CN216007253U - Novel vestibule supporting and positioning structure - Google Patents

Abstract

The utility model discloses a novel corridor supporting and positioning structure, which comprises a corridor plate, a positioning column, a bottom supporting plate, a side supporting plate, a first buffer part and a second buffer part, wherein the corridor plate is arranged on the side supporting plate, the two sides of the corridor plate are provided with the positioning column, the side supporting plate is connected with the positioning column, the bottom supporting plate is arranged at the bottom of the side supporting plate and one side position of the positioning column, the second buffer part is arranged between the bottom supporting plate, the side supporting plate and the positioning column, the first buffer part is arranged at the bottom side of the corridor plate, the first buffer part and the second buffer part are matched, the whole stability and safety of the corridor supporting and positioning structure are improved, a certain angle is arranged between a longitudinal buffer rod in the first buffer part and a left buffer rod and a right buffer rod for supporting the pressure from the upper corridor bottom plate, the second rubber pad comprises a rubber pad and a buffer spring, cushion rubber pad and buffer spring transversely set up the pressure between bottom sprag board, lateral part backup pad and reference column.

Description

Novel vestibule supporting and positioning structure

Technical Field

The utility model belongs to the technical field of building structure, concretely relates to novel vestibule supports location structure.

Background

The corridor is originally a form of ancient Chinese construction, namely a connecting structure between buildings, and is provided with a roof and no enclosure structure. The corridor is arranged on the one hand, and can facilitate the connection between the two towers due to the requirement on the building function. Meanwhile, the integrated body has good lighting effect and wide visual field, and can be used as a sightseeing corridor or a leisure coffee hall and the like. The corridor is arranged on the one hand, and can facilitate the connection between the two towers due to the requirement on the building function. Meanwhile, the conjoined has good lighting effect and wide visual field, and can be used as a sightseeing corridor or a leisure coffee hall and the like; on the other hand, due to the arrangement of the corridor, the building has more characteristics in appearance, and a more harmonious building atmosphere can be created. In addition, the fire control vestibule plays the effect of escape way, and is very high to the fire prevention requirement, must all make with fire prevention material and have very high requirement to the stability of vestibule simultaneously. But the shock resistance of the positioning structure of the common corridor is not high, and the use safety is influenced.

SUMMERY OF THE UTILITY MODEL

In order to achieve the above purpose, the technical scheme of the utility model is as follows: the utility model provides a novel vestibule supports location structure, location structure includes vestibule board, reference column, bottom sprag board, lateral part backup pad, first bolster and second bolster, and the vestibule board sets up on the lateral part backup pad, and the both sides of vestibule board set up to the reference column, and the lateral part backup pad is connected with the reference column, and the bottom sprag board sets up in a side position of the bottom of lateral part backup pad and reference column, and the second bolster sets up between bottom sprag board, lateral part backup pad and reference column, and first bolster sets up the bottom side at the vestibule board.

Based on above-mentioned scheme, among the location structure that this scheme provided, first bolster can improve the stability of vestibule version, and the impact force of bottom sprag board, lateral part backup pad and reference column can be alleviated to the second bolster, improves the stability between bottom sprag board, lateral part backup pad and the reference column.

As an improvement of the utility model, first bolster includes vertical buffer rod and controls the side buffer rod, on vertical buffer rod was fixed in fixed backing plate jointly with the top of controlling the side buffer rod, vertical buffer rod was connected on the buffering horizontal pole of bottom with controlling side buffer rod bottom side, and buffering horizontal pole both ends are passed through buffering steel column and are connected in the lateral part backup pad, and the tip of buffering horizontal pole supports and leans on the one side in the buffering steel column.

Based on above-mentioned scheme, have certain angle between vertical buffer beam and the left and right sides buffer beam for the support comes from the pressure of top vestibule bottom plate, the pressure that comes from the buffering horizontal pole is alleviated to the buffering steel column, when controlling after the buffering horizontal pole atress, produces certain pressure to the buffering steel column, and the buffering steel column can absorb partial pressure, plays the cushioning effect.

As an improvement of the utility model, the buffering steel column outside is sealed, and inside has a recess, and the recess is inside to have the buffering spheroid, and the buffering spheroid matches with the volume of recess, has the space between buffering spheroid and the recess.

Based on above-mentioned scheme, when the buffering steel column received external pressure, the buffering spheroid produced the round trip movement in the recess inside to can offset partial external pressure, play the cushioning effect.

As an improvement of the utility model, the radius of the buffering ball body is r, and the thickness d of the inner wall of the buffering steel column is greater than r/2.

Based on the scheme, the thickness of the inner wall of the buffering steel column is larger than r/2, and the impact influence of the internal buffering ball on the buffering steel column is guaranteed when the buffering steel column is stressed.

As an improvement of the utility model, positioning bolts are arranged around the bottom of the buffering steel column.

Based on the scheme, the buffer steel column is limited and fixed on the upper portion of the side supporting plate through the positioning bolt.

As an improvement of the utility model, the second bolster includes rubber pad and buffer spring, and the rubber pad transversely sets up between bottom sprag board, lateral part backup pad and reference column with buffer spring.

Based on above-mentioned scheme, the second bolster is used for alleviating the impact force between bottom sprag board, lateral part backup pad and the reference column.

As an improvement of the utility model, an oblique support rod is arranged between the longitudinal buffer rod and the left and right buffer rods.

Based on above-mentioned scheme, the slant bracing piece is used for increasing the stability between vertical buffer beam and the left and right sides buffer beam.

Compared with the prior art, the beneficial effects of the utility model are that: first bolster and second buffering in this scheme cooperate, have improved vestibule support location structure's overall stability and security, have certain angle between the vertical buffer beam in the first bolster and the side buffer beam of controlling for the support comes from the pressure of top vestibule bottom plate, and the second bolster includes rubber pad and buffer spring, and buffer rubber pad transversely sets up the pressure between bottom sprag board, lateral part backup pad and reference column with buffer spring.

Drawings

Fig. 1 is a schematic view of the positioning structure of the present invention.

Fig. 2 is a schematic view of the structure of the middle buffer steel column of the present invention.

Fig. 3 is a schematic structural view of the second buffer member of the present invention.

List of reference symbols: 100-corridor plate, 101-positioning column, 102-second buffer piece, 103-bottom supporting plate, 104-buffer steel column, 105-oblique supporting rod, 106-left and right side buffer rods, 107-fixed backing plate, 108-positioning bolt, 109-side supporting plate, 110-buffer spring, 111-rubber pad, 112-buffer ball, 113-groove, 114-gap, 115-longitudinal buffer rod and 116-buffer cross rod.

Detailed Description

The present invention will be further elucidated with reference to the accompanying figures 1-3 and embodiments, it being understood that the following embodiments are only intended to illustrate the present invention and are not intended to limit the scope of the present invention.

Example (b): referring to fig. 1, a novel vestibule supporting and positioning structure, the positioning structure includes vestibule plate 100, reference column 101, bottom support plate 103, lateral support plate 109, first bolster and second bolster 102, vestibule plate 100 sets up on lateral support plate 109, the both sides of vestibule plate 100 set up to reference column 101, lateral support plate 109 is connected with reference column 101, bottom support plate 103 sets up in the bottom of lateral support plate 109 and a side position of reference column 101, second bolster 102 sets up between bottom support plate 103, lateral support plate 109 and reference column 101, first bolster sets up the bottom side at vestibule plate 100. In the positioning structure that this scheme provided, the stability of vestibule version can be improved to first bolster, and the impact force of bottom sprag plate 103, lateral part backup pad 109 and reference column 101 can be alleviated to second bolster 102, improves the stability between bottom sprag plate 103, lateral part backup pad 109 and reference column 101.

Further, the first buffer member includes a longitudinal buffer rod 115 and left and right buffer rods 106, the top of the longitudinal buffer rod 115 and the top of the left and right buffer rods 106 are fixed on the fixed pad 107 together, the bottom sides of the longitudinal buffer rod 115 and the left and right buffer rods 106 are connected to a buffer cross rod 116 at the bottom, two ends of the buffer cross rod 116 are connected to the side support plate 109 through the buffer steel column 104, and the end of the buffer cross rod 116 abuts against one side of the buffer steel column 104. A certain angle is formed between the longitudinal buffer rod 115 and the left and right buffer rods 106, the longitudinal buffer rod is used for supporting pressure from the upper corridor plate 100, the buffer steel column 104 relieves pressure from the buffer cross rod 116, when the buffer cross rod 116 moves left and right after being stressed, certain pressure is generated on the buffer steel column 104, and the buffer steel column 104 can absorb partial pressure to play a buffer role.

Referring to fig. 2, the damping steel column 104 is externally closed, and has a groove 113 inside, the groove 113 has a damping ball 112 inside, the damping ball 112 matches with the volume of the groove 113, and a gap 114 is provided between the damping ball 112 and the groove 113. When the buffer steel column 104 is subjected to external pressure, the buffer ball 112 moves back and forth inside the groove 113, so that a part of the external pressure can be offset, and a buffer effect is achieved. The radius of the buffer ball 112 is r, and the thickness d of the inner wall of the buffer steel column 104 is greater than r/2. The thickness of the inner wall of the buffer steel column 104 is larger than r/2, so that the impact influence of the internal buffer ball 112 on the buffer steel column 104 is ensured when the buffer steel column 104 is stressed. The bottom of the buffer steel column 104 is provided with positioning bolts 108. The buffer steel column 104 is limited and fixed on the upper part of the side support plate 109 by a positioning bolt 108.

Referring to fig. 3, the second cushion 102 includes a rubber pad 111 and a cushion spring 110, and the rubber pad 111 and the cushion spring 110 are transversely disposed between the bottom support plate 103, the side support plate 109 and the positioning column 101. The second cushion 102 is used for relieving the impact force between the bottom support plate 103, the side support plate 109 and the positioning column 101. An oblique support bar 105 is further disposed between the longitudinal buffer bar 115 and the left and right buffer bars 106. Diagonal support bar 105 is used to increase the stability between longitudinal bumper bar 115 and left and right side bumper bars 106.

It should be noted that the above only illustrates the technical idea of the present invention, and the protection scope of the present invention cannot be limited thereby, and it will be apparent to those skilled in the art that various modifications and decorations can be made without departing from the principle of the present invention, and all of these modifications and decorations fall within the protection scope of the claims of the present invention.

Claims (7)

1. The utility model provides a novel vestibule supports location structure, a serial communication port, location structure includes vestibule board (100), reference column (101), bottom sprag board (103), lateral part backup pad (109), first bolster and second bolster (102), vestibule board (100) set up on lateral part backup pad (109), the both sides of vestibule board (100) set up into reference column (101), lateral part backup pad (109) are connected with reference column (101), bottom sprag board (103) set up in one side position of the bottom of lateral part backup pad (109) and reference column (101), second bolster (102) set up in bottom sprag board (103), between lateral part backup pad (109) and reference column (101), first bolster sets up in vestibule board (100) bottom side.

2. The novel corridor supporting and positioning structure according to claim 1, wherein the first buffer member comprises a longitudinal buffer rod (115) and left and right buffer rods (106), the top of the longitudinal buffer rod (115) and the top of the left and right buffer rods (106) are jointly fixed on the fixed cushion plate (107), the bottom sides of the longitudinal buffer rod (115) and the left and right buffer rods (106) are connected to a buffer cross rod (116) at the bottom, two ends of the buffer cross rod (116) are connected to the side supporting plate (109) through buffer steel columns (104), and the end of the buffer cross rod (116) abuts against one side of the buffer steel columns (104).

3. A novel corridor supporting and positioning structure as claimed in claim 2, characterised in that the buffer steel column (104) is closed on the outside and has a groove (113) inside, the groove (113) has a buffer ball (112) inside, the buffer ball (112) matches with the volume of the groove (113), and a gap (114) is formed between the buffer ball (112) and the groove (113).

4. A novel vestibule support positioning structure as claimed in claim 3 wherein the radius of the damping sphere (112) is r and the thickness of the inner wall d of the damping steel post (104) is greater than r/2.

5. A novel corridor supporting and positioning structure as claimed in claim 3, wherein the bottom of the buffer steel column (104) is provided with positioning bolts (108) all around.

6. A novel corridor support location structure, according to claim 2, characterized in that the second buffer (102) includes rubber pads (111) and buffer springs (110), the rubber pads (111) and buffer springs (110) being laterally arranged between the location columns (101) and the side support plates (109).

7. A novel corridor support and location structure as claimed in claim 1, characterised in that an oblique support bar (105) is also provided between the longitudinal buffer bar (115) and the left and right buffer bars (106).

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