CN216948728U - Large-span beam improved column cap building with anti-toppling structure - Google Patents

Abstract

The utility model relates to the technical field of house construction, in particular to a large-span beam improved column-cap building with an anti-overturning structure, comprising a building beam body, a first servo motor and a second servo motor. The side of the building beam body is fixedly installed There is a first support column cap, the bottom end of the first support column cap is fixedly installed with a first limit frame, the bottom end of the first limit frame is fixedly installed with a first support base, and the first support base is A first servo motor is installed inside. The utility model is provided with a first support column cap and a second support column cap, and the third fixed bolt and the fourth fixed bolt are fixed by inserting the first fixed bolt and the second fixed bolt into the circular hole slot opened at the bottom end of the floor plate. The bolt is inserted into the circular hole and groove formed at the bottom end of the floor slab, and the beam can be reinforced by engaging the first reinforcing support block and the second reinforcing support block against the rectangular groove formed at the bottom end of the building beam body.

Description

Large-span beam improved column cap building with anti-toppling structure

Technical Field

The utility model relates to the technical field of house buildings, in particular to a large-span beam improved column cap building with an anti-toppling structure.

Background

The post cap is also called a post supporting plate, and is a structure which is arranged on the top of a post and used for increasing the supporting area of the post to the plate in order to improve the bearing capacity, the rigidity and the anti-cutting capacity of the plate when the floor load is large.

Most of existing column caps are directly and fixedly installed at the bottom end of a floor slab of a house in a mode of smearing cement at the top end, the cement for bonding and fixing can crack along with the longer using time of the building, the stability of connection of the column caps is poor, and when the floor slab is heavy, a cross beam can topple over, so that the need of designing a large-span beam improved column cap building with an anti-toppling structure is high.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an improved column cap building of a large-span beam with an anti-toppling structure, which aims to solve the problems that most of the existing column caps in the prior art are poor in stability of connection between the column cap and the bottom end of a floor slab along with the increase of the service time of the building, and a cross beam is toppled when the floor slab is heavy.

In order to achieve the purpose, the utility model provides the following technical scheme: a large-span beam improved column cap building with an anti-toppling structure comprises a building beam body, a first servo motor and a second servo motor, wherein a first supporting column cap is fixedly mounted on the side face of the building beam body, a first limiting frame is fixedly mounted at the bottom end of the first supporting column cap, a first supporting base is fixedly mounted at the bottom end of the first limiting frame, and the first servo motor is mounted inside the first supporting base;

the side fixed mounting of building crossbeam body has the second to support the cap, the bottom fixed mounting of second support cap has the spacing frame of second, the bottom fixed mounting of the spacing frame of second has the second to support the base, the second supports the inside of base and has installed second servo motor.

Preferably, a first rotating rod is installed on the side face of the first support column cap, a first bevel gear is fixedly installed on the side face of the first rotating rod, a first internal thread sleeve is installed inside the first support column cap, a first telescopic screw rod is inserted inside the first internal thread sleeve, a second bevel gear is installed on the surface of the first internal thread sleeve, a first fixing bolt is installed on the top end of the first telescopic screw rod, a second internal thread sleeve is installed inside the first support column cap, a second telescopic screw rod is inserted inside the second internal thread sleeve, a third bevel gear is installed on the surface of the second internal thread sleeve, a second fixing bolt is installed on the top end of the second telescopic screw rod, and the top end of the second bevel gear is meshed with the bottom end of the third bevel gear.

Preferably, a first lifting screw is arranged inside the first limiting frame, a first internal thread sliding block is arranged on the surface of the first lifting screw, a first sliding support column is fixedly arranged on the side surface of the first internal thread sliding block, and a first reinforcing supporting block is fixedly arranged at the top end of the first sliding support column.

Preferably, the second dwang has been installed to the side of second support cap, and the side fixed mounting of second dwang has fourth bevel gear, third internal thread sleeve has been installed to the inside of second support cap, and third internal thread sleeve's inside is inserted and is equipped with the flexible screw rod of third, the telescopic fixed surface of third internal thread installs fifth bevel gear, third fixed bolt has been installed on the top of the flexible screw rod of third, the fourth internal thread sleeve has been installed to the inside of second support cap, the telescopic inside of fourth internal thread is inserted and is equipped with the flexible screw rod of fourth, the telescopic fixed surface of fourth internal thread installs sixth bevel gear, the fourth fixed bolt has been installed on the top of the flexible screw rod of fourth, the top of fifth bevel gear meshes with the bottom of sixth bevel gear mutually.

Preferably, a second lifting screw is arranged inside the second limiting frame, a second internal thread sliding block is arranged on the surface of the second lifting screw, a second sliding support column is fixedly arranged on the side face of the second internal thread sliding block, and a second reinforcing support block is arranged at the top end of the second sliding support column.

Preferably, the internal thread has been seted up to the inside of first internal thread slider, and the inside of first internal thread slider constitutes spiral rotary type structure with first lifting screw's surface, the internal thread has been seted up to the inside of second internal thread slider, and the inside of second internal thread slider constitutes spiral rotary type structure with the surface of second lifting screw.

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

1. through being provided with first support cap and second support cap, through with first fixing bolt and second fixing bolt insert the circular hole groove that the floor bottom was seted up in the middle of, insert the circular hole groove that the floor bottom was seted up with third fixing bolt and fourth fixing bolt in the middle of, fix first support cap and second support cap in the floor bottom can be more stable through this mode.

2. Through being provided with first servo motor and second servo motor, can make first reinforcement supporting shoe block conflict in the middle of the rectangle recess that building crossbeam body bottom was seted up through first servo motor's rotation, can make second reinforcement supporting shoe block conflict in the middle of the rectangle recess that building crossbeam body bottom was seted up through second servo motor's rotation.

Drawings

FIG. 1 is a three-dimensional schematic of the structure of the present invention;

FIG. 2 is a schematic sectional elevation view of the structure of the present invention;

FIG. 3 is a schematic top cross-sectional view of a first support cap structure of the present invention;

fig. 4 is an enlarged view of a portion of a structure shown in fig. 2 according to the present invention.

In the figure: 1. building a beam body; 2. a first support cap; 201. a first rotating lever; 202. a first bevel gear; 203. a first internally threaded sleeve; 204. a first telescopic screw; 205. a second bevel gear; 206. a first fixed bolt; 207. a second internally threaded sleeve; 208. a second telescopic screw; 209. a third bevel gear; 210. a second fixing bolt; 3. a first limit frame; 301. a first lifting screw; 302. a first internal thread slider; 303. a first sliding support; 304. a first reinforcing support block; 4. a first support base; 401. a first servo motor; 5. a second support cap; 501. a second rotating lever; 502. a fourth bevel gear; 503. a third internally threaded sleeve; 504. a third telescopic screw rod; 505. a fifth bevel gear; 506. a third fixed bolt; 507. a fourth internally threaded sleeve; 508. a fourth telescopic screw rod; 509. a sixth bevel gear; 510. a fourth fixing bolt; 6. a second limit frame; 601. a second lifting screw; 602. a second internal thread slider; 603. a second sliding support; 604. a second reinforcing support block; 7. a second support base; 701. a second servo motor.

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. 1-4, an embodiment of the present invention is shown:

a large-span beam improved column cap building with an anti-toppling structure comprises a building beam body 1, a first servo motor 401 and a second servo motor 701, wherein the first servo motor 401 and the second servo motor 701 used in the application are products which can be directly purchased in the market, and the principle and the connection mode of the first servo motor 401 and the second servo motor 701 are the prior art well known by technical personnel in the field, so that the description is omitted, a first support column cap 2 is fixedly installed on the side surface of the building beam body 1, a first limiting frame 3 is fixedly installed at the bottom end of the first support column cap 2, a first support base 4 is fixedly installed at the bottom end of the first limiting frame 3, and the first servo motor 401 is installed inside the first support base 4;

the side fixed mounting of building crossbeam body 1 has second support cap 5, and the bottom fixed mounting of second support cap 5 has the spacing frame 6 of second, and the bottom fixed mounting of the spacing frame 6 of second has the second to support base 7, and second servo motor 701 has been installed to the inside of second support base 7.

Further, a first rotating rod 201 is installed on the side surface of the first support column cap 2, a first bevel gear 202 is fixedly installed on the side surface of the first rotating rod 201, a first internal thread sleeve 203 is installed inside the first support column cap 2, a first telescopic screw 204 is inserted inside the first internal thread sleeve 203, a second bevel gear 205 is fixedly installed on the surface of the first internal thread sleeve 203, a first fixing bolt 206 is installed at the top end of the first telescopic screw 204, a second internal thread sleeve 207 is installed inside the first support column cap 2, a second telescopic screw 208 is inserted inside the second internal thread sleeve 207, a third bevel gear 209 is fixedly installed on the surface of the second internal thread sleeve 207, a second fixing bolt 210 is installed at the top end of the second telescopic screw 208, and the top end of the second bevel gear 205 is engaged with the bottom end of the third bevel gear 209.

Further, a first lifting screw 301 is installed inside the first limiting frame 3, a first internal thread slider 302 is installed on the surface of the first lifting screw 301, a first sliding support 303 is fixedly installed on the side surface of the first internal thread slider 302, and a first reinforcing support block 304 is fixedly installed at the top end of the first sliding support 303.

Further, a second rotating rod 501 is installed on the side surface of the second support column cap 5, a fourth bevel gear 502 is fixedly installed on the side surface of the second rotating rod 501, a third internal threaded sleeve 503 is installed inside the second support column cap 5, a third telescopic screw 504 is inserted inside the third internal threaded sleeve 503, a fifth bevel gear 505 is fixedly installed on the surface of the third internal threaded sleeve 503, a third fixing bolt 506 is installed at the top end of the third telescopic screw 504, a fourth internal threaded sleeve 507 is installed inside the second support column cap 5, a fourth telescopic screw 508 is inserted inside the fourth internal threaded sleeve 507, a sixth bevel gear 509 is fixedly installed on the surface of the fourth internal threaded sleeve 507, a fourth fixing bolt 510 is installed at the top end of the fourth telescopic screw 508, and the top end of the fifth bevel gear 505 is engaged with the bottom end of the sixth bevel gear 509.

Further, a second lifting screw 601 is installed inside the second limiting frame 6, a second internal thread slider 602 is installed on the surface of the second lifting screw 601, a second sliding support 603 is fixedly installed on the side surface of the second internal thread slider 602, and a second reinforcing support block 604 is installed at the top end of the second sliding support 603.

Further, an internal thread is formed inside the first internal thread slider 302, the inside of the first internal thread slider 302 and the surface of the first lifting screw 301 form a spiral rotating structure, an internal thread is formed inside the second internal thread slider 602, and the inside of the second internal thread slider 602 and the surface of the second lifting screw 601 form a spiral rotating structure.

The working principle is as follows: when the column caps are required to be reinforced at the bottom end of the floor slab, firstly, the device is externally connected with a power supply, so that the device is provided with electric power support, holes are formed at the bottom end of the floor slab, cement is coated at the top ends of the first support column cap 2 and the second support column cap 5, the first support column cap 2 and the second support column cap 5 are arranged at the bottom end of the building floor slab, the first rotating rod 201 is rotated, so that the first fixing bolt 206 and the second fixing bolt 210 can ascend, the first fixing bolt 206 and the second fixing bolt 210 can be inserted into a circular hole groove formed at the bottom end of the floor slab, the second rotating rod 501 is rotated, so that the third fixing bolt 506 and the fourth fixing bolt 510 can ascend, the third fixing bolt 506 and the fourth fixing bolt 510 can be inserted into the circular hole groove formed at the bottom end of the floor slab, and the first support column cap 2 and the second support column cap 5 are fixed at the bottom end of the floor slab more stably by the mode, the first elevation screw 301 can be rotated by the rotation of the first servo motor 401, the first sliding support 303 can be lifted and lowered by the rotation of the first lifting screw 301, by lifting the first sliding support column 303, the first reinforcing support block 304 can be clamped and abutted in the rectangular groove formed at the bottom end of the building beam body 1, the second elevation screw 601 can be rotated by the rotation of the second servo motor 701, the second sliding post 603 can be lifted and lowered by the rotation of the second lifting screw 601, by lifting the second sliding support column 603, the second reinforcing support block 604 can be clamped and abutted in the rectangular groove formed at the bottom end of the cross beam body 1 of the building, the conflict block through first reinforcement supporting shoe 304 and second lifting screw 601 can consolidate building crossbeam body 1, prevents that building crossbeam body 1 from empting.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. A large-span beam with an anti-overturning structure improves the column cap building, comprising a building beam body (1), a first servo motor (401) and a second servo motor (701), characterized in that: the building beam body A first support column cap (2) is fixedly installed on the side of (1), and a first limit frame (3) is fixedly installed at the bottom end of the first support column cap (2). 3) a first support base (4) is fixedly installed at the bottom end, and a first servo motor (401) is installed inside the first support base (4); A second support column cap (5) is fixedly installed on the side of the building beam body (1), and a second limit frame (6) is fixedly installed at the bottom end of the second support column cap (5). A second support base (7) is fixedly installed at the bottom ends of the two limit frames (6), and a second servo motor (701) is installed inside the second support base (7). 2. A large-span beam improved column cap building with an anti-overturning structure according to claim 1, characterized in that: the side of the first support column cap (2) is provided with a first rotating rod (201) , and a first bevel gear (202) is fixedly installed on the side of the first rotating rod (201), a first internal thread sleeve (203) is installed inside the first support column cap (2), and the first A first telescopic screw (204) is inserted into the interior of an internally threaded sleeve (203), and a second bevel gear (205) is fixedly mounted on the surface of the first internally threaded sleeve (203). The top end of the telescopic screw (204) is provided with a first fixing pin (206), the inside of the first support column cap (2) is provided with a second internal thread sleeve (207), the second internal thread sleeve A second telescopic screw (208) is inserted inside the barrel (207), a third bevel gear (209) is fixedly mounted on the surface of the second internally threaded sleeve (207), and the second telescopic screw (208) ) is provided with a second fixing pin (210), and the top end of the second bevel gear (205) is engaged with the bottom end of the third bevel gear (209). 3. The large-span beam improved column cap building with an anti-overturning structure according to claim 1, wherein a first lifting screw (301) is installed inside the first limit frame (3) , the surface of the first lifting screw (301) is provided with a first internal thread slide block (302), and the side surface of the first internal thread slide block (302) is fixedly mounted with a first sliding strut (303), so A first reinforcement support block (304) is fixedly installed on the top end of the first sliding support column (303). 4. A large-span beam improved column cap construction with an anti-overturning structure according to claim 1, characterized in that: a second rotating rod (501) is installed on the side of the second support column cap (5) , and a fourth bevel gear (502) is fixedly installed on the side of the second rotating rod (501), a third internal thread sleeve (503) is installed inside the second support column cap (5), and the third A third telescopic screw (504) is inserted into the interior of the three internal thread sleeves (503), and a fifth bevel gear (505) is fixedly mounted on the surface of the third internal thread sleeve (503). The top end of the telescopic screw (504) is provided with a third fixing pin (506), and the inside of the second support column cap (5) is provided with a fourth internal thread sleeve (507), the fourth internal thread sleeve A fourth telescopic screw (508) is inserted inside the barrel (507), a sixth bevel gear (509) is fixedly mounted on the surface of the fourth internally threaded sleeve (507), and the fourth telescopic screw (508) ) is provided with a fourth fixing pin (510), and the top end of the fifth bevel gear (505) meshes with the bottom end of the sixth bevel gear (509). 5. The large-span beam improved column cap building with an anti-overturning structure according to claim 3, wherein a second lifting screw (601) is installed inside the second limiting frame (6) , the surface of the second lifting screw (601) is provided with a second internal thread slide block (602), and the side surface of the second internal thread slide block (602) is fixedly mounted with a second sliding strut (603). The top end of the second sliding pillar (603) is provided with a second reinforcing support block (604). 6. The large-span beam improved column cap building with an anti-overturning structure according to claim 5, characterized in that: an internal thread is provided inside the first internal thread slider (302), and the first internal thread slide block (302) is provided with internal threads. The inside of the threaded slider (302) and the surface of the first lifting screw (301) form a helical rotating structure, the inside of the second internally threaded slider (602) is provided with an internal thread, and the second internally threaded slider ( The interior of 602) and the surface of the second lifting screw (601) form a helical rotation structure.

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