CN214195669U - Reinforced concrete vestibule construction bearing structure - Google Patents

Abstract

The utility model discloses a reinforced concrete vestibule construction bearing structure relates to construction technical field. The utility model discloses a first building body, one side of first building body is provided with the second building body, all is provided with first ox foot and second ox foot on the relative terminal surface of first building body and second building body, and a side end face central point of I-steel puts in the past to the even interval in back and is provided with spacing hole, and the upper surface central point of I-steel puts and installs sliding guide, and sliding guide's inside is provided with the slider, and the upper surface mounting of slider is on the movable plate. The utility model discloses an utilize sliding guide and slider to remove, exert a power to the movable plate for the movable plate slides, thereby made things convenient for staff to the transportation of building material, upwards stimulate the pull ring and drive head rod rebound, made the second limiting plate drive the third limiting plate through the pulling force rope and removed, extracted the gag lever post from spacing downthehole through the second connecting rod.

Description

Reinforced concrete vestibule construction bearing structure

Technical Field

The utility model belongs to the technical field of the construction, especially, relate to a reinforced concrete vestibule construction bearing structure.

Background

The corridor is originally a form of ancient building in China, namely a connecting structure between buildings is provided with a roof and has no building enclosure, on one hand, the corridor is arranged according to the requirements on the building function, and can be convenient for the connection between two tower buildings, in the modern high-rise building, various aerial corridors are commonly used in the buildings, so that a supporting structure convenient for construction is often used when the corridor is constructed, but the following defects still exist in the actual use:

1. most of the existing workers adopt a scaffold mode for corridor construction, so that the workers are inconvenient to take building materials, and the working strength is high;

2. the existing corridor construction supporting structure is complex in fixing steps, cannot play a limiting function in the using process, and is not convenient for workers to perform quick positioning work.

Therefore, the existing reinforced concrete corridor construction supporting structure cannot meet the requirements in practical use, so that an improved technology is urgently needed in the market to solve the problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a reinforced concrete vestibule construction bearing structure, remove through utilizing sliding guide and slider, exert a power to the movable plate, thereby make the movable plate drive the slider and slide on sliding guide, thereby made things convenient for staff to building material's transportation, when needs use the movable plate to slide, upwards stimulate the pull ring and drive the ascending removal of head rod through first limiting plate, thereby the ascending removal of second limiting plate removes through pulling force rope drive third limiting plate, thereby the second connecting rod drives the gag lever post and removes to the passageway, extract the gag lever post from spacing downthehole.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to a reinforced concrete corridor construction supporting structure, which comprises a first building body, wherein one side of the first building body is provided with a second building body, the opposite end surfaces of the first building body and the second building body are provided with a first bull foot and a second bull foot, the first bull's feet and the second bull's feet are oppositely arranged, the upper surfaces of the first bull's feet and the second bull's feet are both provided with I-shaped steel, limiting holes are uniformly arranged in the center of the end surface of one side of the I-shaped steel from front to back at intervals, a sliding guide rail is arranged in the center of the upper surface of the I-shaped steel, the inside of sliding guide is provided with the slider, the upper surface mounting of slider is on the movable plate, and first ox foot and second ox foot are reinforced concrete structure, and the shape of first ox foot and second ox foot is cuboid and the size is the same, and sliding guide accessible expansion bolts is connected with the I-steel.

Further, the both sides steel channel bottom of I-steel all is provided with fixing bolt, fixing bolt's bottom runs through-hole and rubber pad on the I-steel in proper order and is connected with first ox foot and second ox foot, the rubber pad is located between I-steel and first ox foot and the second ox foot, and the rubber pad can reduce the friction between I-steel and the ox foot, slows down the device damage.

Further, the upper surface both sides of movable plate all are provided with the recess, the inside bottom of recess is provided with first limiting plate, the upper surface central point of first limiting plate puts and is provided with the pull ring, the bottom central point of first limiting plate puts and installs the head rod, the through-hole and the second limiting plate connection on the recess are run through to the bottom of head rod, and pull ring accessible spacing ring welds on first limiting plate, and highly is higher than the upper surface of movable plate after the pull ring is pulled up.

Further, the bottom of recess is provided with the passageway, be provided with first spring on the outside outer wall of head rod, first spring is located between the bottom of second limiting plate and recess, first spring is located the inside of passageway, the bottom central point of second limiting plate puts the welding and has the solid fixed ring of second, and the diameter of passageway is greater than the diameter of first spring, and the solid fixed ring's of second shape is the semicircle ring.

Further, be provided with the pulling force rope on the solid fixed ring's of second outside outer wall, the other end of pulling force rope runs through first solid fixed ring and is connected with the solid fixed ring of third, the both ends of first solid fixed ring are installed on the inner wall of passageway, the both ends of the solid fixed ring of third are installed on the third limiting plate, the opposite side terminal surface central point of third limiting plate puts and installs the second connecting rod, and the shape of first solid fixed ring and the solid fixed ring of third is the semicircle ring, and the pulling force rope can adopt the nylon material, and tensile strength is strong, and is difficult for breaking.

Further, the other end of the second connecting rod penetrates through a through hole in the fixing plate and is connected with the limiting rod, the side face of the fixing plate is installed on the inner wall of the channel, a second spring is arranged on the outer wall of the outer side of the second connecting rod and is located between the limiting rod and the fixing plate, the limiting rod is located inside the limiting hole, and the limiting rod is cylindrical and slightly smaller than the limiting hole in diameter.

The utility model discloses following beneficial effect has:

1. the utility model discloses a sliding guide and slider, when the staff uses, can remove the material and the workman that need transport through sliding guide and slider, exert a power to the movable plate through the outside, thereby make the movable plate drive the slider and slide on sliding guide, thereby made things convenient for the transportation of staff to building material, solved current staff and taken the mode of scaffold frame to go on mostly when carrying out the vestibule construction, the staff of being not convenient for takes building material, problem that working strength is big.

2. The utility model pulls the pull ring upwards through the limiting hole and the limiting rod when the movable plate is required to slide, so that the pull ring drives the first connecting rod to move upwards through the first limiting plate, the first connecting rod moves upwards so that the second limiting plate moves upwards and the first spring is compressed upwards to drive the tensile rope on the second fixing ring to move upwards, the tensile rope drives the third limiting plate to move in the channel through the third fixing ring under the limiting of the first fixing ring, thereby the second connecting rod drives the limiting rod to move towards the channel and compress the second spring, so that the limiting rod can be pulled out from the limiting hole, the movable plate is convenient for workers to fix and limit, the problem that the existing corridor construction supporting structure is complex in fixing steps is solved, and the problem that the positioning device cannot play a limiting function in the using process and is not convenient for workers to perform quick positioning work is solved.

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

Drawings

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

Fig. 1 is a front view of the present invention;

FIG. 2 is a side cross-sectional view of the present invention;

FIG. 3 is an enlarged view of the structure of FIG. 2;

fig. 4 is an enlarged view of the moving plate of fig. 3 according to the present invention;

FIG. 5 is an enlarged view of the structure of FIG. 4B according to the present invention;

fig. 6 is an enlarged view of the structure at C in fig. 4 according to the present invention.

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

1. a first building body; 2. i-shaped steel; 201. a sliding guide rail; 202. a limiting hole; 203. fixing the bolt; 204. a rubber pad; 3. a first cow's foot; 4. moving the plate; 401. a slider; 402. a groove; 403. a pull ring; 404. a first limit plate; 405. a first spring; 406. a first connecting rod; 407. a second limiting plate; 408. a tension rope; 409. a first retaining ring; 4010. a channel; 4011. a second retaining ring; 4012. a limiting rod; 4013. a second spring; 4014. a second connecting rod; 4015. a fixing plate; 4016. a third limiting plate; 4017. a third fixing ring; 5. a second building body; 6. the second cow feet.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-6, the utility model relates to a reinforced concrete corridor construction supporting structure, which comprises a first building body 1, a second building body 5 is arranged at one side of the first building body 1, a first bull's foot 3 and a second bull's foot 6 are arranged on the opposite end surfaces of the first building body 1 and the second building body 5, the first bull's foot 3 and the second bull's foot 6 are oppositely arranged, i-beams 2 are arranged on the upper surfaces of the first bull's foot 3 and the second bull's foot 6, limiting holes 202 are uniformly arranged at intervals from front to back at the central position of one side end surface of the i-beams 2, a sliding guide rail 201 is arranged at the central position of the upper surface of the i-beams 2, a sliding block 401 is arranged inside the sliding guide rail 201, the upper surface of the sliding block 401 is arranged on a moving plate 4, the first bull's foot 3 and the second bull's foot 6 are both of reinforced concrete structure, the first bull's foot 3 and the second bull's foot 6 are cuboid and have the same size, the sliding guide 201 may be connected to the i-beam 2 by expansion bolts.

As shown in fig. 1 and 3, fixing bolts 203 are arranged at the bottoms of steel grooves on two sides of an i-steel 2, the bottom ends of the fixing bolts 203 sequentially penetrate through holes in the i-steel 2 and rubber pads 204 and are connected with a first bull's foot 3 and a second bull's foot 6, the rubber pads 204 are located between the i-steel 2 and the first bull's foot 3 and the second bull's foot 6, and the rubber pads 204 can reduce friction between the i-steel 2 and the bull's foot and reduce damage of the device.

As shown in fig. 1, 3, 4, 5, and 6, two sides of the upper surface of the moving plate 4 are provided with grooves 402, a first limiting plate 404 is disposed at the bottom end inside the groove 402, a pull ring 403 is disposed at the central position of the upper surface of the first limiting plate 404, a first connecting rod 406 is mounted at the central position of the bottom of the first limiting plate 404, the bottom end of the first connecting rod 406 penetrates through a through hole on the groove 402 and is connected with a second limiting plate 407, a channel 4010 is disposed at the bottom of the groove 402, a first spring 405 is disposed on the outer side wall of the first connecting rod 406, the first spring 405 is disposed between the second limiting plate 407 and the bottom of the groove 402, the first spring 405 is disposed inside the channel 4010, a second fixing ring 4011 is welded at the central position of the bottom of the second limiting plate 407, a tension rope 408 is disposed on the outer side wall of the second fixing ring 4011, and the other end of the tension rope 408 penetrates through the first fixing ring 409 and is connected with a third fixing ring 4017, two ends of a first fixing ring 409 are mounted on the inner wall of the channel 4010, two ends of a third fixing ring 4017 are mounted on a third limiting plate 4016, a second connecting rod 4014 is mounted at the center of the end face of the other side of the third limiting plate 4016, the other end of the second connecting rod 4014 penetrates through a through hole in a fixing plate 4015 and is connected with a limiting rod 4012, the side face of the fixing plate 4015 is mounted on the inner wall of the channel 4010, a second spring 4013 is arranged on the outer side outer wall of the second connecting rod 4014, the second spring 4013 is located between the limiting rod 4012 and the fixing plate 4015, the limiting rod 4012 is located inside the limiting hole 202, the pull ring is pulled upwards, so that the pull ring 403 drives the first connecting rod 406 to move upwards through the first limiting plate 404, the first connecting rod 406 moves upwards, so that the second limiting plate 407 moves upwards and upwards compresses the first spring 405 to drive the tensile rope 408 on the second fixing ring 4011 to move upwards, tensile rope 408 makes the solid fixed ring 4017 of third drive third limiting plate 4016 and removes in passageway 4010 under first solid fixed ring 409's is spacing, thereby second connecting rod 4014 drives gag lever post 4012 and removes and compress second spring 4013 to passageway 4010 interior, thereby can extract gag lever post 4012 from spacing hole 202, facilitate the use, gag lever post 4012's shape is the cylinder and the diameter slightly is less than spacing hole 202, passageway 4010's diameter is greater than the diameter of first spring 405, the solid fixed ring 4011's of second shape is the semicircle ring, the solid fixed ring 409 of first solid fixed ring 409 and the solid fixed ring 4017's of third shape is the semicircle ring, tensile rope 408 can adopt the nylon material, the tensile strength is strong, it is difficult to break, pull ring 403 accessible spacing ring welding is on first limiting plate 404, and the high movable plate that highly is higher than 4 after pull ring 403 pulls up.

One specific application of this embodiment is: when the worker uses the device, the material and worker to be transported can move through the sliding guide rail 201 and the sliding block 401, and a force is applied to the moving plate 4 through the outside, so that the moving plate 4 drives the sliding block 401 to slide on the sliding guide rail 201, thereby facilitating the transportation of the building material by the worker, when the moving plate 4 needs to be used to slide, the pull ring 403 is pulled upwards, so that the pull ring 403 drives the first connecting rod 406 to move upwards through the first limiting plate 404, the first connecting rod 406 moves upwards, so that the second limiting plate 407 moves upwards and compresses the first spring 405 upwards to drive the pull rope 408 on the second fixing ring 4011 to move upwards, the pull rope 408 drives the third fixing ring 4017 to drive the third limiting plate 4016 to move in the channel 4010 under the limiting of the first fixing ring 409, so that the second connecting rod 4014 drives the limiting rod 4012 to move inwards in the channel 4010 and compress the second spring 4013, therefore, the limiting rod 4012 can be pulled out of the limiting hole 202, and the movable plate can be fixed and limited by workers conveniently.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (6)

1. The utility model provides a reinforced concrete vestibule construction bearing structure, includes first building body (1), its characterized in that: one side of first building body (1) is provided with second building body (5), all be provided with first bull foot (3) and second bull foot (6) on the relative terminal surface of first building body (1) and second building body (5), set up relatively between first bull foot (3) and the second bull foot (6), the upper surface of first bull foot (3) and second bull foot (6) all is provided with I-steel (2), a side end face central point of I-steel (2) puts in the past to the back even interval and is provided with spacing hole (202), sliding guide (201) are installed to the upper surface central point of I-steel (2), the inside of sliding guide (201) is provided with slider (401), the upper surface mounting of slider (401) is on movable plate (4).

2. The reinforced concrete corridor construction support structure according to claim 1, wherein fixing bolts (203) are arranged at the bottoms of steel grooves on two sides of the I-shaped steel (2), the bottom ends of the fixing bolts (203) sequentially penetrate through holes in the I-shaped steel (2) and rubber pads (204) and are connected with the first bull's foot (3) and the second bull's foot (6), and the rubber pads (204) are located between the I-shaped steel (2) and the first bull's foot (3) and the second bull's foot (6).

3. The reinforced concrete corridor construction support structure according to the claim 1, wherein grooves (402) are formed in two sides of the upper surface of the moving plate (4), a first limiting plate (404) is arranged at the bottom end of the inner portion of each groove (402), a pull ring (403) is arranged at the center position of the upper surface of the first limiting plate (404), a first connecting rod (406) is arranged at the center position of the bottom of the first limiting plate (404), and the bottom end of the first connecting rod (406) penetrates through a through hole in each groove (402) to be connected with a second limiting plate (407).

4. A reinforced concrete corridor construction support structure according to claim 3, wherein a channel (4010) is formed at the bottom of the groove (402), a first spring (405) is arranged on the outer side wall of the first connecting rod (406), the first spring (405) is located between a second limiting plate (407) and the bottom of the groove (402), the first spring (405) is located inside the channel (4010), and a second fixing ring (4011) is welded at the center position of the bottom of the second limiting plate (407).

5. The reinforced concrete corridor construction support structure according to claim 4, wherein a tension rope (408) is arranged on the outer side outer wall of the second fixing ring (4011), the other end of the tension rope (408) penetrates through the first fixing ring (409) to be connected with the third fixing ring (4017), two ends of the first fixing ring (409) are installed on the inner wall of the channel (4010), two ends of the third fixing ring (4017) are installed on the third limiting plate (4016), and a second connecting rod (4014) is installed in the other side end face center position of the third limiting plate (4016).

6. The reinforced concrete corridor construction support structure according to claim 5, wherein the other end of the second connecting rod (4014) penetrates through a through hole in a fixing plate (4015) to be connected with a limiting rod (4012), the side face of the fixing plate (4015) is installed on the inner wall of a channel (4010), a second spring (4013) is arranged on the outer side wall of the second connecting rod (4014), the second spring (4013) is located between the limiting rod (4012) and the fixing plate (4015), and the limiting rod (4012) is located inside a limiting hole (202).

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