CN210315542U - Anchor rod static pressure pile assembled reaction frame - Google Patents
Anchor rod static pressure pile assembled reaction frame Download PDFInfo
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- CN210315542U CN210315542U CN201920702013.1U CN201920702013U CN210315542U CN 210315542 U CN210315542 U CN 210315542U CN 201920702013 U CN201920702013 U CN 201920702013U CN 210315542 U CN210315542 U CN 210315542U
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Abstract
The utility model discloses an anchor rod static pressure pile assembled reaction frame, the reinforcing block (11) of movable back end position is disposed on the reaction beam (2), the reinforcing block (11) is disposed with the weight block (12) moving along with the reinforcing block, and the traction rope drawn from the electric hoist (3) is connected with the reinforcing block (11); the bottom of the electric hoist (3) is provided with a mounting rack (9), and the mounting rack (9) is slidably mounted on the horizontal cross beam (6); the size of the action range is adjustable, and the application range is improved.
Description
Technical Field
The utility model relates to an anchor rod static pressure stake assembled reaction frame.
Background
The utility model discloses a high-tonnage stock static pressure pile assembled reaction frame, its structure includes the reaction frame of seting up a plurality of jacks along vertical direction, along vertical direction sliding connection in the reaction beam of reaction frame, be used for driving the gliding electric hoist of reaction beam along vertical direction, be used for pegging graft and link firmly the bolt of reaction beam and jack, the reaction frame includes two reaction posts that are parallel arrangement, the spout has been seted up along vertical direction to reaction post one side inwards, the reaction beam both ends are inlayed respectively in the spout of locating two reaction posts, jack intercommunication spout both sides lateral wall, reaction beam both ends lateral wall has set firmly the slider, the bolt is along its axial sliding connection in slider, bolt one end is equipped with the application of force pole along vertical direction, the application of force pole is scalable setting. The structure is limited, and particularly, the position of the electric hoist is fixed and cannot be adjusted, so that the action range of the reaction frame is fixed, and the reaction frame has larger limitation.
SUMMERY OF THE UTILITY MODEL
The to-be-solved technical problem of the utility model is to provide an anchor rod static pressure stake assembled reaction frame, its range of action's size is adjustable, has improved its range of application.
In order to solve the technical problem, the utility model provides a technical scheme does: an anchor rod static pressure pile assembled reaction frame comprises a reaction frame, a reaction beam, an electric hoist and a bolt, wherein the reaction frame is provided with a plurality of jacks along the vertical direction, the reaction beam is connected to the reaction frame in a sliding mode along the vertical direction, the electric hoist is used for driving the reaction beam to slide along the vertical direction, the bolt is used for fixedly connecting the reaction beam and the jacks in an inserting mode, the reaction frame comprises two reaction columns which are arranged in parallel, and a horizontal cross beam arranged on the reaction columns in an erecting mode, one inward side of each reaction column is provided with a sliding groove along the vertical direction, two ends of the reaction beam are respectively embedded in the sliding grooves of the two reaction columns, the jacks are communicated with the side walls of two sides of the sliding grooves, the side walls of two ends of the reaction beam are fixedly provided with sliding blocks, the bolt is connected to the sliding blocks in an;
a reinforcing block which can move to a rear stop position is arranged on the counterforce beam, a weight block which moves along with the reinforcing block is arranged on the reinforcing block, and a traction rope led out of the electric hoist is connected with the reinforcing block; the bottom of the electric hoist is provided with a mounting rack which is slidably mounted on the horizontal cross beam; a motor with a driving wheel and a driven wheel are arranged in the horizontal beam; the driving wheel and the driven wheel are positioned on the same plane and are positioned outside the front side surfaces of the two ends of the horizontal beam, a transmission chain driven by the driving wheel is wound on the driving wheel and the driven wheel, a transmission block which moves along with the rotation of the transmission chain is installed on the transmission chain, and the upper part of the transmission block is higher than the transmission chain and is fixedly connected with the part of the mounting rack, which extends out of the front side surfaces of the two ends of the horizontal beam; the mounting frame and the horizontal cross beam are fixedly connected through bolts to stop.
Further, the mounting rack comprises a supporting block and a supporting seat arranged on the supporting block; the electric hoist is characterized in that the supporting block is mounted on the horizontal cross beam, the left side and the right side of the supporting block are respectively provided with a first screw hole, the horizontal cross beam is provided with second screw holes which are distributed at intervals and can correspond to the first screw holes, and the first screw holes and the second screw holes are connected through first bolt fastening.
Furthermore, the upper end of each reaction column is provided with a radially enlarged upper support structure, and the lower end of each reaction column is provided with a radially enlarged lower support structure.
Furthermore, the upper supporting structure body is movably fixed with the lower part of the horizontal cross beam in a threaded manner.
Further, a plurality of second bolts for connection are disposed on the lower support structure.
Furthermore, the reinforcing block and the reaction beam are fixedly connected through a third bolt to stop the reinforcing block.
Furthermore, the transmission block is fixedly connected with the mounting frame through a fourth bolt.
Compared with the prior art, the structure design has the following advantages:
the improvement point is as follows: the electric hoist is changed into a movable structure, the electric hoist can stop after moving, and the reinforcing block capable of moving synchronously is arranged, so that the combination of the movable electric hoist and the reinforcing block can realize the adjustable action range of the reaction frame, and the application range is further expanded.
Drawings
Fig. 1 is a schematic plan view of the overall structure of the present invention.
Shown in the figure: 1. reaction frame 111, jack; 2. a counter-force beam; 3. an electric hoist; 4. a bolt; 5. a reaction column; 6. a horizontal cross beam; 711. a driving wheel; 712. a driven wheel; 8. a motor; 9. a mounting frame; 911. a support block; 912. supporting and supporting; 1011. a first bolt; 1012. a second bolt; 1013. a third bolt; 1014. A fourth bolt; 11. a reinforcing block; 12. and a weight block.
Detailed Description
The present invention will be described in further detail below with reference to specific embodiments and with reference to the accompanying drawings.
Referring to fig. 1, the utility model provides an assembled reaction frame of anchor rod static pressure pile, which comprises a reaction frame 1 provided with a plurality of jacks 111 along the vertical direction, a reaction beam 2 connected with the reaction frame 1 in a sliding way along the vertical direction, an electric hoist 3 used for driving the reaction beam 2 to slide along the vertical direction, and a bolt 4 used for fixedly connecting the reaction beam 2 and the jacks 111 in an inserting way, wherein the reaction frame 1 comprises two reaction columns 5 arranged in parallel and a horizontal beam 6 arranged on the reaction columns 5, one side of the reaction column 5 facing inwards is provided with a chute along the vertical direction, two ends of the reaction beam 2 are respectively embedded in the chutes of the two reaction columns 5, the jacks 111 are communicated with the side walls at two sides of the chute, the side walls at two ends of the reaction beam 2 are fixedly provided with sliders, the bolt 4 is connected with the sliders along the axial direction in a sliding way, one end of the bolt 4 is provided with a force application rod along the, the force application rod is arranged in a telescopic manner. The above is the basic structure of the reaction frame in the prior art, and the corresponding structure and operation principle are described in detail in patent document CN201720788358, entitled high tonnage anchor rod static pressure pile fabricated reaction frame, and the detailed description is omitted in this embodiment.
A reinforcing block 11 which can move to a rear stop position is arranged on the counterforce beam 2, a weight block 12 which moves along with the reinforcing block 11 is arranged on the reinforcing block 11, and a traction rope led out from the electric hoist 3 is connected with the reinforcing block 11; the bottom of the electric hoist 3 is provided with a mounting rack 9, and the mounting rack 9 is slidably mounted on the horizontal cross beam 6; a motor 8 with a driving wheel 711 and a driven wheel 712 are arranged in the horizontal beam 6; the driving wheel 711 and the driven wheel 712 are positioned on the same plane and outside the front side surfaces of the two ends of the horizontal beam 6, a transmission chain 713 driven by the driving wheel 711 is wound on the driving wheel 711 and the driven wheel 712, a transmission block 714 which moves along with the rotation of the transmission chain 713 is installed on the transmission chain 713, and the upper part of the transmission block 714 is higher than the transmission chain 713 and is fixedly connected with the part of the mounting rack 9, which extends out of the front side surfaces of the two ends of the horizontal beam 6; the mounting frame 9 and the horizontal cross beam 6 are fixedly connected through bolts to stop. In practical implementation, the motor 8 may be provided with an independent power supply, and of course, an external power supply may be connected, and the motor 8 is also provided with a corresponding start switch, which is not further described in detail herein, and the cooperation of the motor 8, the corresponding driving wheel 711, the corresponding driven wheel 712, the driving block 714 and the mounting bracket 9 is provided for achieving the position adjustment of the electric hoist 3, which has been described in detail above, and additionally, the moving direction of the electric hoist 3 is identified by F1 and F1 'in fig. 1, and the moving direction of the reinforcing block 11 and the weight block 12 is also identified by F2 and F2' in fig. 1.
In a specific implementation, as a further scheme, the mounting frame 9 includes a supporting block 911 and a supporting holder 912 provided on the supporting block 911; prop up the bearing 912 installation electric hoist 3, the supporting block 911 sets up on the horizontal beam 6, the side all is equipped with first screw hole about supporting 912 on the supporting block 911 relatively, be equipped with interval distribution on the horizontal beam 6 and can correspond with first screw hole second screw hole, first screw hole and second screw hole pass through first bolt 1011 fastening connection. The mounting frame with a specific structure is relatively simple in structure and low in manufacturing cost.
In a specific implementation, as a further scheme, an upper end of each reaction column 5 is provided with a radially enlarged upper support structure 511, and a lower end of each reaction column 5 is provided with a radially enlarged lower support structure 512. The upper support structure 511 is movably screwed to the lower portion of the horizontal beam 6. A plurality of second bolts 1012 for connection are disposed on the lower support structure 512. The support stability of the reaction force column 5 is improved as a whole, and in addition, the position of the corresponding reaction force column 5 can be adjusted.
In a specific implementation, as a further scheme, the reinforcing block 11 and the reaction beam 2 are fixedly connected through a third bolt 1013 to stop the reinforcing block 11. It is also illustrated that the position of the reinforcing block 11 can be adjusted and then positioned again after the adjustment.
In a specific implementation, the driving block 714 and the mounting frame 9 are further fixed by a fourth bolt 1014. A fixed connection of the driving block 714 and the mounting frame 9 is provided, which is relatively stable and low.
The foregoing is illustrative of the preferred embodiments of the present invention only, and is not to be construed as limiting the claims. The present invention is not limited to the above embodiments, and all the changes made within the scope of the independent claims of the present invention are within the scope of the present invention.
Claims (7)
1. An assembled reaction frame of a stock static pressure pile comprises a reaction frame (1) provided with a plurality of jacks (111) along the vertical direction, a reaction beam (2) connected to the reaction frame (1) in a sliding manner along the vertical direction, an electric hoist (3) used for driving the reaction beam (2) to slide along the vertical direction, and a bolt (4) used for fixedly connecting the reaction beam (2) and the jacks (111) in an inserting manner, wherein the reaction frame (1) comprises two reaction columns (5) which are arranged in parallel and a horizontal cross beam (6) erected on the reaction columns (5), one inward side of each reaction column (5) is provided with a sliding chute along the vertical direction, two ends of the reaction beam (2) are respectively embedded in the sliding chutes of the two reaction columns (5), the jacks (111) are communicated with the side walls on two sides of the sliding chute, the side walls on two ends of the reaction beam (2) are fixedly provided with sliding blocks, and the bolt (4) is connected to the sliding blocks along the axial, one end of the bolt (4) is provided with a force application rod along the vertical direction, and the force application rod is arranged in a telescopic manner; the method is characterized in that:
a reinforcing block (11) with a movable rear stop position is arranged on the reaction beam (2), a weight block (12) moving along with the reinforcing block (11) is arranged on the reinforcing block, and a traction rope led out from the electric hoist (3) is connected with the reinforcing block (11);
the bottom of the electric hoist (3) is provided with a mounting rack (9), and the mounting rack (9) is slidably mounted on the horizontal cross beam (6);
a motor (8) with a driving wheel (711) and a driven wheel (712) are arranged in the horizontal beam (6); the driving wheel (711) and the driven wheel (712) are positioned on the same plane and are positioned outside the front side surfaces of the two ends of the horizontal beam (6), a transmission chain (713) transmitted by the driving wheel (711) is wound on the driving wheel (711) and the transmission chain (713) is provided with a transmission block (714) moving along with the rotation of the transmission chain (713), the upper part of the transmission block (714) is higher than the transmission chain (713), and is fixedly connected with the part of the mounting rack (9) extending out of the front side surfaces of the two ends of the horizontal beam (6);
the mounting frame (9) and the horizontal cross beam (6) are fixedly connected through bolts to stop.
2. An assembled counterforce frame for a static pile of anchor rod according to claim 1, wherein the mounting frame (9) comprises a supporting block (911) and a supporting support (912) arranged on the supporting block (911); the electric hoist is characterized in that the supporting block (912) is provided with the electric hoist (3), the supporting block (911) is arranged on the horizontal beam (6), the left side and the right side of the supporting block (912) which are opposite to the supporting block (911) are respectively provided with a first screw hole, the horizontal beam (6) is provided with second screw holes which are distributed at intervals and can correspond to the first screw holes, and the first screw holes and the second screw holes are fixedly connected through first bolts (1011).
3. An anchor stud fabricated reaction frame according to claim 2, wherein the upper end of each reaction column (5) is a radially enlarged upper support structure (511) and the lower end of each reaction column (5) is a radially enlarged lower support structure (512).
4. An assembled counterforce frame for a stock static pile according to claim 3, characterized in that the upper support structure (511) is movably screwed with the lower part of the horizontal beam (6).
5. An anchor stud fabricated reaction frame according to claim 3, characterized in that the lower support structure (512) is provided with a number of second connecting bolts (1012).
6. An assembled counterforce frame of a bolt static pile according to claim 1, characterized in that the reinforcing block (11) and the counterforce beam (2) are connected and fixed through a third bolt (1013) to stop the reinforcing block (11).
7. An assembled reaction frame for a static pile of anchor rods according to claim 1, characterized in that the driving block (714) and the mounting frame (9) are fixedly connected through a fourth bolt (1014).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201920702013.1U CN210315542U (en) | 2019-05-16 | 2019-05-16 | Anchor rod static pressure pile assembled reaction frame |
Applications Claiming Priority (1)
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CN201920702013.1U CN210315542U (en) | 2019-05-16 | 2019-05-16 | Anchor rod static pressure pile assembled reaction frame |
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CN210315542U true CN210315542U (en) | 2020-04-14 |
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CN201920702013.1U Active CN210315542U (en) | 2019-05-16 | 2019-05-16 | Anchor rod static pressure pile assembled reaction frame |
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- 2019-05-16 CN CN201920702013.1U patent/CN210315542U/en active Active
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