CN216590286U - Overhead anti-collision device of heating power pipeline - Google Patents
Overhead anti-collision device of heating power pipeline Download PDFInfo
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- CN216590286U CN216590286U CN202123178463.1U CN202123178463U CN216590286U CN 216590286 U CN216590286 U CN 216590286U CN 202123178463 U CN202123178463 U CN 202123178463U CN 216590286 U CN216590286 U CN 216590286U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
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- Y02A30/30—Adapting or protecting infrastructure or their operation in transportation, e.g. on roads, waterways or railways
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Abstract
The utility model discloses an overhead anti-collision device of a heating power pipeline, which comprises a support column, an anti-collision unit, a connecting unit, a pipeline platform and a ground mounting plate, wherein the support column is arranged on the upper surface of the support column; according to the utility model, the contact area of the support post and the ground can be increased through the ground mounting plate, so that the support post can bear larger gravity, the ground mounting plate can be connected with the ground through the ground hole by using the ground nail, the support post is protected by the anti-collision plate, the support post is prevented from being damaged due to collision at the first time, the spring is fixed by the spring sleeve, the general compression direction of the spring is limited at the same time, the damage caused by ejection of the spring at four places after collision is prevented, and the force of a part of the anti-collision plate is removed after the anti-collision plate is collided by the spring, so that the damage of the support post due to overlarge stress is prevented.
Description
Technical Field
The utility model relates to the technical field of thermal engineering, in particular to an overhead anti-collision device for a thermal pipeline.
Background
Along with the increase year by year of heat supply network heating area, more and more heating power pipeline is laid, some are not suitable for the place of carrying out the buried pipe, constructor adopts the method of elevating the heating power pipeline to lay, can use the support of elevating to elevate when the heating power pipeline is elevated, present support of elevating is all simple a metal or concrete pillar usually, carry out heating power pipeline's fixed at its top, simple pillar can produce certain deformation if suffer the promotion of external force such as striking, thereby drive heating power pipeline and carry out the displacement, heating power pipeline network is longer pipeline line, a pipeline carries out unpredictable displacement, will lead to the fact serious consequence to whole pipeline line.
SUMMERY OF THE UTILITY MODEL
In view of the problems in the prior art, the utility model discloses an overhead anti-collision device of a heating power pipeline, which adopts the technical scheme that the overhead anti-collision device comprises a support column, an anti-collision unit, a connecting unit, a pipeline platform and a ground mounting plate; the anti-collision unit is arranged on the side surface of the strut; the pipeline table is installed on the top end of the strut through a connecting unit; the ground mounting panel is rectangle platelike structure, the upper surface center department fixed mounting of ground mounting panel is on the lower extreme of pillar, the ground connection hole has been seted up to the surperficial four corners department of ground mounting panel, can increase the area of contact of pillar and ground through the ground mounting panel, makes the pillar can bear bigger gravity, can use the ground nail to link to each other ground mounting panel with the ground through the ground connection hole.
As a preferred technical scheme of the overhead anti-collision device of the heat distribution pipeline, the anti-collision unit comprises twelve spring sleeves, anti-collision plates and buffer springs, wherein twelve spring sleeves are symmetrically and uniformly arranged on the front, rear, left and right four surfaces of a strut from top to bottom, twelve buffer springs are arranged, the inner ends of twelve buffer springs are respectively and fixedly arranged in the twelve spring sleeves, the anti-collision plates are of arc-shaped plate structures and four anti-collision plates are arranged on the front, rear, left and right four surfaces of the strut symmetrically, the inner side surfaces of the four anti-collision plates are respectively connected with the corresponding buffer springs, the strut is protected by the anti-collision plates, the strut is prevented from being damaged due to collision at the first time, the springs are fixed by the spring sleeves, and the general compression direction of the springs is limited at the same time, the spring is prevented from being damaged by ejection at four positions after being impacted, and the force of a part of the anti-collision plate can be removed after the anti-collision plate is impacted through the spring, so that the strut is prevented from being damaged due to overlarge stress.
According to the optimal technical scheme of the overhead anti-collision device for the heat distribution pipeline, the connecting unit comprises a plurality of connecting seats and a plurality of connecting sleeves, the connecting seats are cylinders with hollow interiors and openings at the upper parts, the outer ends of the connecting sleeves are uniformly and fixedly arranged on the inner side surfaces of the connecting seats respectively, the inner ends of the connecting sleeves face the inner circle center of the connecting seats, the movable positions of the displacement columns are limited through the connecting seats, and the positions of the damping springs are limited through the connecting sleeves.
As a preferred technical scheme of the overhead anti-collision device of the thermal power pipeline, the pipeline platform comprises a displacement column, a bearing plate, mounting holes and damping springs, the displacement column is cylindrical, the lower end of the displacement column is arranged at the inner center of the connecting seat, the outer side surface of the displacement column is a certain distance away from the inner end of the connecting sleeve, the number of the damping springs is corresponding to the number of the connecting sleeve, the inner end of the damping spring is fixedly arranged in the connecting sleeve, the outer end of the damping spring is fixedly arranged on the lower side surface of the displacement column, the center of the lower surface of the bearing plate is fixedly arranged on the upper end of the displacement column, the left end and the right end of the surface of the bearing plate are provided with the mounting holes, the thermal power pipeline needing to be erected is arranged through the bearing plate, and the movable connection between the displacement column and the connecting seat can be formed through the damping springs, the support column can not drive the heat distribution pipeline to move when slightly moving, so that the heat distribution pipeline is protected from being damaged.
According to the optimal technical scheme of the overhead anti-collision device for the heat distribution pipeline, the reflecting strips are uniformly and fixedly arranged on the outer surface of the anti-collision plate, and can reflect light at night to play a warning role.
The preferable technical scheme of the overhead anti-collision device for the heat distribution pipeline further comprises a fixing sheet, the fixing sheet is of an inverted U-shaped flexible aluminum plate structure, connecting holes corresponding to the mounting holes are formed in the left end and the right end of the fixing sheet, and the heat distribution pipeline can be fixed to the bearing plate through the fixing sheet.
The preferable technical scheme of the overhead anti-collision device for the heat distribution pipeline further comprises a buried column, the upper part of the buried column is of a cylindrical structure, the lower end of the cylindrical structure is of a disc-shaped structure, the diameter of the disc-shaped structure is larger than that of the disc-shaped structure, the upper end of the buried column is fixedly installed in the center of the lower surface of the ground installation plate, and the buried column is buried in the ground, so that a support column can be more stable.
The utility model has the beneficial effects that: the utility model can increase the contact area of the strut and the ground through the ground mounting plate, so that the strut can bear larger gravity, the ground mounting plate can be connected with the ground through the grounding hole by using the ground nail, the strut is protected by the anti-collision plate, the strut is prevented from being damaged by collision at the first time, the spring is fixed by the spring sleeve, the general compression direction of the spring is limited at the same time, the damage caused by ejection of the spring at four places after collision is prevented, the spring can remove part of the force of the anti-collision plate after the anti-collision plate is collided, the damage caused by overlarge stress of the strut is prevented, the movable position of the displacement column is limited by the connecting seat, the position of the damping spring is limited by the connecting sleeve, the thermal pipeline needing to be elevated is placed by the bearing plate, the displacement column and the connecting seat can form movable connection through the damping spring, and the strut can not drive the thermal pipeline to displace when slightly displacing, thereby protection heating power pipeline can not receive the damage, can reflect light when evening through reflection of light strip and play the effect of warning, the flexible aluminum plate structure of stationary blade for the type of falling U form, set up the connecting hole corresponding with the mounting hole on both ends about the stationary blade, can be fixed heating power pipeline to the loading board through the stationary blade, through burying the ground post in, can make the more firm of pillar.
Drawings
FIG. 1 is a schematic view of the structure of the present invention;
FIG. 2 is a front view of the present invention;
FIG. 3 is a schematic cross-sectional view of a bump protection unit according to the present invention;
FIG. 4 is a schematic view of a connecting unit according to the present invention;
fig. 5 is a schematic structural diagram of the conduit platform of the present invention.
In the figure: the anti-collision device comprises a support 1, a collision unit 2, a spring sleeve 21, an anti-collision plate 22, a buffer spring 23, a connecting unit 3, a connecting seat 31, a connecting sleeve 32, a pipeline table 4, a displacement column 41, a bearing plate 42, a mounting hole 43, a damping spring 44, a fixing plate 5, a ground mounting plate 6, a ground hole 601, a buried column 7 and a reflective strip 8.
Detailed Description
Example 1
As shown in fig. 1 to 5, the utility model discloses an overhead anti-collision device for a heat distribution pipeline, which adopts the technical scheme that the overhead anti-collision device comprises a support column 1, an anti-collision unit 2, a connecting unit 3, a pipeline table 4 and a ground mounting plate 6; the anti-collision unit 2 is arranged on the side surface of the pillar 1; the pipeline table 4 is installed on the top end of the strut 1 through the connecting unit 3; the ground mounting plate 6 is a rectangular plate-shaped structure, the upper surface center of the ground mounting plate 6 is fixedly mounted at the lower end of the pillar 1, the four corners of the surface of the ground mounting plate 6 are provided with grounding holes 601, the contact area between the pillar 1 and the ground can be increased through the ground mounting plate 6, the pillar 1 can bear larger gravity, the ground mounting plate 6 can be connected with the ground through the grounding holes 601 by using ground nails, the ground mounting plate further comprises a buried pillar 7, the upper part of the buried pillar 7 is a disc-shaped structure with the diameter of the lower cylindrical end larger than that of the upper part, the upper end of the buried pillar 7 is fixedly mounted at the lower surface center of the ground mounting plate 6, the pillar 1 can be more stable by burying the buried pillar 7 into the ground, a pit which can just bury the buried pillar 7 in the ground can be dug according to engineering requirements, and then the buried pillar 7 is placed into the pit, backfilling fixes the buried column 7, so as to ensure that the ground mounting plate 6 is in contact with the ground, and then hammering the ground into the ground from the ground hole 601 by using a ground nail to connect the ground mounting plate 6 with the ground.
As a preferred technical solution of the overhead anti-collision device for a heat distribution pipeline of the present invention, the anti-collision unit 2 includes two spring sleeves 21, anti-collision plates 22 and buffer springs 23, where twelve spring sleeves 21 are provided, every three of twelve spring sleeves 21 are respectively symmetrically and uniformly fixed on the front, rear, left, and right four surfaces of the strut 1 from top to bottom, twelve buffer springs 23 are provided, inner ends of twelve buffer springs 23 are respectively and fixedly installed in the twelve spring sleeves 21, the anti-collision plates 22 are in an arc-shaped plate structure, four anti-collision plates 22 are provided, four anti-collision plates 22 are respectively and symmetrically located on the front, rear, left, and right four surfaces of the strut 1, inner side surfaces of the four anti-collision plates 22 are respectively connected with the corresponding buffer springs 23, the strut 1 is protected by the anti-collision plates 22, the strut 1 is prevented from being damaged by a collision at the first time, the springs 23 are fixed by the spring sleeves 21, the general compression direction of the spring 23 is limited, the spring 23 is prevented from being ejected to cause injury after being impacted, the spring 23 can enable the anti-collision plate 22 to be impacted, part of the force of the anti-collision plate 22 is removed, the strut 1 is prevented from being damaged due to overlarge stress, the reflecting strips 8 are uniformly and fixedly mounted on the outer surface of the anti-collision plate 22, the reflecting strips 8 can reflect light at night to play a warning role, when external force impacts, the anti-collision plate 22 can be contacted with the external force at the first time, the buffer spring 23 is pushed to be compressed and deformed in the spring sleeve 21, so that the external force contacted with the anti-collision plate 22 is removed, the strut 1 is protected, and the strut 1 is prevented from displacing greatly.
As a preferred technical solution of the overhead anti-collision device for a heat distribution pipeline of the present invention, the connection unit 3 includes a connection seat 31 and a plurality of connection sleeves 32, the connection seat 31 is a cylinder with a hollow interior and an open upper portion, the number of the connection sleeves 32 is several, the outer ends of the plurality of connection sleeves 32 are respectively and uniformly fixed on the inner side surface of the connection seat 31, the inner end of the connection sleeve 32 faces the inner circle center of the connection seat 31, the movable position of the displacement column 41 is limited by the connection seat 31, and the position of the damping spring 44 is limited by the connection sleeve 32.
As a preferred technical solution of the overhead anti-collision device for a heat distribution pipeline of the present invention, the pipeline stage 4 includes a displacement column 41, a bearing plate 42, a mounting hole 43 and a damping spring 44, the displacement column 41 is cylindrical, the lower end of the displacement column 41 is disposed at the inner center of the connecting seat 31, the outer side surface of the displacement column 41 has a certain distance from the inner end of the connecting sleeve 32, the number of the damping spring 44 corresponds to the number of the connecting sleeve 32, the inner end of the damping spring 44 is fixedly mounted in the connecting sleeve 32, the outer end of the damping spring 44 is fixedly mounted on the lower side surface of the displacement column 41, the center of the lower surface of the bearing plate 42 is fixedly mounted on the upper end of the displacement column 41, the left and right ends of the surface of the bearing plate 42 are provided with the mounting hole 43, a heat distribution pipeline to be erected is disposed through the bearing plate 42, the damping spring 44 can form a movable connection between the displacement column 41 and the connecting seat 31, can make pillar 1 can not drive heating power pipeline when slight displacement and carry out the displacement to protection heating power pipeline can not receive the damage, still include stationary blade 5, stationary blade 5 is the soft aluminum plate structure of the type of falling U form, set up the connecting hole corresponding with mounting hole 43 on both ends about stationary blade 5, can be fixed heating power pipeline to loading board 42 on through stationary blade 5, the heating power pipeline that will need the frame height places loading board 42 on, detain stationary blade 5 on heating power pipeline, use screw nut to be connected loading board 42 and stationary blade 5 to fix heating power pipeline, when anticollision unit 2 unloads the insufficient pillar 1 of power and still receives the displacement, damping spring 44 compresses the shock attenuation in connecting sleeve 32, and displacement post 41 is located in connecting seat 31, guarantees that heating power pipeline can not carry out a large amount of displacements and damages.
The working principle of the utility model is as follows: according to the engineering requirement, a pit which can just bury the buried column 7 is dug on the ground, then the buried column 7 is placed in the pit, the buried column 7 is backfilled and fixed, the ground mounting plate 6 is ensured to be contacted with the ground, then a ground nail is used for pounding the ground from the ground hole 601, the ground mounting plate 6 is connected with the ground, a heat pipeline to be erected is placed on the bearing plate 42, the fixing plate 5 is buckled on the heat pipeline, the bearing plate 42 is connected with the fixing plate 5 by using a screw nut, so that the heat pipeline is fixed, when external force is impacted, the anti-collision plate 22 can be contacted with the external force at the first time, the buffer spring 23 is pushed in the spring sleeve 21 to be compressed and deformed, so as to unload the external force contacted with the anti-collision plate 22, protect the strut 1, prevent the strut 1 from being displaced in a large amount, when the anti-collision unit 2 is not fully unloaded, and the strut 1 is still displaced, the damping spring 44 compresses and damps the connection sleeve 32, and the displacement column 41 is located in the connection seat 31, so that the thermal pipeline is not damaged due to large displacement.
Components not described in detail herein are prior art.
Although the present invention has been described in detail with reference to the specific embodiments, the present invention is not limited to the above embodiments, and various changes and modifications without inventive changes may be made within the knowledge of those skilled in the art without departing from the spirit of the present invention.
Claims (7)
1. An overhead anti-collision device of a heat distribution pipeline is characterized by comprising a strut (1), an anti-collision unit (2), a connecting unit (3), a pipeline platform (4) and a ground mounting plate (6); the anti-collision unit (2) is arranged on the side surface of the strut (1); the pipeline table (4) is arranged on the top end of the strut (1) through the connecting unit (3); ground mounting panel (6) are rectangle platelike structure, the upper surface center department fixed mounting of ground mounting panel (6) is on the lower extreme of pillar (1), ground connection hole (601) have been seted up to the surperficial four corners department of ground mounting panel (6).
2. An overhead collision avoidance device for a thermal pipeline according to claim 1, wherein: anticollision unit (2) contain spring sleeve (21), crashproof board (22) and buffer spring (23), spring sleeve (21) have twelve, and twelve spring sleeve (21) are every three be a set of from last to down respectively the even fixed mounting of symmetry on pillar (1) all around, buffer spring (23) have twelve, and the inner of twelve buffer spring (23) is fixed mounting respectively in twelve spring sleeve (21), crashproof board (22) are arc platelike structure, crashproof board (22) have four, and four crashproof board (22) are symmetrical all around of pillar (1) department respectively, and the medial surface of four crashproof boards (22) is connected with corresponding buffer spring (23) respectively.
3. An overhead collision avoidance device for a thermal pipeline according to claim 2, wherein: the connecting unit (3) comprises a connecting seat (31) and a connecting sleeve (32), the connecting seat (31) is a cylinder with an opening at the upper part of the hollow part, the connecting sleeve (32) is provided with a plurality of outer ends, the outer ends of the connecting sleeves (32) are respectively and uniformly fixedly installed on the inner side surface of the connecting seat (31), and the inner end of the connecting sleeve (32) faces to the inner circle center of the connecting seat (31).
4. An overhead collision avoidance device for a thermal pipeline according to claim 3, wherein: the pipeline table (4) comprises a displacement column (41), a bearing plate (42), mounting holes (43) and damping springs (44), the displacement column (41) is cylindrical, the lower end of the displacement column (41) is placed in the center of the interior of the connecting seat (31), a certain distance exists between the outer side face of the displacement column (41) and the inner end of the connecting sleeve (32), the number of the damping springs (44) corresponds to the number of the connecting sleeve (32), the inner ends of the damping springs (44) are fixedly mounted in the connecting sleeve (32), the outer ends of the damping springs (44) are fixedly mounted on the side face of the lower portion of the displacement column (41), the center of the lower surface of the bearing plate (42) is fixedly mounted on the upper end of the displacement column (41), and the left end and the right end of the surface of the bearing plate (42) are provided with the mounting holes (43).
5. An overhead collision avoidance device for a thermal pipeline according to claim 4, wherein: and the outer surface of the anti-collision plate (22) is uniformly and fixedly provided with the light reflecting strips (8).
6. An overhead collision avoidance device for a thermal pipeline according to claim 5, wherein: still include stationary blade (5), soft aluminum plate structure of stationary blade (5) for the shape of falling U type, seted up the connecting hole corresponding with mounting hole (43) on both ends about stationary blade (5).
7. An overhead collision avoidance device for a thermal pipeline according to claim 6, wherein: still including burying ground post (7), the upper portion of burying ground post (7) is cylindric lower extreme and is greater than the disk column structure on upper portion for the diameter, bury the upper end fixed mounting of ground post (7) and locate at the lower surface center of ground mounting panel (6).
Priority Applications (1)
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CN202123178463.1U CN216590286U (en) | 2021-12-18 | 2021-12-18 | Overhead anti-collision device of heating power pipeline |
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CN202123178463.1U CN216590286U (en) | 2021-12-18 | 2021-12-18 | Overhead anti-collision device of heating power pipeline |
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CN216590286U true CN216590286U (en) | 2022-05-24 |
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CN202123178463.1U Active CN216590286U (en) | 2021-12-18 | 2021-12-18 | Overhead anti-collision device of heating power pipeline |
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