CN217896486U - Piling equipment main body and piling equipment - Google Patents

Abstract

The utility model discloses a piling equipment main body and piling equipment, wherein the piling equipment main body comprises a frame body which is arranged on a chassis and is provided with a transverse sliding rail, and at least one mast which can reciprocate along the transverse sliding rail; when the traversing brake assembly is in contact with the traversing slide rail, the positions of the masts and the traversing slide rail are relatively fixed; when the traverse brake assembly is separated from the traverse slide, the mast is movable relative to the traverse slide. The utility model discloses a set up sideslip brake assembly, can make the mast keep quiescent condition behind mast sideslip to the special position for mast rigidity prevents the mast atress skew, guarantees construction accuracy nature, improves construction quality.

Description

Piling equipment main body and piling equipment

Technical Field

The utility model relates to a pile foundation construction equipment technical field specifically is a piling equipment main part and piling equipment.

Background

The piling equipment is foundation and foundation treating equipment, is suitable for CFG construction method, prefabricated pile, cast-in-place pile, underground continuous wall, soft foundation reinforcement and the like, and is particularly suitable for various pile foundation constructions. The construction assembly of the piling device can be used for drilling and sinking piles and the like.

The frame for the piling equipment generally comprises a frame platform and a construction assembly mounting upright post, wherein the construction assembly mounting upright post can transversely move relative to the frame platform so as to realize the position adjustment of a construction assembly; in the use of piling equipment, because the supporting force of the telescopic part is not enough or the telescopic part is unstable after being stretched or contracted, the installation stand column of the construction assembly is easy to be stressed and deviated under the action of external force, the construction accuracy is reduced, and the construction quality is influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a piling equipment main part and piling equipment to solve in piling equipment use, easily lead to the problem of the installation stand atress skew of construction assembly under the exogenic action.

In order to achieve the above object, the utility model provides a following technical scheme:

a piling device body, comprising: the device comprises a frame body which is arranged on a chassis and is provided with a transverse sliding rail, and at least one mast which can reciprocate along the transverse sliding rail; when the traversing brake assembly is in contact with the traversing slide rail, the positions of the masts and the traversing slide rail are relatively fixed; when the traverse brake assembly is separated from the traverse slide, the mast is movable relative to the traverse slide.

Preferably, the device further comprises a cross travelling drive member arranged on the frame body and/or the chassis, and one end of the cross travelling drive member is connected with the mast; and/or the mast is provided with a sideslip seat which is provided with a sliding block or a pulley block matched with the sideslip slide rail.

Preferably, the traverse brake assembly comprises two connecting arms which are oppositely arranged and are respectively hinged to the traverse seat, a brake power source for driving the connecting arms to deflect, and a pair of brake brakes which are driven by the two connecting arms to deflect to brake the traverse slide rail.

Preferably, the sideslip slide rail is provided with two parallel optical axis rails, and the two optical axis rails are positioned between two brake shoes of the brake band-type brake.

Preferably, the braking power source is a hydraulic cylinder or a pneumatic cylinder or an electric telescopic rod, and when the braking power source extends, the brake is carried out in a holding manner; when the braking power source shortens, braking is terminated.

Preferably, the number of the masts is more than two, and a fixed-length connecting piece is arranged between every two adjacent masts; and/or the traverse motion seat is provided with at least one group of pulleys arranged on two sides of the traverse motion sliding rail in a spanning manner; and/or an anti-collision damper is arranged between two adjacent masts or between two adjacent transverse moving seats; and/or the frame body is a truss structure.

Preferably, a supporting guide rail parallel to the sideslip slide rail is arranged at the top of the chassis, and the bottom of the mast is connected with the supporting guide rail in a rolling or sliding mode.

Preferably, at least one pulley adapted to the support rail is mounted at the bottom of the mast.

Preferably, the cross slide has a dovetail rail head, the slider has a dovetail groove adapted to the dovetail rail head, and the slider is capable of reciprocating laterally along the cross slide; more than two rows of rollers in rolling contact with the dovetail rail head are arranged on at least one groove wall of the dovetail groove of the sliding block.

The utility model also provides piling equipment, which comprises the piling equipment main body and at least two operation components arranged on the piling equipment main body; each working assembly is respectively arranged on one mast, and can be used for any one or combination of a plurality of types of pile planting, drilling and slurry conveying.

The utility model discloses a piling equipment main body, which comprises a frame body which is arranged on a chassis and is provided with a sideslip slide rail, and at least one mast which can reciprocate along the sideslip slide rail, wherein the mast is arranged to reciprocate along the sideslip slide rail, so that the position of the mast can be adjusted independently, and the flexibility of mast adjustment is improved; when the traversing brake assembly is in contact with the traversing slide rail, the positions of the masts and the traversing slide rail are relatively fixed; when the traverse brake assembly is separated from the traverse slide rail, the mast is in a movable state relative to the traverse slide rail; through setting up sideslip brake assembly, can make the mast keep quiescent condition after the mast sideslip reaches the special position for the mast position is fixed, in order to prevent mast atress skew, guarantees construction accuracy nature, improves construction quality.

The utility model provides a piling equipment contains aforementioned piling equipment main part, therefore has the function the same with piling equipment main part to piling equipment's operation subassembly stability is high, and the efficiency of construction is high.

Drawings

Fig. 1 is a schematic perspective view of a piling device main body according to an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of portion A of FIG. 1;

FIG. 3 is an enlarged schematic view of the portion B in FIG. 1;

fig. 4 is a schematic structural view of the sliding block and the cross sliding rail according to the embodiment of the present invention;

fig. 5 is a schematic structural diagram of a piling device disclosed in an embodiment of the present invention;

fig. 6 is a schematic structural diagram of another piling device disclosed in the embodiment of the present invention.

In the figure: 1. a piling equipment main body; 11. a chassis; 12. a frame body; 13. transversely moving the sliding rail; 131. a dovetail railhead; 132. an optical axis track; 14. a support rail; 2. a mast; 21. a traversing seat; 211. a pulley; 212. a slider; 213. a dovetail groove; 214. a roller; 3. a traverse brake assembly; 31. a braking power source; 32. a connecting arm; 33. brake shoes; 331. a braking surface; 4. a traverse driving member; 5. planting a pile component; 6. a drilling assembly; 7. a collision-proof damper; 8. fixed-length connecting pieces.

Detailed Description

In order to make the technical field better understand the solution of the present invention, the following detailed description is given with reference to the accompanying drawings and the detailed description.

In this document, terms such as "upper, lower, inner, and outer" are established based on positional relationships shown in the drawings, and the corresponding positional relationships may vary depending on the drawings, and therefore, the terms are not to be interpreted as absolute limitations on the scope of protection; moreover, relational terms such as "first" and "second," and the like, may be used solely to distinguish one element from another element having the same name, without necessarily requiring or implying any actual such relationship or order between such elements.

As shown in fig. 1 to 3, the main body 1 of the piling device provided in this embodiment includes a frame body 12 mounted on a chassis 11 and provided with a traverse slide 13, and at least one mast 2 capable of reciprocating along the traverse slide 13; wherein, at least one mast 2 is provided with a traverse brake component 3, when the traverse brake component 3 is contacted with a traverse slide rail 13, the mast 2 and the traverse slide rail 13 are relatively fixed; when the traverse brake component 3 is separated from the traverse slide 13, the mast 2 is in a movable state relative to the traverse slide 13; the number of the masts 2 may be one, and certainly, the number of the masts 2 may also be more than two, which is specifically selected according to the actual situation and is not limited herein.

Specifically, the mast 2 is arranged to move back and forth along the traverse slide rail 13, so that the position of the mast 2 can be adjusted independently, and the flexibility of adjusting the mast 2 is improved; by arranging the transverse moving brake assembly 3, the mast 2 can be kept in a static state after the mast 2 is transversely moved to a specific position, so that the position of the mast 2 is fixed, the mast 2 is prevented from being stressed and deviated, the construction accuracy is ensured, and the construction quality is improved; wherein, the sideslip position of mast 2 is selected according to the actual demand.

Further, the main body 1 of the piling equipment also comprises a traverse driving piece 4 arranged on the frame body 12 and/or the chassis 11, and one end of the traverse driving piece 4 is connected with the mast 2; the masts 2 are driven to transversely move by the transverse driving piece 4, wherein one transverse driving piece 4 can drive one mast 2 to transversely move independently, and certainly, one transverse driving piece 4 can simultaneously drive a plurality of masts 2 to synchronously transversely move, the specific form is not limited and is selected according to the actual situation; the traverse driving member 4 may be any one of a hydraulic cylinder, a pneumatic cylinder, an electric telescopic rod, and a winch.

Example two

In the present embodiment, the same portions as those in the first embodiment are given the same reference numerals, and the same description is omitted.

Compared with the first embodiment, the main body 1 of the piling device provided by the present embodiment further has such a different structural design: the mast 2 is provided with a traverse seat 21, as shown in fig. 1 and 2, the traverse seat 21 is provided with a pulley block adapted to the traverse slide 13, and the traverse of the mast 2 is realized by the cooperation of the traverse seat 21 and the traverse slide 13; as shown in fig. 2, the traverse seat 21 has at least one set of pulleys 211 disposed on both sides of the traverse rail 13.

Further, as shown in fig. 2, the traverse brake assembly 3 includes two connecting arms 32 oppositely disposed and respectively hinged to the traverse base 21, a brake power source 31 for driving the connecting arms 32 to deflect, and a pair of brake brakes for driving the brake traverse slide rail 13 to deflect by the two connecting arms 32; the braking power source 31 is a hydraulic cylinder or a pneumatic cylinder or an electric telescopic rod, and when the braking power source extends, the brake is carried out in an embracing way; when the braking power source shortens, the braking is terminated; it is to be understood that the braking power source 31 may also be in other forms as long as it can drive the braking brake to realize braking and brake releasing, and is not limited in particular.

Specifically, as shown in fig. 2, the traverser 13 has two optical axis rails 132 arranged in parallel, the two optical axis rails 132 are located between two brake shoes 33 of a brake band, the brake shoes 33 have braking surfaces 331, and the braking surfaces 331 of the brake shoes 33 can abut against the traverser 13 to brake the mast 2; because the brake shoe 33 is a wearing part, the brake shoe 33 adopts detachable connection, such as screw connection, clamping connection, bonding connection and the like, so as to be convenient for replacing the brake shoe 33; of course, the brake shoe 33 can also be connected by welding or the like, which is selected according to the actual situation; further, in order to prolong the service life of the brake shoe 33, a wear pad may be disposed on one side of the brake shoe 33 facing the cross slide 13 (at this time, the brake surface 331 is on one side of the wear pad facing the cross slide 13), and the brake shoe 33 may be prevented from being damaged by the wear pad, and the wear pad may be replaced at the same time, so as to reduce the use cost. The pulley block and the smooth shaft rail 132 are matched to slide, and the two smooth shaft rails 132 are positioned between the pulley blocks to prevent the traverse moving seat 21 from being separated from the traverse moving slide rail 13, so that the stability and the safety of the traverse moving of the mast 2 are improved.

Further, as shown in fig. 6, there are more than two masts 2, and a fixed-length connector 8 is disposed between two adjacent masts 2, that is, the masts 2 are connected into a whole by the fixed-length connector 8, and a traverse driving member 4 or a group of traverse driving members 4 drives the masts 2 to simultaneously traverse, so as to improve the traverse efficiency; meanwhile, the distance between the two masts 2 is constant and is always in a relative position fixing state, so that the construction error of the pile foundation is reduced, and the concentricity of the pile foundation construction is improved; more than two masts 2 can be braked by one traverse brake assembly 3; preferably, fixed length connecting piece 8 is connected through detachable between two adjacent masts 2 to change fixed length connecting piece 8, according to different user demands, change the fixed length connecting piece 8 of equidimension not, in order to improve the commonality ability of piling equipment main part 1.

Further, as shown in fig. 5, there are more than two masts 2, and when the masts 2 move independently, a collision damper 7 is disposed between two adjacent masts 2 or between two adjacent traverse seats 21 to prevent the masts 2 from interfering during traverse, so as to ensure the normal traverse of the masts 2.

Further, the frame body 12 is a truss structure, and the configuration of the piling equipment main body 1 is reduced through the truss structure, so that the piling equipment main body 1 can be moved conveniently.

Further, as shown in fig. 1 and 3, a support rail 14 parallel to the traverse slide 13 is provided on the top of the chassis 11, the bottom of the mast 2 is connected to the support rail 14 in a rolling or sliding manner, the mast 2 is supported by the support rail 14 to ensure the stability of the traverse movement of the mast 2, and the mast 2 is supported by the support rail 14 to prevent the mast 2 from being suspended, so as to prevent the center of gravity of the piling machine main body 1 from shifting due to the excessive weight of the mast 2, and prevent the piling machine main body 1 from tipping over. Specifically, at least one pulley 211 matched with the support rail 14 is installed at the bottom of the mast 2, and the traversing of the mast 2 is facilitated by the arrangement of the pulley 211, wherein the pulley 211 can be directly arranged at the bottom of the mast 2, or can be installed at the bottom of the mast 2 through the traversing seat 21, and the specific arrangement form is selected according to actual situations and is not limited herein.

EXAMPLE III

In the present embodiment, the same portions as those in the first embodiment and the second embodiment are given the same reference numerals, and the same description is omitted.

Compared with the first embodiment and the second embodiment, the main body 1 of the piling device provided by the embodiment further has the following different structural design: the mast 2 is provided with a traverse motion seat 21, and the traverse motion seat 21 is provided with a slide block 212 matched with the traverse motion slide rail 13; specifically, the traverse rail 13 has a dovetail rail head 131, the slider 212 has a dovetail groove 213 fitted to the dovetail rail head 131, and the slider 212 can reciprocate laterally along the traverse rail 13; by the engagement of dovetail groove 213 with dovetail rail head 131, mast 2 can be prevented from being disengaged from traverse slide 13 while mast 2 can be traversed.

Furthermore, more than two rows of rollers 214 in rolling contact with the dovetail rail head 131 are arranged on at least one groove wall of the dovetail groove 213 of the slide block 212, and when the flatness of the stressed surface of the dovetail rail head 131 in contact with the rollers 214 is low, the contact area between the rollers 214 and the stressed surface is increased by arranging more than two rows of rollers 214 in rolling contact with the dovetail rail head 131, so that the phenomena of large deflection or jumping and the like when the rollers 214 roll on the stressed surface are prevented, and the safety and the stability of the transverse movement of the mast 2 are ensured.

Example four

In the present embodiment, the same portions as those in the first, second, and third embodiments are given the same reference numerals, and the same description is omitted.

The utility model also discloses a piling device, which comprises the piling device main body 1 of any one of the embodiments and at least two operation components arranged on the piling device main body 1; wherein, each operation subassembly is installed in a mast 2 respectively, and each operation subassembly can be used at least for any one or several combinations in stake planting, drilling, defeated thick liquid.

Specifically, as shown in fig. 5 and 6, the number of the masts 2 is two, one mast 2 is provided with the pile planting assembly 5, the other mast 2 is provided with the drilling assembly 6, drilling and pile planting operations can be simultaneously performed by arranging the pile planting assembly 5 and the drilling assembly 6, and the working efficiency of the piling equipment is improved, as shown in fig. 5, the pile planting assembly 5 and the drilling assembly 6 are driven to be transversely moved independently by arranging the transverse driving piece 4, so that the position between the pile planting assembly 5 and the drilling assembly 6 can be flexibly adjusted; as shown in fig. 6, two adjacent masts 2 are connected through a fixed-length connecting piece 8, and a transverse driving piece 4 drives a pile planting assembly 5 and a drilling assembly 6 to move simultaneously, so that construction errors are reduced; it is understood that the number of the masts 2 may be more than three, and the working components on different masts 2 may be the same or different, and are selected according to practical situations, and are not limited herein.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

Claims (10)

1. A piling device body, comprising: the device comprises a frame body which is arranged on a chassis and is provided with a transverse sliding rail, and at least one mast which can reciprocate along the transverse sliding rail;

when the traversing brake assembly is in contact with the traversing slide rail, the positions of the masts and the traversing slide rail are relatively fixed; when the traverse brake assembly is separated from the traverse slide, the mast is movable relative to the traverse slide.

2. The piling device body of claim 1, further comprising a traverse drive mounted to the frame and/or the chassis, the traverse drive coupled at one end to the mast;

and/or the mast is provided with a sideslip seat which is provided with a sliding block or a pulley block matched with the sideslip slide rail.

3. The piling device main body according to claim 2, wherein the traverse braking assembly comprises two connecting arms oppositely arranged and respectively hinged to the traverse base, a braking power source for driving the connecting arms to deflect, and a pair of braking brakes for braking the traverse slide rail by deflecting the two connecting arms.

4. The piling device main body of claim 3, wherein the sideslip slide rail has two parallel optical axis rails, and the two optical axis rails are positioned between the two brake shoes of the brake band-type brake.

5. The piling equipment main body according to claim 3, wherein the braking power source is a hydraulic cylinder, a pneumatic cylinder or an electric telescopic rod, and when the braking power source extends, the braking is carried out in a holding manner; when the braking power source is shortened, braking is terminated.

6. The piling device main body according to claim 4 or 5, wherein the number of the masts is more than two, and a fixed-length connecting piece is arranged between two adjacent masts;

and/or the traverse motion seat is provided with at least one group of pulleys arranged on two sides of the traverse motion sliding rail in a spanning manner;

and/or an anti-collision damper is arranged between two adjacent masts or between two adjacent transverse moving seats;

and/or the frame body is of a truss structure.

7. The piling device body of any one of claims 1 to 5, wherein a support rail is provided on the top of the chassis parallel to the traverser slide, and the bottom of the mast is in rolling or sliding connection with the support rail.

8. The piling device body of claim 7 wherein the bottom of the mast is fitted with at least one pulley adapted to the support rail.

9. The piling device body of claim 2, wherein the traverse rail has a dovetail rail head, the slide block has a dovetail groove adapted to the dovetail rail head, the slide block being laterally reciprocable along the traverse rail;

more than two rows of rollers in rolling contact with the dovetail rail head are arranged on at least one groove wall of the dovetail groove of the sliding block.

10. A piling device including a piling device body according to any one of claims 1 to 9 and at least two working assemblies mounted to the piling device body;

wherein, each operation subassembly is installed in a mast respectively, and each operation subassembly can at least be used for any one or several kinds of combination in stake planting, drilling, defeated thick liquid.

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