CN213508947U - Embedded part for electromechanical pipeline bracket installation based on BIM - Google Patents
Embedded part for electromechanical pipeline bracket installation based on BIM Download PDFInfo
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- CN213508947U CN213508947U CN202022267947.2U CN202022267947U CN213508947U CN 213508947 U CN213508947 U CN 213508947U CN 202022267947 U CN202022267947 U CN 202022267947U CN 213508947 U CN213508947 U CN 213508947U
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- Prior art keywords
- transmission
- bim
- groove
- block
- sliding
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- 238000009434 installation Methods 0.000 title claims description 11
- 230000005540 biological transmission Effects 0.000 claims description 51
- 229910000831 Steel Inorganic materials 0.000 claims description 11
- 239000010959 steel Substances 0.000 claims description 11
- 230000000694 effects Effects 0.000 description 2
- 229910001294 Reinforcing steel Inorganic materials 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 239000002184 metal Substances 0.000 description 1
- 238000003466 welding Methods 0.000 description 1
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Abstract
The utility model discloses an embedded part of electromechanical pipeline support mounting based on BIM relates to the electromechanical engineering field. This built-in fitting based on electromechanical pipeline support mounting of BIM, including two fixed strips and two support bars, a plurality of mounting holes that link up from top to bottom are seted up to the support bar, the spout has been seted up to the upper surface of fixed strip, two sliders of lower surface symmetry fixedly connected with of support bar, the dead slot has been seted up on the lateral wall of slider, and sliding connection has the stopper on the dead slot inner wall, a plurality of spacing holes have been seted up to the equidistance on the lateral wall of fixed strip, the stopper is pegged graft in one of them spacing hole, fixedly connected with telescopic shaft and first elastic component between the tip of stopper and the inner wall of slider, the stopper is provided with drive assembly. The embedded part for installing the electromechanical pipeline bracket based on the BIM can be installed and connected with electromechanical pipeline brackets with different sizes.
Description
Technical Field
The utility model relates to an electromechanical engineering technical field specifically is an embedded part of electromechanical pipeline support mounting based on BIM.
Background
The embedded part is a member which is pre-installed in hidden engineering, is a structural part which is installed during structure pouring and is used for overlapping when an upper structure is built, so that the installation and the fixation of an external engineering equipment foundation are facilitated, and the embedded part is mostly made of metal.
When the electromechanical pipeline support based on the BIM is installed, the support and the embedded part are generally fixedly connected through bolts, so that the support is effectively fixed, but the sizes of the pipeline supports are different, and the required threaded holes reserved by the embedded part are also different in distance, so that the embedded part for installing the electromechanical pipeline support based on the BIM is provided.
SUMMERY OF THE UTILITY MODEL
Technical problem to be solved
To prior art not enough, the utility model discloses an embedded part of electromechanical pipeline support installation based on BIM to solve the problem that proposes among the above-mentioned background art.
(II) technical scheme
In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a built-in fitting for electromechanical pipeline bracket installation based on BIM comprises two fixing strips and two supporting strips, wherein a plurality of built-in steel bars are welded on the lower surfaces of the fixing strips, a plurality of vertically-through installation holes are formed in the supporting strips, sliding grooves are formed in the upper surfaces of the fixing strips, two sliding blocks are symmetrically and fixedly connected to the lower surfaces of the supporting strips, and the two sliding blocks are respectively connected to the inner walls of the two sliding grooves in a sliding manner;
the side wall of the sliding block is provided with an empty groove, the inner wall of the empty groove is connected with a limiting block in a sliding mode, a plurality of limiting holes are formed in the side wall of the fixing strip at equal intervals and communicated with the sliding groove, the limiting block is inserted into one of the limiting holes, a telescopic shaft and a first elastic piece are fixedly connected between the end portion of the limiting block and the inner wall of the sliding block, the first elastic piece is sleeved on the outer surface of the telescopic shaft, and the limiting block is provided with a transmission assembly.
Preferably, the bottom end of the embedded steel bar is arranged to be hook-shaped.
Preferably, the inner wall of the sliding groove is provided with a positioning groove, the side wall of the sliding block is fixedly connected with a positioning block, and the positioning block is connected to the inner wall of the positioning groove in a sliding manner.
Preferably, transmission assembly includes the transmission piece, the cavity has been seted up between support bar and the slider, and the cavity is linked together with the dead slot, transmission piece sliding connection is in the cavity, the transmission groove that link up about the stopper is seted up, the inclined plane that inclination is the same has all been seted up to the notch department in transmission groove and the bottom of transmission piece, just the transmission piece sets up directly over transmission groove notch department.
Preferably, the top fixedly connected with connecting rod of transmission piece, the roof of support bar is passed and outside extension is passed on the top of connecting rod, the second elastic component has been cup jointed to the surface of connecting rod, the both ends of second elastic component fixed connection respectively are on the roof of cavity and the top of transmission piece.
Preferably, the height of the transmission block is greater than the depth of the transmission groove.
The utility model discloses an embedded part of electromechanical pipeline support installation based on BIM, its beneficial effect who possesses as follows:
1. this built-in fitting based on electromechanical pipeline support installation of BIM, through the transmission assembly who sets up, the stopper has been driven and has slided towards the inside of slider, break away from in one of them spacing hole, and compress first elastic component, promote the slider and slide in the spout, the support bar slides at the fixed strip upper surface simultaneously, remove suitable interval until two support bars, pass through transmission assembly this moment, make first elastic component bounce-back drive the stopper and remove outside the dead slot, and insert corresponding spacing hole, thereby effectual fixed action has been played to the position of support bar, cooperate a plurality of mounting holes at the support bar of seting up simultaneously, thereby can carry out erection joint with the electromechanical pipeline support of equidimension not.
2. This built-in fitting based on electromechanical pipeline support installation of BIM through locating piece and the constant head tank that sets up to avoided the slider to take place the condition that breaks away from the spout, set up to the crotch form through the bottom with embedded steel bar, thereby made the concrete play more effectual fixed effect to embedded steel bar.
Drawings
FIG. 1 is a schematic structural view of the present invention;
fig. 2 is an enlarged schematic view of a portion a of fig. 1 according to the present invention;
FIG. 3 is a schematic structural view of the junction between the supporting bar and the fixing bar of the present invention;
fig. 4 is an enlarged schematic view of a portion B in fig. 3 according to the present invention.
In the figure: 1. a fixing strip; 101. embedding reinforcing steel bars in advance; 102. a chute; 2. a supporting strip; 201. mounting holes; 202. a slider; 203. positioning a groove; 204. positioning blocks; 3. a limiting block; 301. a limiting hole; 302. a telescopic shaft; 303. a first elastic member; 4. a transmission block; 401. a transmission groove; 402. a connecting rod; 403. a second elastic member.
Detailed Description
The embodiment of the utility model discloses built-in fitting of electromechanical pipeline support installation based on BIM, as shown in fig. 1-4, including two fixed strips 1 and two support bars 2, the lower surface welding of fixed strip 1 has a plurality of embedded steel bars 101, support bar 2 has seted up a plurality of mounting holes 201 that link up from top to bottom, the upper surface of fixed strip 1 has seted up spout 102, the lower surface symmetry fixedly connected with two sliders 202 of support bar 2, and two sliders 202 are respectively connected on the inner wall of two spouts 102 in a sliding manner;
the side wall of the sliding block 202 is provided with a hollow groove, the inner wall of the hollow groove is connected with a limiting block 3 in a sliding manner, the side wall of the fixed strip 1 is provided with a plurality of limiting holes 301 at equal distances, the limiting holes 301 are communicated with the sliding groove 102, the limiting block 3 is inserted into one of the limiting holes 301, an expansion shaft 302 and a first elastic part 303 are fixedly connected between the end part of the limiting block 3 and the inner wall of the sliding block 202, the first elastic part 303 is sleeved on the outer surface of the expansion shaft 302, the limiting block 3 is provided with a transmission assembly, the limiting block 3 is driven to slide towards the inside of the sliding block 202 through the arranged transmission assembly, the limiting block 3 is separated from one of the limiting holes 301 and compresses the first elastic part 303, the sliding block 202 is pushed to slide in the sliding groove 102, meanwhile, the supporting bars 2 slide on the upper surface of the fixed strip 1 until the two supporting bars 2 move to a proper distance, at the moment, the transmission assembly enables the, and insert in the spacing hole 301 that corresponds to play effectual fixed action to the position of support bar 2, cooperate a plurality of mounting holes 201 that set up at support bar 2 simultaneously, thereby can carry out the erection joint with the electromechanical pipeline support of equidimension not.
The bottom of embedded steel bar 101 sets up to the crotch form, sets up the bottom through with embedded steel bar 101 to the crotch form to make the concrete play more effectual fixed effect to embedded steel bar 101.
The positioning groove 203 is formed in the inner wall of the sliding groove 102, the positioning block 204 is fixedly connected to the side wall of the sliding block 202, the positioning block 204 is connected to the inner wall of the positioning groove 203 in a sliding mode, and the sliding block 202 is prevented from being separated from the sliding groove 102 through the arranged positioning block 204 and the positioning groove 203.
The transmission assembly comprises a transmission block 4, a cavity is formed between the support bar 2 and the sliding block 202, the cavity is communicated with the empty groove, the transmission block 4 is connected in the cavity in a sliding mode, the limiting block 3 is provided with a transmission groove 401 which is communicated up and down, the inclined plane with the same inclination angle is formed in the groove opening of the transmission groove 401 and the bottom end of the transmission block 4, and the transmission block 4 is arranged right above the groove opening of the transmission groove 401.
The top fixedly connected with connecting rod 402 of driving block 4, the top of connecting rod 402 passes the roof of support bar 2 and extends to the external world, and second elastic component 403 has been cup jointed to the surface of connecting rod 402, and the both ends of second elastic component 403 fixed connection respectively are on the roof of cavity and the top of driving block 4.
The height of the transmission block 4 is greater than the depth of the transmission groove 401, so that the transmission block 4 cannot be separated from the cavity and completely slide into the transmission groove 401, and the phenomenon that the transmission block cannot enter the cavity is avoided.
The working principle is as follows: firstly, pouring the embedded steel bars 101 in concrete, when a pipeline support is installed, firstly, simultaneously pressing down two connecting rods 402 on the upper surface of one support bar 2, driving the transmission block 4 to move downwards by the downward movement of the connecting rods 402, driving the second elastic piece 403 to stretch, simultaneously, when the transmission block 4 slides downwards, the inclined surface at the bottom end of the transmission block 4 is contacted with the inclined surface of the notch of the transmission groove 401, and pressing the limiting block 3 to slide towards the inside of the sliding block 202, separating from one limiting hole 301, and compressing the first elastic piece 303, at the moment, pushing the sliding block 202 to slide in the sliding groove 102, and simultaneously, sliding the support bars 2 on the upper surface of the fixing bar 1 until the two support bars 2 move to a proper distance;
at this moment, the connecting rod 402 is loosened, the previously stretched second elastic piece 403 contracts, the transmission block 4 is driven to move upwards and is separated from the transmission groove 401, the previously compressed first elastic piece 303 rebounds, the limiting block 3 is driven to move outwards from the empty groove and is inserted into the corresponding limiting hole 301, so that the position of the supporting bar 2 is effectively fixed, and meanwhile, the connecting rod is matched with a plurality of mounting holes 201 formed in the supporting bar 2, so that the connecting rod can be mounted and connected with electromechanical pipeline supports of different sizes.
The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.
Claims (6)
1. The utility model provides an embedded part of electromechanical pipeline support installation based on BIM, includes two fixed strips (1) and two support bars (2), its characterized in that: the lower surface of the fixing strip (1) is welded with a plurality of embedded steel bars (101), the supporting strip (2) is provided with a plurality of vertically-through mounting holes (201), the upper surface of the fixing strip (1) is provided with sliding grooves (102), the lower surface of the supporting strip (2) is symmetrically and fixedly connected with two sliding blocks (202), and the two sliding blocks (202) are respectively connected to the inner walls of the two sliding grooves (102) in a sliding manner;
the utility model discloses a fixing device for the sliding block, including slider (202), stopper (3), spacing hole (301), a plurality of spacing holes (301), and a plurality of spacing holes (301) are linked together with spout (102), stopper (3) are pegged graft in one of them spacing hole (301), fixedly connected with telescopic shaft (302) and first elastic component (303) between the tip of stopper (3) and the inner wall of slider (202), just first elastic component (303) cup joint the surface at telescopic shaft (302), stopper (3) are provided with drive assembly.
2. The BIM-based electromechanical pipeline racked embedment of claim 1, wherein: the bottom end of the embedded steel bar (101) is arranged to be hook-shaped.
3. The BIM-based electromechanical pipeline racked embedment of claim 1, wherein: a positioning groove (203) is formed in the inner wall of the sliding groove (102), a positioning block (204) is fixedly connected to the side wall of the sliding block (202), and the positioning block (204) is connected to the inner wall of the positioning groove (203) in a sliding mode.
4. The BIM-based electromechanical pipeline racked embedment of claim 1, wherein: the transmission assembly comprises a transmission block (4), a cavity is formed between a support bar (2) and a sliding block (202), the cavity is communicated with the empty groove, the transmission block (4) is connected in the cavity in a sliding mode, a transmission groove (401) which is communicated with the cavity from top to bottom is formed in a limiting block (3), the inclined plane with the same inclination angle is formed in the groove opening of the transmission groove (401) and the bottom end of the transmission block (4), and the transmission block (4) is arranged right above the groove opening of the transmission groove (401).
5. The BIM-based electromechanical pipeline racked embedment of claim 4, wherein: the top fixedly connected with connecting rod (402) of transmission piece (4), the roof of support bar (2) is passed and outside extension is passed on the top of connecting rod (402), second elastic component (403) have been cup jointed to the surface of connecting rod (402), the both ends of second elastic component (403) fixed connection respectively are on the roof of cavity and the top of transmission piece (4).
6. The BIM-based electromechanical pipeline racked embedment of claim 4, wherein: the height of the transmission block (4) is greater than the depth of the transmission groove (401).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202022267947.2U CN213508947U (en) | 2020-10-13 | 2020-10-13 | Embedded part for electromechanical pipeline bracket installation based on BIM |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202022267947.2U CN213508947U (en) | 2020-10-13 | 2020-10-13 | Embedded part for electromechanical pipeline bracket installation based on BIM |
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CN213508947U true CN213508947U (en) | 2021-06-22 |
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CN202022267947.2U Expired - Fee Related CN213508947U (en) | 2020-10-13 | 2020-10-13 | Embedded part for electromechanical pipeline bracket installation based on BIM |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113266081A (en) * | 2021-07-01 | 2021-08-17 | 温州神光建设工程有限公司 | Environment-friendly civil construction pre-buried construction structure |
-
2020
- 2020-10-13 CN CN202022267947.2U patent/CN213508947U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113266081A (en) * | 2021-07-01 | 2021-08-17 | 温州神光建设工程有限公司 | Environment-friendly civil construction pre-buried construction structure |
CN113266081B (en) * | 2021-07-01 | 2022-07-29 | 温州神光建设工程有限公司 | Environment-friendly civil construction pre-buried construction structure |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20210622 |
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CF01 | Termination of patent right due to non-payment of annual fee |