CN107461549B - Boiler pipeline supporting device - Google Patents
Boiler pipeline supporting device Download PDFInfo
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- CN107461549B CN107461549B CN201710839871.6A CN201710839871A CN107461549B CN 107461549 B CN107461549 B CN 107461549B CN 201710839871 A CN201710839871 A CN 201710839871A CN 107461549 B CN107461549 B CN 107461549B
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- support
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- transverse support
- rotating block
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16L—PIPES; JOINTS OR FITTINGS FOR PIPES; SUPPORTS FOR PIPES, CABLES OR PROTECTIVE TUBING; MEANS FOR THERMAL INSULATION IN GENERAL
- F16L3/00—Supports for pipes, cables or protective tubing, e.g. hangers, holders, clamps, cleats, clips, brackets
- F16L3/01—Supports for pipes, cables or protective tubing, e.g. hangers, holders, clamps, cleats, clips, brackets for supporting or guiding the pipes, cables or protective tubing, between relatively movable points, e.g. movable channels
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- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Seeds, Soups, And Other Foods (AREA)
- Supports For Pipes And Cables (AREA)
Abstract
Boiler pipeline strutting arrangement, its characterized in that: the device comprises a movable chassis (1), a main bracket (2), an auxiliary bracket (3) and a transverse bracket (10) which supports a pipeline at the bottom when in use; the device utilizes to remove chassis walking to assigned position, then fixes temporarily, later carries out the bearing to the pipeline through violently holding in the palm, after the use, lifts violently holding in the palm, then walks to move chassis to next operating point, and its operation is succinct, and repeatedly usable uses, uses manpower sparingly material resources financial resources greatly, does benefit to popularization and application.
Description
Technical Field
The invention relates to a boiler pipeline supporting device.
Background
Boiler pipe way has a part to expose outside, and these pipelines are the diameter very big a bit, when the junction of two pipelines is connected or when maintaining like this, just need carry out the bearing with two sections pipelines, then connect or maintain, present bearing is generally the mode of putting up the frame in artifical scene or the crane is hanging and is carrying out the bearing, these two kinds of modes not only waste time and energy and influence the construction progress, and simultaneously, consume a lot of manpower and materials, also can increase a lot of costs intangible, and the frame of putting up on the scene can not used repeatedly.
Disclosure of Invention
The purpose of the invention is as follows: the invention provides a boiler pipeline supporting device, and aims to solve the problems in the prior art.
The technical scheme is as follows:
boiler pipeline strutting arrangement, its characterized in that: the device comprises a movable chassis 1, a main bracket 2, an auxiliary bracket 3 and a transverse bracket 10 which supports a pipeline at the bottom when in use; four isosceles triangle rotating blocks, namely two front triangle rotating blocks 4 and two rear triangle rotating blocks 5 are arranged on a moving chassis 1, the four isosceles triangle rotating blocks are respectively arranged at two sides of the moving chassis 1, the two front triangle rotating blocks 4 are bilaterally symmetrical relative to the advancing direction of the moving chassis 1, namely the arrow direction in fig. 1, the two rear triangle rotating blocks 5 are also bilaterally symmetrical relative to the advancing direction of the moving chassis 1, the vertex angles of the four isosceles triangle rotating blocks are sleeved on a transverse shaft 6 at two sides of the moving chassis 1 and can rotate around the transverse shaft 6, and the rotating directions of the front triangle rotating blocks 4 and the rear triangle rotating blocks 5 are opposite;
a limit chute 7 in the same direction as the edge opposite to the vertex angle of the triangular rotating block is arranged on the edge;
a limiting column 8 is arranged at the lower part of the main support 2, the limiting column 8 extends into a limiting chute 7 of the front triangular rotating block 4 and can move along the limiting chute 7, when the main support 2 moves backwards, namely in the direction opposite to the advancing direction, passes through the middle point of the limiting chute 7, then the front triangular rotating block 4 rotates backwards under the action of lower pressure, namely clockwise in the figure 1, until the main support 2 abuts against the ground to limit the movement of a roller 9 at the bottom of the moving chassis 1; when the main support 2 moves upwards and forwards, the front triangular rotating block 4 rotates forwards, when the limiting post 8 reaches the front end of the limiting chute 7, the front triangular rotating block 4 rotates and is locked, at the moment, the upper surface of the side corresponding to the vertex angle of the front triangular rotating block 4 is in a state of being parallel to the surface of the movable chassis 1, and at the moment, the bottom end of the main support 2 is higher than the roller 9; so as not to hinder the rotation of the roller 9;
a vertical sliding hole is formed in the upper portion of the main support 2, one end of the transverse support 10 extends into the vertical sliding hole and can move up and down along the vertical sliding hole, the transverse support 10 and the main support 2 form a right-angle included angle, the upper end of the transverse support 10 is connected with a lifting spring 11, the upper end of the lifting spring 11 is connected with the inner wall of the upper end of the vertical sliding hole, the lower end of the lifting spring 11 is connected with the transverse support 10, and the force for lifting the transverse support 10 upwards is always kept;
the lower part of the auxiliary bracket 3 is also provided with a limiting column, the limiting column extends into a limiting chute of the rear triangular rotating block 5 and can move along the limiting chute, when the auxiliary bracket 3 moves forwards, namely in the same direction with the advancing direction, passes through the middle point of the limiting chute 7, then the rear triangular rotating block 5 rotates forwards under the action of lower pressure, namely in the anticlockwise direction in the figure 1, until the auxiliary bracket 3 abuts against the ground to limit the movement of the roller 9 at the bottom of the mobile chassis 1; when the auxiliary bracket 3 moves upwards and backwards, the rear triangular rotating block 5 rotates backwards, when the limiting column 8 reaches the rear end of the limiting sliding groove 7 of the rear triangular rotating block 5, the rear triangular rotating block 5 rotates and is locked, at the moment, the upper surface of the edge corresponding to the vertex angle of the rear triangular rotating block 5 is in a state of being parallel to the surface of the movable chassis 1, and at the moment, the bottom end of the auxiliary bracket 3 is higher than the roller 9; so as not to hinder the rotation of the roller 9;
the upper end of the auxiliary support 3 is provided with a reinforcing transverse support 12, the reinforcing transverse support 12 is perpendicular to the auxiliary support 3, and when the auxiliary support 3 falls to the top ground surface of the bottom end, the reinforcing transverse support 12 extends to the bottom of the transverse support 10 to support the transverse support 10.
When the main bracket 2 is propped against the ground, the adjusting distance is still left between the limiting column 8 and the rear end of the limiting chute 7. So that when uneven ground is met, the bottom of the main bracket 2 can be extended deeper;
when the bottom end of the auxiliary bracket 3 is propped against the ground, the adjusting distance is still reserved between the limiting column 8 of the auxiliary bracket 3 and the rear end of the limiting sliding groove 7. So that when uneven ground is encountered, the bottom of the auxiliary bracket 3 can be extended deeper;
the transverse support 10 is a slope structure which is inclined downwards from the rear end to the front. So that the cross brace 10 can be more easily inserted into the bottom of the pipeline and pressed down on the main brace 2 as it gradually enters the bottom of the pipeline.
An auxiliary upright rod 14 is arranged at the upper end of the auxiliary support 3, a lifting upright rod 13 with external threads is inserted at the top end of the auxiliary upright rod 14, the lifting upright rod 13 is inserted into the auxiliary upright rod 14 and can move up and down relative to the auxiliary upright rod 14, the lifting upright rod 13 is connected with the reinforcing cross support 12 and forms a right angle with the reinforcing cross support, a nut plate 15 with internal threads is sleeved at the upper end of the auxiliary upright rod 14, the nut plate 15 is in threaded fit with the lifting upright rod 13, and the lifting of the lifting upright rod 13 is controlled through the rotation of the nut plate 15. I.e. the nut is only able to rotate on its own axis and is axially constrained from moving with respect to the secondary upright 14.
The front end of the movable chassis 1 is provided with a rotary auxiliary reinforcing rod 16, the top end of the rotary auxiliary reinforcing rod 16 is provided with an elastic ball 17, the bottom end of the rotary auxiliary reinforcing rod 16 is arranged on the movable chassis 1 through a rotating shaft, the rotary auxiliary reinforcing rod 16 can rotate around the rotating shaft, the rotary auxiliary reinforcing rod 16 is provided with a rotary hook 18, the rotary hook 18 is hooked on a locking movable column 19 on the side surface of the transverse support 10 through rotation when in use, the locking movable column 19 is of a structure capable of moving back and forth along a transverse sliding groove 21 on the side surface of the transverse support 10, the locking movable column 19 is connected with a movable sleeve 20 inside the transverse support 10, the movable sleeve 20 is sleeved on an adjusting bolt 22 inside the transverse support 10, the back and forth movement of the limiting column 8 is controlled through the rotation of the adjusting bolt 22, the adjusting bolt 22 only can rotate, and the axial distance of the adjusting bolt is unchanged.
The lower part of the main support 2 is a threaded telescopic rod structure, the telescopic rod is controlled to stretch by the rotation of a nut, and the structure is the same as the lifting principle of the lifting upright rod 13. The position of the nut for controlling the extension of the threaded telescopic rod of the main bracket 2 is between the transverse support 10 and the limiting column 8.
The advantages and effects are as follows:
the invention provides a boiler pipeline supporting device, which is characterized in that a movable chassis is used for walking to a designated position, then is temporarily fixed, then supports a pipeline through a transverse support, and after the use is finished, the transverse support is detached, and then the movable chassis is pushed to a next working point.
Drawings
FIG. 1 is a schematic diagram of the overall structure of the invention;
FIG. 2 is an enlarged view of a portion of the position of the adjustment bolt;
FIG. 3 is a front view of the main support;
fig. 4 is a front view of the sub-mount.
Detailed Description
The invention is described in detail below with reference to the accompanying drawings:
boiler pipeline strutting arrangement, its characterized in that: the device comprises a movable chassis 1, a main bracket 2, an auxiliary bracket 3 and a transverse bracket 10 which supports a pipeline at the bottom when in use; four isosceles triangle rotating blocks, namely two front triangle rotating blocks 4 and two rear triangle rotating blocks 5 are arranged on a moving chassis 1, the four isosceles triangle rotating blocks are respectively arranged at two sides of the moving chassis 1, the two front triangle rotating blocks 4 are bilaterally symmetrical relative to the advancing direction of the moving chassis 1, namely the arrow direction in fig. 1, the two rear triangle rotating blocks 5 are also bilaterally symmetrical relative to the advancing direction of the moving chassis 1, the vertex angles of the four isosceles triangle rotating blocks are sleeved on a transverse shaft 6 at two sides of the moving chassis 1 and can rotate around the transverse shaft 6, and the rotating directions of the front triangle rotating blocks 4 and the rear triangle rotating blocks 5 are opposite;
a limit chute 7 which is consistent with the direction of the side is arranged on the side opposite to the vertex angle of the triangular rotating block;
a limiting column 8 is arranged at the lower part of the main support 2, the limiting column 8 extends into a limiting chute 7 of the front triangular rotating block 4 and can move along the limiting chute 7, when the main support 2 moves backwards, namely in the direction opposite to the advancing direction, passes through the middle point of the limiting chute 7, then the front triangular rotating block 4 rotates backwards under the action of lower pressure, namely clockwise in the figure 1, until the main support 2 abuts against the ground to limit the movement of a roller 9 at the bottom of the moving chassis 1; when the main support 2 moves upwards and forwards, the front triangular rotating block 4 rotates forwards, when the limiting column 8 reaches the front end of the limiting sliding chute 7, the front triangular rotating block 4 rotates and is locked, at the moment, the upper surface of the side corresponding to the vertex angle of the front triangular rotating block 4 is in a state of being parallel to the surface of the moving chassis 1, and at the moment, the bottom end of the main support 2 is higher than the roller 9; so as not to hinder the rotation of the roller 9;
a vertical sliding hole 23 is formed in the upper portion of the main support 2, one end of the transverse support 10 extends into the vertical sliding hole and can move up and down along the vertical sliding hole, the transverse support 10 and the main support 2 form a right-angle included angle, the upper end of the transverse support 10 is connected with a lifting spring 11, the upper end of the lifting spring 11 is connected with the inner wall of the upper end of the vertical sliding hole, the lower end of the lifting spring 11 is connected with the transverse support 10, and the force for lifting the transverse support 10 upwards is always kept;
the lower part of the auxiliary bracket 3 is also provided with a limiting column, the limiting column extends into a limiting chute of the rear triangular rotating block 5 and can move along the limiting chute, when the auxiliary bracket 3 moves forwards, namely in the same direction with the advancing direction, passes through the middle point of the limiting chute 7, then the rear triangular rotating block 5 rotates forwards under the action of lower pressure, namely in the anticlockwise direction in the figure 1, until the auxiliary bracket 3 abuts against the ground to limit the movement of the roller 9 at the bottom of the mobile chassis 1; when the auxiliary bracket 3 moves upwards and backwards, the rear triangular rotating block 5 rotates backwards, when the limiting column 8 reaches the rear end of the limiting chute 7 of the rear triangular rotating block 5, the rear triangular rotating block 5 rotates and is locked, at the moment, the upper surface of the edge corresponding to the vertex angle of the rear triangular rotating block 5 is in a state of being parallel to the surface of the movable chassis 1, and at the moment, the bottom end of the auxiliary bracket 3 is higher than the roller 9; so as not to hinder the rotation of the roller 9;
the upper end of the auxiliary support 3 is provided with a reinforcing transverse support 12, the reinforcing transverse support 12 is perpendicular to the auxiliary support 3, and when the auxiliary support 3 falls to the top ground surface of the bottom end, the reinforcing transverse support 12 extends to the bottom of the transverse support 10 to support the transverse support 10.
When the main bracket 2 is propped against the ground, the adjusting distance is still left between the limiting column 8 and the rear end of the limiting chute 7. So that when uneven ground is met, the bottom of the main bracket 2 can be extended deeper;
when the bottom end of the auxiliary bracket 3 is propped against the ground, the adjusting distance is still reserved between the limiting column 8 of the auxiliary bracket 3 and the rear end of the limiting sliding groove 7. So that when uneven ground is encountered, the bottom of the auxiliary bracket 3 can be extended deeper;
the transverse support 10 is a slope structure which is gradually inclined downwards from the rear end to the front. So that the cross brace 10 can be more easily inserted into the bottom of the pipeline and pressed down on the main brace 2 as it gradually enters the bottom of the pipeline.
An auxiliary upright rod 14 is arranged at the upper end of the auxiliary support 3, a lifting upright rod 13 with external threads is inserted at the top end of the auxiliary upright rod 14, the lifting upright rod 13 is inserted into the auxiliary upright rod 14 and can move up and down relative to the auxiliary upright rod 14, the lifting upright rod 13 is connected with the reinforcing transverse support 12 and forms a right angle with the reinforcing transverse support, a nut plate 15 with internal threads is sleeved at the upper end of the auxiliary upright rod 14, the nut plate 15 is in threaded fit with the lifting upright rod 13, and the lifting of the lifting upright rod 13 is controlled through the rotation of the nut plate 15. I.e. the nut is only able to rotate on its own axis and is axially constrained from moving with respect to the secondary upright 14.
The front end of the movable chassis 1 is provided with a rotary auxiliary reinforcing rod 16, the top end of the rotary auxiliary reinforcing rod 16 is provided with an elastic ball 17, the bottom end of the rotary auxiliary reinforcing rod 16 is arranged on the movable chassis 1 through a rotating shaft, the rotary auxiliary reinforcing rod 16 can rotate around the rotating shaft, the rotary auxiliary reinforcing rod 16 is provided with a rotary hook 18, the rotary hook 18 is hooked on a locking movable column 19 on the side surface of the transverse support 10 through rotation when in use, the locking movable column 19 is of a structure capable of moving back and forth along a transverse sliding groove 21 on the side surface of the transverse support 10, the locking movable column 19 is connected with a movable sleeve 20 inside the transverse support 10, the movable sleeve 20 is sleeved on an adjusting bolt 22 inside the transverse support 10, the back and forth movement of the limiting column 8 is controlled through the rotation of the adjusting bolt 22, the adjusting bolt 22 only can rotate, and the axial distance of the adjusting bolt is unchanged.
The lower part of the main bracket 2 is of a threaded telescopic rod structure, the telescopic rod is controlled to stretch by the rotation of a nut, and the structure has the same lifting principle as the lifting upright rod 13; the position of the nut for controlling the extension of the threaded telescopic rod of the main bracket 2 is between the transverse support 10 and the limiting column 8.
When the boiler pipeline supporting device is used, a movable chassis 1 is pushed to the lower part of a specified pipeline, the front end of a transverse support 10 is arranged at the bottom of the pipeline, along with the advancing of the movable chassis 1 and the inclined surface design of the transverse support 10, the transverse support 10 gradually extends into the bottom of the pipeline, and the transverse support 10 is gradually pressed downwards, so that a lifting spring 11 is in a stretching state, the lifting spring 11 is used for enabling the support to have elasticity, and the pipeline damage caused by rigid support is avoided, when the transverse support 10 is completely arranged at the bottom of the pipeline, along with the continuous movement of the movable chassis 1, the transverse support 10 and a main support 2 are stopped to move along with the movable chassis 1, namely, the movable chassis 1 moves forwards while a main support 2 does not move, or the main support 2 moves backwards relative to the movable chassis 1, at the moment, the main support 2 gradually presses a front triangular rotating block 4 downwards to enable the main support to rotate backwards, namely as shown in fig. 1, the clockwise rotation is carried out until the bottom of the main support 2 is abutted, at the moment, the movable chassis 1 stops moving, at the fixing of the transverse support 1 and the transverse support 10, and when the support meets the large support, the condition, the support, the reinforcement of the auxiliary support 3 is carried out, and the auxiliary support 3 is controlled to move forwards, and then the transverse support 12 is pushed forwards, and the lower part of the transverse support 12, and the transverse support is pushed forwards, and the auxiliary support 12, and the transverse support is pushed forwards; and after the use is finished, the nut plate 15 is reversely rotated to lower the reinforcing transverse support 12, then the auxiliary support 3 is pulled backwards until the rear triangular rotating block 5 is reset, then the nut is unscrewed to control the telescopic rod at the lower part of the main support 2 to shrink so that the transverse support 10 is lowered, then the main support 2 is lifted upwards, then the moving chassis 1 is pulled backwards, and then the main support 2 is pushed forwards so that the front triangular rotating block 4 is reset, thus the operation is finished.
In order to better support the pipeline during supporting, the auxiliary reinforcing rod 16 is rotated to enable the elastic ball 17 to be abutted against the other side of the pipeline, then the hook at the front end of the rotating hook 18 is hung on the locking moving column 19, then the adjusting bolt 22 is rotated, the moving sleeve 20 is controlled to move backwards, namely to move towards the right side in fig. 1 gradually, and the rotating hook 18 is pulled tightly gradually to complete the reinforcing.
Claims (6)
1. Boiler pipeline strutting arrangement, its characterized in that: the device comprises a movable chassis (1), a main bracket (2), an auxiliary bracket (3) and a transverse bracket (10) which supports a pipeline at the bottom when in use; four isosceles triangle rotating blocks, namely two front triangle rotating blocks (4) and two rear triangle rotating blocks (5), are arranged on the movable chassis (1), the four isosceles triangle rotating blocks are respectively arranged on two sides of the movable chassis (1), the two front triangle rotating blocks (4) are bilaterally symmetrical relative to the advancing direction of the movable chassis (1), the two rear triangle rotating blocks (5) are bilaterally symmetrical relative to the advancing direction of the movable chassis (1), the vertex angles of the four isosceles triangle rotating blocks are sleeved on the transverse shafts (6) on two sides of the movable chassis (1) and can rotate around the transverse shafts (6), and the rotating directions of the front triangle rotating blocks (4) and the rear triangle rotating blocks (5) are opposite;
a limit chute (7) with the same direction as the edge is arranged on the edge opposite to the vertex angle of the triangular rotating block;
a limiting column (8) is arranged at the lower part of the main support (2), the limiting column (8) extends into a limiting sliding groove (7) of the front triangular rotating block (4) and can move along the limiting sliding groove (7), and after the main support (2) moves backwards and passes through the middle point of the limiting sliding groove (7), the front triangular rotating block (4) rotates backwards under the action of lower pressure until the main support (2) abuts against the ground to limit the movement of a roller (9) at the bottom of the moving chassis (1); when the main support (2) moves upwards and forwards, the front triangular rotating block (4) rotates forwards, when the limiting column (8) reaches the front end of the limiting sliding groove (7), the front triangular rotating block (4) rotates and is locked, at the moment, the upper surface of the edge corresponding to the vertex angle of the front triangular rotating block (4) is in a state of being parallel to the surface of the movable chassis (1), and at the moment, the position of the bottom end of the main support (2) is higher than the roller (9);
a vertical sliding hole is formed in the upper portion of the main support (2), one end of a transverse support (10) extends into the vertical sliding hole and can move up and down along the vertical sliding hole, a right-angle included angle is formed between the transverse support (10) and the main support (2), the upper end of the transverse support (10) is connected with a lifting spring (11), the upper end of the lifting spring (11) is connected with the inner wall of the upper end of the vertical sliding hole, and the lower end of the lifting spring (11) is connected with the transverse support (10);
the lower part of the auxiliary bracket (3) is also provided with a limiting column, the limiting column extends into a limiting chute of the rear triangular rotating block (5) and can move along the limiting chute, and after the auxiliary bracket (3) moves forwards and passes through the middle point of the limiting chute (7), the rear triangular rotating block (5) rotates forwards under the action of lower pressure until the auxiliary bracket (3) abuts against the ground to limit the movement of a roller (9) at the bottom of the moving chassis (1); when the auxiliary support (3) moves upwards and backwards, the rear triangular rotating block (5) rotates backwards, when the limiting column (8) reaches the rear end of the limiting sliding groove (7) of the rear triangular rotating block (5), the rear triangular rotating block (5) rotates and is locked, at the moment, the upper surface of the edge corresponding to the vertex angle of the rear triangular rotating block (5) is in a state of being parallel to the surface of the movable chassis (1), and at the moment, the position of the bottom end of the auxiliary support (3) is higher than the roller (9);
the upper end of the auxiliary support (3) is provided with a reinforcing transverse support (12), the reinforcing transverse support (12) is perpendicular to the auxiliary support (3), and when the auxiliary support (3) falls to the bottom end to contact the ground, the reinforcing transverse support (12) extends to the bottom of the transverse support (10) to support the transverse support (10).
2. The boiler tube support apparatus of claim 1, wherein: when the main bracket (2) is propped against the ground, the adjusting distance is still reserved between the limiting column (8) and the rear end of the limiting sliding groove (7).
3. The boiler tube supporting device according to claim 1 or 2, wherein: when the bottom end of the auxiliary support (3) is propped against the ground, the adjusting distance is still reserved between the limiting column (8) of the auxiliary support (3) and the rear end of the limiting sliding groove (7).
4. The boiler tube support apparatus of claim 1, wherein: the transverse support (10) is a slope structure which is gradually inclined downwards from the rear end to the front.
5. The boiler tube support apparatus of claim 1, wherein: the upper end of the auxiliary support (3) is provided with an auxiliary upright rod (14), the top end of the auxiliary upright rod (14) is inserted with a lifting upright rod (13) with external threads, the lifting upright rod (13) is inserted into the auxiliary upright rod (14) and can move up and down relative to the auxiliary upright rod (14), the lifting upright rod (13) is connected with the reinforcing transverse support (12) and forms a right angle with the reinforcing transverse support, the upper end of the auxiliary upright rod (14) is sleeved with a nut disc (15) with internal threads, the nut disc (15) is in threaded fit with the lifting upright rod (13), and the lifting of the lifting upright rod (13) is controlled through the rotation of the nut disc (15).
6. The boiler tube support apparatus of claim 1, wherein: the front end of the moving chassis (1) is provided with a rotary auxiliary reinforcing rod (16), the top end of the rotary auxiliary reinforcing rod (16) is provided with an elastic ball (17), the bottom end of the rotary auxiliary reinforcing rod (16) is arranged on the moving chassis (1) through a rotating shaft, the rotary auxiliary reinforcing rod (16) can rotate around the rotating shaft, the rotary auxiliary reinforcing rod (16) is provided with a rotary hook (18), the rotary hook (18) is hooked on a locking moving column (19) on the side surface of the transverse support (10) through rotation when in use, the locking moving column (19) is of a structure capable of moving back and forth along a transverse sliding groove (21) on the side surface of the transverse support (10), the locking moving column (19) is connected with a moving sleeve (20) inside the transverse support (10), the moving sleeve (20) sleeves an adjusting bolt (22) inside the transverse support (10), the back and forth movement of a limiting column (8) is controlled through the rotation of the adjusting bolt (22), the adjusting bolt (22) can only rotate, and the axial distance of the adjusting bolt (22) is unchanged.
Priority Applications (1)
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CN201710839871.6A CN107461549B (en) | 2017-09-18 | 2017-09-18 | Boiler pipeline supporting device |
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CN201710839871.6A CN107461549B (en) | 2017-09-18 | 2017-09-18 | Boiler pipeline supporting device |
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CN107461549A CN107461549A (en) | 2017-12-12 |
CN107461549B true CN107461549B (en) | 2023-04-07 |
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CN201710839871.6A Active CN107461549B (en) | 2017-09-18 | 2017-09-18 | Boiler pipeline supporting device |
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CN110091102B (en) * | 2019-05-24 | 2021-04-23 | 南京涵曦月自动化科技有限公司 | Be used for chemical pipeline welded supplementary interfacing apparatus |
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JP4163335B2 (en) * | 1999-08-19 | 2008-10-08 | 日本車輌製造株式会社 | Pile driver hose support device and assembly method |
CN101457857B (en) * | 2008-11-25 | 2010-09-01 | 杨浩刚 | Pneumatic supporting device for producing ultralong large caliber rubber hose |
CN202612849U (en) * | 2012-05-23 | 2012-12-19 | 中国人民解放军徐州空军学院 | Lifting pipe support |
CN103452573B (en) * | 2013-09-12 | 2015-08-12 | 河南理工大学 | A kind of automatic moving type advance support rack with caterpillar band top beam |
US10167179B2 (en) * | 2015-10-23 | 2019-01-01 | Kurtjan Jacks (Pty) Ltd. | Jack system |
CN106482768B (en) * | 2016-11-23 | 2018-05-22 | 国家电网公司 | The adjustable clamping of boiler pipe detection sensor and multi-faceted adjustment fixing device |
CN207609870U (en) * | 2017-09-18 | 2018-07-13 | 国家电网公司 | Boiler pipe joining place supporting rack |
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