottom of support column can be by even bearing, thereby can not lead to the stress distribution of support column inhomogeneous because of the influence on unevenness and the ground of support column bottom, make the reinforcement engineering of support column building safer and high-efficient, satisfy in the use of current construction.

(2) This building reinforcement engineering vertical braces stress equipartition device through surface mounting chute board and the roof at the support column to make the connecting plate be connected with the slide, when starter motor, can make the connecting plate drive the loading frame through the meshing of fluted disc and pinion rack and rise, thereby make things convenient for the staff can more convenient operation when installation and subsequent maintenance, satisfied staff's demand.

(3) This building reinforcement engineering vertical braces stress equipartition device supports through the top installation at the support column and presses seat and second spin to make the dashpot be connected with the dashpot through the push rod, and cooperate the use of first spin, keep the level when can contacting with the building, make the stress on upper portion more even.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a cross-sectional view of the floor and support post structure of the present invention;

FIG. 3 is an enlarged view of a portion of the invention at A in FIG. 2;

FIG. 4 is an enlarged view of a portion of the present invention at B of FIG. 2;

FIG. 5 is a top view of the internal structure of the support post of the present invention;

FIG. 6 is a cross-sectional view of a stationary base structure of the present invention;

FIG. 7 is a top view of the drive housing, pivot rod and cog structure of the present invention.

In the figure: 1. a ground surface; 2. a concrete seat; 3. an interface; 4. a connecting frame; 5. a support pillar; 6. a fixed base; 7. a sliding groove; 8. a slider; 9. a support bar; 10. moving the port; 11. a threaded barrel; 12. a threaded rod; 13. a protective concave block; 14. a first connection cover; 15. a push plate; 16. a thread groove; 17. a thread taper; 18. a second connecting cover; 19. a mortgage block; 20. a load bearing seat; 21. a circular groove; 22. a first ball; 23. a supporting seat; 24. a top plate; 25. a pressing seat; 26. a second ball; 27. a buffer cylinder; 28. a push rod; 29. a limiting block; 30. a spring; 31. a chute plate; 32. a slide plate; 33. a connecting plate; 34. a toothed plate; 35. a drive box; 36. a motor; 37. rotating the rod; 38. a fluted disc; 39. a loading frame; 40. a limiting opening.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides two technical solutions:

the first embodiment,

A vertical supporting stress uniform distribution device for building reinforcement engineering comprises a ground 1, wherein the top of the ground 1 is fixedly connected with a concrete seat 2 through an opening, the top of the concrete seat 2 is provided with an insertion port 3, the bottom of an inner cavity of the insertion port 3 is fixedly connected with a connecting frame 4 through a fixing block, a supporting column 5 is placed on the inner side of the connecting frame 4, the supporting column 5 extends to the upper part of the ground 1, the top of the concrete seat 2 is fixedly connected with a fixed base 6, the fixed base 6 is sleeved on the surface of the supporting column 5, the top of the fixed base 6 is provided with a limiting port 40 matched with the supporting column 5 for use, two sides of the bottom of the inner cavity of the fixed base 6, the front part and the rear part are provided with sliding grooves 7, sliding blocks 8 are slidably arranged inside the sliding grooves 7, the top of each sliding block 8 is fixedly connected with a supporting rod 9, the top ends of the supporting rods 9 penetrate through the fixed base 6 and extend to the top of the fixed base 6, one side of bracing piece 9 is through seting up opening fixedly connected with screw thread section of thick bamboo 11, the inboard threaded connection of screw thread section of thick bamboo 11 has threaded rod 12, the one end of threaded rod 12 is passed through the bearing spare and is rotated and connect in one side of unable adjustment base 6 inner chamber, unable adjustment base 6's both sides and anterior and the equal fixedly connected with in rear portion protection concave brick 13, the other end of threaded rod 12 runs through unable adjustment base 6 in proper order and protects concave brick 13 and extend to the inside of protecting concave brick 13, threaded rod 12 extends to the first connecting cover 14 of the inside one end fixedly connected with of protecting concave brick 13.

In order to enable the connecting plate 33 to drive the worker to ascend, according to the present invention, a toothed plate 34 is fixedly connected to the surface of the supporting column 5 and located between the two sliding groove plates 31, a driving box 35 is fixedly connected to the rear portion of the connecting plate 33 through a fixing plate, a motor 36 is fixedly connected to the right side of the inner cavity of the driving box 35 through a fixing plate, the motor 36 is a servo motor, an output shaft of the motor 36 is fixedly connected to a rotating rod 37 through a coupler, one end of the rotating rod 37 penetrates through the driving box 35 and extends to the outside of the driving box 35, and a toothed disc 38 engaged with the toothed plate 34 is fixedly connected to the surface of the rotating rod 37 and located outside the driving box 35.

Example II,

As a preferred embodiment, in order to enable the bottom of the supporting column 5 to bear load uniformly, in the invention, one end of the supporting rod 9 extending to the upper part of the fixing base 6 is fixedly connected with a pushing plate 15, both sides, the surface and the rear part of the supporting column 5 are respectively provided with a threaded groove 16, one side of the pushing plate 15 is connected with a threaded cone 17 matched with the threaded groove 16 through an opening thread, one end of the threaded cone 17 is fixedly connected with a second connecting cover 18, both sides of the pushing plate 15 close to one surface of the supporting column 5 are respectively fixedly connected with a mortgage block 19, and the top of the fixing base 6 is provided with a moving port 10 matched with the supporting rod 9 for use.

As a preferred embodiment, in order to enable the stress at the top of the supporting column 5 to be respectively uniform, the top of the supporting column 5 is fixedly connected with a bearing seat 20 through an opening, the top of the bearing seat 20 is provided with a circular groove 21, a first rolling ball 22 is rotatably mounted in the circular groove 21, the top of the first rolling ball 22 is fixedly connected with a supporting seat 23, the top of the supporting seat 23 is fixedly connected with a top plate 24, the edge side of the top of the supporting column 5 is fixedly connected with a pressing seat 25, the pressing seat 25 is provided with a plurality of pressing seats, one side of the pressing seat 25 is rotatably connected with a second rolling ball 26 through an opening, the top of the second rolling ball 26 is fixedly connected with a buffer cylinder 27, the top of the buffer cylinder 27 is slidably mounted with a push rod 28 through an opening, and one end of the push rod 28, which is far away from the buffer cylinder 27, is rotatably connected to the bottom of the top plate 24 through a rotating part.

In order to make the connection plate 33 more stable when ascending, according to the preferred embodiment of the invention, a limit block 29 is fixedly connected to one end of the push rod 28 located inside the buffer cylinder 27, a spring 30 is sleeved on the surface of the push rod 28 and located inside the buffer cylinder 27, the bottom end of the spring 30 is fixedly connected to the top of the limit block 29, a chute plate 31 is fixedly connected to the surface of the support post 5, a sliding plate 32 is slidably installed inside the chute plate 31, a connection plate 33 is fixedly connected to one side of the sliding plate 32 away from the chute plate 31, and a loading frame 39 is fixedly connected to the surface of the connection plate 33.

The advantages of the second embodiment relative to the first embodiment are as follows: through surface mounting chute board 31 and roof 24 at support column 5, and make connecting plate 33 be connected with slide 32, when starter motor 36, can make connecting plate 33 drive loading frame 39 through the meshing of fluted disc 38 and pinion rack 34 and rise, thereby make things convenient for the staff can more convenient operation when installation and subsequent maintenance, staff's demand has been satisfied, through the top installation at support column 5 support seat 25 and second spin 26, and make buffer cylinder 27 be connected with buffer cylinder 27 through push rod 28, and cooperate the use of first spin 22, keep the level when can contact with the building, make the stress on upper portion more even.

And those not described in detail in this specification are well within the skill of those in the art.

When the device is used, a worker pours the concrete seat 2 on the top of the ground 1, the bottom of the inserting port 3 is provided with the connecting frame 4, then the fixing base 6 is installed, then concrete is poured into the connecting frame 4, then the support pillar 5 is inserted into the inner side of the connecting frame 4 through the limiting port 40, after the concrete is solidified, the worker rotates the first connecting cover 14 by using a tool outside, after the threaded rod 12 rotates, the support rod 9 and the pushing plate 15 are driven to move through the limiting of the sliding groove 7, when the pushing plate 15 drives the thread cone 17 to contact the thread groove 16, another worker rotates the thread cone 17 through the second connecting cover 18 to insert the thread groove 16 and butt joint, at the moment, the support pillar 5 is completely fixed, the support pillar 5 cannot generate uneven stress due to the unevenness of the bottom end under the action of the thread cone 17, and then the worker stands in the loading frame 39, the starting motor 36 drives the loading frame 39 to ascend through the connecting plate 33 driven by the toothed disc 38 and the toothed plate 34, and the top plate 24 is fixedly connected with a building after a worker reaches the top, if the top of the building or the supporting column 5 is uneven, the top plate 24 can be angularly adjusted through the action of the first rolling ball 22, and the push rod 28 and the spring 30 can reset the top plate 24 when the worker carries out subsequent maintenance.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a building reinforcement engineering vertical braces stress equipartition device, includes ground (1), its characterized in that: the concrete floor is characterized in that a concrete seat (2) is fixedly connected to the top of the ground (1) through an opening, a plug-in port (3) is formed in the top of the concrete seat (2), a connecting frame (4) is fixedly connected to the bottom of an inner cavity of the plug-in port (3) through a fixing block, a supporting column (5) is placed on the inner side of the connecting frame (4), the supporting column (5) extends to the upper portion of the ground (1), a fixing base (6) is fixedly connected to the top of the concrete seat (2), the fixing base (6) is sleeved with the surface of the supporting column (5), a limiting port (40) matched with the supporting column (5) for use is formed in the top of the fixing base (6), sliding grooves (7) are formed in the two sides of the bottom of the inner cavity of the fixing base (6) and in the front portion and the rear portion of the inner cavity of the fixing base (6), and sliding blocks (8) are slidably mounted inside the sliding grooves (7), the top of the sliding block (8) is fixedly connected with a supporting rod (9), the top end of the supporting rod (9) penetrates through the fixed base (6) and extends to the top of the fixed base (6), one side of the supporting rod (9) is fixedly connected with a threaded cylinder (11) through an opening, the inner side of the threaded cylinder (11) is connected with a threaded rod (12) in a threaded manner, one end of the threaded rod (12) is rotatably connected to one side of the inner cavity of the fixed base (6) through a bearing piece, two sides, the front part and the rear part of the fixed base (6) are fixedly connected with protective concave blocks (13), the other end of the threaded rod (12) penetrates through the fixed base (6) and the protection concave block (13) in sequence and extends into the protection concave block (13), the threaded rod (12) extends to one end inside the protection concave block (13) and is fixedly connected with a first connecting cover (14).

2. The vertical supporting stress uniform distribution device for the building reinforcement engineering according to claim 1, characterized in that: the utility model discloses a fixed base, including bracing piece (9), bracing piece (6), one end fixedly connected with slurcam (15) on upper portion of unable adjustment base (6), thread groove (16) have all been seted up to both sides and surface and the rear portion of support column (5), one side of slurcam (15) has screw thread awl (17) that cooperate and use with thread groove (16) through seting up opening threaded connection, the one end fixedly connected with second connecting cover (18) of screw thread awl (17), the equal fixedly connected with mortgage piece (19) in both sides that slurcam (15) are close to support column (5) one side, the top of unable adjustment base (6) is seted up and is cooperateed the mouth (10) that moves that uses with bracing piece (9).

3. The vertical supporting stress uniform distribution device for the building reinforcement engineering according to claim 1, characterized in that: the top of support column (5) is through seting up opening fixedly connected with bearing seat (20), circular recess (21) have been seted up at the top of bearing seat (20), first spin (22) are installed in the inside rotation of circular recess (21), the top fixedly connected with supporting seat (23) of first spin (22), the top fixedly connected with roof (24) of supporting seat (23).

4. The vertical supporting stress uniform distribution device for the building reinforcement engineering according to claim 1, characterized in that: the edge side fixedly connected with at support column (5) top supports and presses seat (25), and supports and press seat (25) and be provided with a plurality of, support one side of pressing seat (25) and rotate through seting up the opening and be connected with second spin (26), the top fixedly connected with buffer cylinder (27) of second spin (26), the top of buffer cylinder (27) has push rod (28) through seting up opening slidable mounting, and push rod (28) keep away from the one end of buffer cylinder (27) and rotate through rotating the piece and connect in the bottom of roof (24).

5. The vertical supporting stress uniform distribution device for the building reinforcement engineering according to claim 4, characterized in that: push rod (28) are located inside one end fixedly connected with stopper (29) of buffer cylinder (27), spring (30) have been cup jointed on the surface of push rod (28) and the inside that is located buffer cylinder (27), the bottom fixed connection of spring (30) is in the top of stopper (29).

6. The vertical supporting stress uniform distribution device for the building reinforcement engineering according to claim 1, characterized in that: the fixed surface of support column (5) is connected with chute board (31), the inside slidable mounting of chute board (31) has slide (32), one side fixedly connected with connecting plate (33) of chute board (31) are kept away from in slide (32).

7. The vertical supporting stress uniform distribution device for the building reinforcement engineering according to claim 6, characterized in that: the surface of support column (5) just is located fixedly connected with pinion rack (34) between two chute board (31), the rear portion of connecting plate (33) is through fixed plate fixedly connected with drive case (35).

8. The vertical supporting stress uniform distribution device for the building reinforcement engineering according to claim 1, characterized in that: fixed plate fixedly connected with motor (36) is passed through on the right side of drive case (35) inner chamber, shaft coupling fixedly connected with dwang (37) is passed through to the output shaft of motor (36), the outside that drive case (35) and extended to drive case (35) is run through to the one end of dwang (37).

9. The vertical supporting stress uniform distribution device for the building reinforcement engineering of claim 8, which is characterized in that: the surface of the rotating rod (37) and the outer part of the driving box (35) are fixedly connected with a fluted disc (38) meshed with the toothed plate (34).

10. The vertical supporting stress uniform distribution device for the building reinforcement engineering according to claim 6, characterized in that: and a loading frame (39) is fixedly connected to the surface of the connecting plate (33).