CN114150667B - Construction engineering foundation pile driving device - Google Patents

Abstract

The invention relates to a piling device, in particular to a foundation piling device for constructional engineering. The invention provides the construction engineering foundation pile driving device which has high efficiency, does not need manual pile driving, is convenient to feed and effectively reduces the labor capacity. The utility model provides a building engineering foundation pile device, including base, gyro wheel, pushing away the handle, first support frame, storage frame, support column and crane etc. both sides all bilateral symmetry rotation is equipped with the gyro wheel in the base, and the base left side is equipped with pushes away the handle, and base top left rear side is equipped with first support frame, and base top right side is equipped with the storage frame, and storage frame front portion left side is equipped with the go-between, and base top left front side is equipped with the support column, and support column upside sliding is equipped with the crane. The motor works to enable the pressing block to intermittently downwards move to hammer the pile body, the pile body is driven into the ground, so that the pile body can be driven into the ground without manual work, and the overall working efficiency is higher.

Description

Construction engineering foundation pile driving device

Technical Field

The invention relates to a piling device, in particular to a foundation piling device for constructional engineering.

Background

In the process of building construction, in order to guarantee that ground has the intensity of enough resistance pressure, generally can pile on the ground, let the most weight of building pass through the stake and reach very dark position below the ground for the building foundation is stronger, traditional pile mode is that use the drilling to open the notch in the ground earlier, in the slot is beaten into to the pile body that then uses the hammer, but such manual operation mode, inside the foundation is beaten into thoroughly, pile precision is lower, the labour is strong, and when transporting the pile body, mostly the shallow transports, still need the manual handling pile body to put into the notch and just can pile work after opening the notch, influence work efficiency.

Therefore, it is necessary to design a construction engineering foundation pile driving device which is efficient, does not need manual pile driving, is convenient to feed, and effectively reduces labor capacity.

Disclosure of Invention

In order to overcome the defects that the efficiency is low, the labor capacity is high and the pile body is required to be manually moved to be placed in a notch for piling in a mode of grooving before manual piling by using a rotary hole, the invention aims to provide the foundation piling device for the building engineering, which is high in efficiency, free from manual piling, convenient to feed and capable of effectively reducing the labor capacity.

The technical proposal is as follows: the utility model provides a building engineering foundation pile device, including the base, the gyro wheel, push away the handle, a first support frame, the storage frame, the support column, the crane, first spring, the briquetting, the second spring, pile mechanism and unloading mechanism, the equal bilateral symmetry rotation formula in the base is equipped with the gyro wheel, the base left side is equipped with pushes away the handle, it is equipped with the rubber sleeve to push away the handle upside, can play skid-proof effect, people are being difficult for skidding when pulling to push away the handle, base top left rear side is equipped with first support frame, base top right side is equipped with the storage frame, storage frame front portion left side is equipped with the go-between, base top left front side is equipped with the support column, the support column upper side slides and is equipped with the crane, be connected with first spring between crane right side slides and is equipped with the briquetting, be connected with the second spring between briquetting and the crane, crane front portion is equipped with pile mechanism, be connected with unloading mechanism between first support frame and the storage frame top, the anterior right side of base is opened and is pressed down the mouth, the go-between link is aligned with pressing mouth.

As a further preferred scheme, pile driving mechanism is including second support frame, a motor, the axis of rotation, lack gear, first rack, straight-tooth gear and second rack, the crane front portion is equipped with the second support frame, be equipped with the motor on the second support frame, be equipped with the axis of rotation on the motor output shaft, be equipped with lack gear in the middle of the axis of rotation, briquetting upper portion left side is equipped with first rack, lack gear and first rack cooperation, the axis of rotation front and back symmetry is equipped with straight-tooth gear, the second rack is installed through bolted connection mode in the position that base top left front side is located the support column right side, the bolt is installed in second rack downside and base cooperation, the second rack is located the outside of crane, two straight-tooth gears all cooperate with the second rack.

As a further preferable scheme, the blanking mechanism comprises a blanking frame, a first sliding frame, a first pushing plate, a third spring, a second pushing plate, a pull handle and a fourth spring, wherein the blanking frame is connected between the first supporting frame and the top of the storage frame, a blanking opening is formed in the right rear side of the bottom of the blanking frame, the blanking opening is aligned with the storage frame, the first sliding frame is arranged on the left side of the rear part of the blanking frame in a sliding mode, the first pushing plate is arranged on the right side of the first sliding frame and is connected with the blanking frame in a sliding mode, the third spring is connected between the upper side and the lower side of the first sliding frame and the blanking frame, the second pushing plate is arranged in a sliding mode in the front of the blanking frame in a sliding mode, the second pushing plate is in contact with the first pushing plate, the fourth spring is connected between the left side and the right side of the second pushing plate and the blanking frame, and the pull handle is arranged on the right side of the front of the second pushing plate and is in contact with the blanking frame.

As a further preferred scheme, the lifting mechanism comprises a reset mechanism, wherein the reset mechanism comprises a first pushing frame, a sliding rod, a fifth spring and a second sliding frame, the sliding rods are symmetrically arranged in front of the position, on the left front side of the bottom of the base, of the outer portion of the supporting column in a sliding mode, the right ends of the two sliding rods are connected with a second rack, the second sliding frame is connected with the sliding mode of the base, the second sliding frame is located on the outer portion of the supporting column, the left side of the top of the lifting frame is provided with the first pushing frame, the first pushing frame is matched with the second sliding frame, the fifth springs are connected between the front side and the rear side of the left side of the lower portion of the second rack and the base, and the two fifth springs are sleeved on the sliding rods on the same side.

As a further preferred scheme, the automatic feeding device further comprises a pushing mechanism, the pushing mechanism comprises a second pushing frame, a fourth sliding frame, a sliding plate and a sixth spring, the second pushing frame is arranged on the rear side of the second sliding frame, the sliding plate is arranged on the rear side of the inside of the storage frame in a sliding mode, the sliding plate is matched with the feeding hole, the sixth spring is connected between the left side and the right side of the sliding plate and the storage frame, the fourth sliding frame is arranged on the left side of the front portion of the sliding plate, and the fourth sliding frame is matched with the second pushing frame.

As a further preferred scheme, the automatic feeding device further comprises a feeding mechanism, wherein the feeding mechanism comprises a third supporting frame, a sliding rod, a pushing block and a reset spring, the third supporting frame is arranged on the front side of the right part of the storage frame, the sliding rod is arranged on the upper side of the third supporting frame, the pushing block is arranged on the left side of the sliding rod, the reset spring is connected between the sliding rod and the third supporting frame and sleeved on the sliding rod, and the pushing block is positioned inside the storage frame.

As a further preferred scheme, the novel screw rod fixing device further comprises a fixing mechanism, wherein the fixing mechanism comprises screw rods, rotating blocks and rotating handles, the screw rods are connected to the left side of the base in a front-back symmetrical mode through threaded connection, the rotating handles are arranged at the tops of the two screw rods, and the rotating blocks are arranged at the bottoms of the two screw rods in a rotating mode.

As a further preferable scheme, a rubber sleeve is arranged on the upper side of the push handle.

The invention has the following advantages: 1. the motor works to enable the pressing block to intermittently downwards move to hammer the pile body and drive the pile body into the ground, so that the pile body can be driven into the ground without manpower, and the overall working efficiency is higher;

2. the invention is more convenient to push by people under the action of the roller, and meanwhile, the screw rod can be manually operated to drive the rotating block to move downwards to contact with the ground, so that the roller can be prevented from rotating randomly, and the braking effect is realized;

3. the first pushing plate can push the piles aligned with one row for use, and then the second pushing plate pushes the corresponding pile aligned with the first pushing plate for use, so that semi-automatic blanking can be realized, and the trouble of manual operation is reduced;

4. after the lifting frame drives the pressing block to move downwards to drive the pile body into the ground, the lifting frame simultaneously drives the first pushing frame to drive the second rack to move rightwards and not contact with the spur gear, so that the whole pile driving mechanism moves upwards to reset, the second rack is not required to be pulled manually, and the automatic pile driving mechanism is more automatic and labor-saving;

5. the second carriage moves to the right to enable the sliding plate to push a pile body to move to the front side, after the pile body reaches the next pile driving position, the pile body is pushed onto the pressing opening to drive under the action of the pushing block to drive the pile body, and the pile body is integrally driven without manually pushing the pile body by using a tool.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic view of a partial perspective structure of the present invention.

Fig. 4 is a schematic perspective view of the pile driving mechanism according to the present invention.

Fig. 5 is a schematic view of a first three-dimensional structure of the blanking mechanism of the present invention.

Fig. 6 is a schematic diagram of a second three-dimensional structure of the blanking mechanism of the present invention.

Fig. 7 is a schematic perspective view of the reset mechanism of the present invention.

Fig. 8 is a schematic perspective view of a pushing mechanism of the present invention.

Fig. 9 is a partial cross-sectional view of the pushing mechanism of the present invention.

Fig. 10 is a schematic view of a first three-dimensional structure of the blanking mechanism of the present invention.

Fig. 11 is a schematic view of a second perspective structure of the blanking mechanism of the present invention.

Fig. 12 is a schematic perspective view of a stabilizing mechanism according to the present invention.

Reference numerals in the figures: the device comprises a base, 2-rollers, 3-pushing handles, 4-first supporting frames, 5-storage frames, 6-supporting columns, 7-lifting frames, 8-first springs, 9-pressing blocks, 10-second springs, 11-piling mechanisms, 110-second supporting frames, 111-motors, 112-rotating shafts, 113-non-gears, 114-first racks, 115-spur gears, 116-second racks, 12-blanking mechanisms, 120-blanking frames, 121-first sliding frames, 122-first pushing plates, 123-third springs, 124-second pushing plates, 125-pulling handles, 126-fourth springs, 13-reset mechanisms, 130-first pushing frames, 131-sliding rods, 132-fifth springs, 133-second sliding frames, 14-pushing mechanisms, 140-second pushing frames, 141-fourth sliding frames, 142-sliding plates, 143-sixth springs, 15-feeding mechanisms, 150-third supporting frames, 151-sliding rods, 152-pushing blocks, 153-reset springs, 16-reset mechanisms, 133-second sliding frames, 160-162 and screws.

Detailed Description

The following describes the technical scheme with reference to specific embodiments, and it should be noted that: terms indicating orientations, such as up, down, left, right, etc., are used herein only with respect to the position of the illustrated structure in the corresponding drawings. The parts themselves are numbered herein, for example: first, second, etc. are used solely to distinguish between the described objects and do not have any sequential or technical meaning. And the application is said to be as follows: connection, coupling, unless specifically stated otherwise, includes both direct and indirect connection (coupling).

Example 1

1-6, including base 1, gyro wheel 2, push away 3, first support frame 4, storage frame 5, support column 6, crane 7, first spring 8, briquetting 9, second spring 10, pile driving mechanism 11 and unloading mechanism 12, the inside front and back both sides bilateral symmetry rotation of base 1 is equipped with gyro wheel 2, the left side of base 1 is equipped with pushes away 3, push away 3 upside and is equipped with the rubber sleeve, can play skid-proof effect, people are difficult to skid when pulling pushing away 3, the left rear side in base 1 top is connected with first support frame 4 through bolted connection's mode, base 1 top right side is equipped with the storage frame 5 that is used for placing the pile body, the left side welding in storage frame 5 front portion has the go on spacing go on the go-between to the pile body, the welding of base 1 top left front side has support column 6, support column 6 upside slidingtype is equipped with crane 7, be connected with first spring 8 between crane 7 and the support column 6, crane 7 right side slidingtype is equipped with the briquetting 9 that is used for driving the pile body into the base, be connected with second spring 10 between briquetting 9 and the crane 7, the crane 7 front portion is equipped with pile mechanism 11, be connected with the unloading mechanism 12 that is used for the semi-automatic unloading of pile body between first support frame 4 and the storage frame 5 top, the lower pressure mouth that is used for pile body and base contact pile is opened on the front portion right side of base 1, the go-between aligns with the lower pressure mouth.

The piling mechanism 11 comprises a second supporting frame 110, a motor 111, a rotating shaft 112, a gear-lack 113, a first rack 114, a spur gear 115 and a second rack 116, wherein the second supporting frame 110 is arranged at the front part of the lifting frame 7, the motor 111 for driving is installed on the second supporting frame 110, the rotating shaft 112 is arranged on the output shaft of the motor 111, the gear-lack 113 is arranged in the middle of the rotating shaft 112, the first rack 114 is arranged on the left side of the upper part of the pressing block 9, the gear-lack 113 is matched with the first rack 114, the spur gear 115 is symmetrically arranged in the front and the back of the rotating shaft 112, the second rack 116 is installed at the position of the left front side of the top of the base 1, which is positioned on the right side of the supporting column 6, in a bolt connection mode, the bolt is installed at the lower side of the second rack 116, the second rack 116 is positioned outside the lifting frame 7, and the two spur gears 115 are matched with the second rack 116.

The blanking mechanism 12 comprises a blanking frame 120, a first sliding frame 121, a first pushing plate 122, a third spring 123, a second pushing plate 124, a pull handle 125 and a fourth spring 126, wherein the blanking frame 120 for placing piles is connected between the top of the first supporting frame 4 and the top of the storage frame 5, a blanking opening for blanking piles is formed in the right rear side of the bottom of the blanking frame 120, the blanking opening is aligned with the storage frame 5, the first sliding frame 121 is arranged on the left side of the rear part of the blanking frame 120 in a sliding manner, the first pushing plate 122 is arranged on the right side of the first sliding frame 121 and is used for pushing piles to the first pushing plate 122 on the blanking opening, the first pushing plate 122 is connected with the blanking frame 120 in a sliding manner, the third spring 123 is connected between the upper side and the lower side of the first sliding frame 121 and the top of the blanking frame 120, the second pushing plate 124 is in contact with the first pushing plate 122, the fourth spring 126 is connected between the left side and the right side of the second pushing plate 124 and the blanking frame 120, and the pull handle 125 is more convenient for the pull handle 125 to pull the pull handle 125 when the second pushing plate 124 is arranged on the right side of the second pushing plate 124 and the blanking frame 120.

When people need to pile the foundation at the designated position, people can pull the first sliding frame 121 to the left first time, the third spring 123 is compressed, the first sliding frame 121 drives the first pushing plate 122 to move to the left first time, people can pull the pull handle 125 to the front side at the same time, the second pushing plate 124 to move to the front side, the fourth spring 126 is compressed, then one pile body can be placed on the blanking opening, then the pile body can be filled in the blanking frame 120, so that the pile body is contacted with the first pushing plate 122 and the second pushing plate 124, one pile body falling into the blanking frame 5 can block the blanking opening, the pile body in the blanking frame 120 can not fall, people can release the pull handle 125 and the first sliding frame 121, then people can also fill the pile body into the blanking frame 5, after the pile body is placed, people can pull the push handle 3, drive the device to move, and further drive the roller 2 to rotate, the roller 2 rotates to facilitate the movement of the device, when the device moves to a designated position, people can align the pressing opening with the designated position, a tool can be used to push the pile body in the storage frame 5 from back to front, so that the forefront pile body is pushed onto the connecting ring and can drop onto the pressing opening to contact with the ground, the pile body is aligned with the pressing block 9, at the moment, a gap is reserved at the rearmost side in the storage frame 5, no pile body blocks the discharging opening, the first sliding frame 121 drives the first pushing plate 122 to move to the right side under the action of the slight reset of the third spring 123, the first pushing plate 122 pushes one pile body onto the discharging opening, so that one pile body drops onto the position at the rear side in the storage frame 5, then people can start the motor 111 to work, the output shaft of the motor 111 rotates to drive the rotating shaft 112 to rotate, and further drive the two spur gears 115 and the spur gears 113 to rotate, the spur gear 115 rotates to move downwards along the second rack 116, so that the rotating shaft 112, the motor 111, the gear deficiency 113, the second supporting frame 110, the lifting frame 7, the first rack 114 and the pressing block 9 move downwards, the lifting frame 7 moves downwards to compress the first spring 8, the gear deficiency 113 rotates with the toothed part to drive the first rack 114 to move upwards, so that the pressing block 9 is driven to move upwards to store force, the pressing block 9 moves upwards along the lifting frame 7, the second spring 10 is compressed, under the cooperation of the spur gear 115 and the second rack 116, the lifting frame 7 moves downwards with the upper part of the lifting frame so that the distance between the pressing block 9 and the pile body is more and more similar, when the gear deficiency 113 does not contact with the first rack 114 any more, the second spring 10 at the moment is compressed to the limit, the pressing block 9 moves downwards to hammer the pile body under the action of the second spring 10, so that the pile body can be beaten into the ground, the intermittent rotation of the gear-lack 113 can make the pressing block 9 move downwards to hammer the pile body intermittently, when the lifting frame 7 moves downwards to a certain position, the pile body is completely driven into the ground, in the previous several times of hammering, the force-accumulation hammering of the pressing block 9 is carried out each time, the second spring 10 is not completely reset when reset, so that the reset of the second spring 10 after each limit compression reaches enough elastic force, the force of the pressing block 9 is larger and larger, the pile body is driven into the ground faster, after the pile body is completely driven into the ground, the motor 111 can be closed, then the bolt for fixing the second rack 116 is taken out, the second rack 116 can be moved to the right side, so that the second rack 116 is not contacted with the spur gear 115 any more, and at the moment, the lifting frame 7 drives the second support frame 110, the motor 111 and the rotating shaft 112 under the action of the first spring 8, the spur gear 115 and the gear-lack 113 move upwards to reset, the lifting frame 7 moves upwards to reset the second spring 10 which is not completely reset in the pile driving process, the lifting frame 7 drives the pressing block 9 to move upwards to reset, after all the parts are reset, people move the second rack 116 leftwards to reset to the initial position, so that the second rack 116 is meshed with the two spur gears 115 again, the second rack 116 can be fixed with the base 1 by using bolts, people can pull the pushing handle 3 to drive the device to move to the next position, the pile driving operation can be repeated for the designated position, in the pile driving operation, people need to push the pile in the storage frame 5 to the pressing opening to perform the pile driving operation by using a tool when going to the pile driving position, and meanwhile, piles on the right side of the first pushing plate 122 can be slowly pushed for use, the first sliding frame 121 and the first pushing plate 122 are slowly reset under the reset action of the third spring 123, the pile bodies in the front row are blocked by the first sliding frame 121, the pile bodies in the front row do not react, after the pile bodies in the rear row are used, people pause piling operation, the first sliding frame 121 can be pulled leftwards to drive the first pushing plate 122 to move leftwards, the third spring 123 is compressed, the first pushing frame 130 does not block the pile bodies in the front row any more, at the moment, the second pushing plate 124 drives the pull handle 125 to move backwards to reset under the action of the fourth spring 126, the second pushing plate 124 moves backwards to push the pile bodies in the front row to move backwards, so that the pile bodies in the rear row are in contact alignment with the first pushing plate 122, people can release the first sliding frame 121, the first pushing plate 122 drops the pushing pile bodies into the storage frame 5 for use through the discharging opening, after the pile bodies in the blanking frame 120 are used, people need to refill the blanking frame 120 with two rows of pile bodies according to the upper operation, the pile driving work can be continued, and after the pile driving of the base of the construction site is completed, the device can be pushed back to the initial position.

Example 2

On the basis of embodiment 1, as shown in fig. 1, fig. 2, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11 and fig. 12, the lifting frame further comprises a reset mechanism 13, the reset mechanism 13 comprises a first pushing frame 130, a sliding rod 131, a fifth spring 132 and a second sliding frame 133, the sliding rods 131 are symmetrically arranged in a front-back mode at the position, located outside the supporting column 6, of the left front side of the top of the base 1, the right ends of the two sliding rods 131 are connected with the second sliding frame 116 through bolts, a second sliding frame 133 is connected between the left ends of the two sliding rods 131, the second sliding frame 133 is connected with the base 1 in a sliding mode, the second sliding frame 133 is located outside the supporting column 6, the left side of the top of the lifting frame 7 is connected with the first pushing frame 130 through a screw connection mode, the first pushing frame 130 is matched with the second sliding frame 133, the fifth springs 132 are connected between the front-back side of the left side of the lower part of the second sliding frame 116 and the base 1, and the two fifth springs 132 are sleeved on the sliding rods 131 on the same side.

When the pile is driven, the user can operate the motor 111 to drive the lifting frame 7 to move downwards to drive the first pushing frame 130 to move downwards, the first spring 8 is compressed, when the pile body is completely driven into the ground, the first pushing frame 130 is contacted with the second sliding frame 133, so that the second sliding frame 133 and the sliding rod 131 move to the right side, the fifth spring 132 is stretched to drive the second rack 116 to move to the right side, the second rack 116 is not contacted with the spur gear 115 any more, at the moment, the user can rapidly pull the second rack 116 to prevent the second rack 116 from resetting, and then the motor 111 is turned off, and after the second rack 116 is not contacted with the spur gear 115, the lifting frame 7 drives the first pushing frame 130 to move upwards to reset under the action of the first spring 8, so that the first pushing frame 130 is not contacted with the second sliding frame 133 any more, the lifting frame 7 drives the whole piling mechanism 11 to move upwards to reset with the pressing block 9, after the whole piling mechanism 11 is reset, people can loosen the second rack 116, so that the second rack 116 drives the sliding rod 131 and the second sliding frame 133 to move leftwards to reset under the action of the fifth spring 132, the second rack 116 can automatically move rightwards after the pile body is driven into the ground, the operation is simple and quick, and the second rack 116 can be fixed without using bolts in the follow-up piling work.

The pushing device comprises a pushing mechanism 14, wherein the pushing mechanism 14 comprises a second pushing frame 140, a fourth pushing frame 141, a sliding plate 142 and a sixth spring 143, the second pushing frame 140 is connected to the rear side of the second pushing frame 133 in a bolt connection manner, the sliding plate 142 for pushing the pile body is slidably arranged at the rear side inside the storage frame 5, the sliding plate 142 is matched with the blanking opening, the sixth spring 143 is connected between the left side and the right side of the sliding plate 142 and the storage frame 5, the fourth pushing frame 141 is welded to the left side of the front portion of the sliding plate 142, and the fourth pushing frame 141 is matched with the second pushing frame 140.

The feeding mechanism 15 comprises a third supporting frame 150, a sliding rod 151, a pushing block 152 and a return spring 153, wherein the front side of the right part of the storage frame 5 is connected with the third supporting frame 150 in a bolt connection mode, the sliding rod 151 is arranged on the upper side of the third supporting frame 150, the pushing block 152 for pushing a pile body to a pressing opening is welded on the left side of the sliding rod 151, the return spring 153 is connected between the sliding rod 151 and the third supporting frame 150, the return spring 153 is sleeved on the sliding rod 151, and the pushing block 152 is located inside the storage frame 5.

In piling operation, the lifting frame 7 drives the first pushing frame 130 to move downwards to contact with the second sliding frame 133, so that the second pushing frame 133 drives the second pushing frame 140 to move rightwards, the second pushing frame 140 pushes the fourth sliding frame 141 to move forwards with the sliding plate 142, the sixth spring 143 is compressed, the sliding plate 142 pushes the pile body in the storage frame 5 to move forwards, so that the pile body at the forefront side in the storage frame 5 is pushed to be aligned with the pushing block 152, the blanking opening is blocked when the sliding plate 142 moves forwards, the pile body in the blanking frame 120 is prevented from falling, then the second pushing frame 133 is operated to drive the second pushing frame 140 to move leftwards to reset, the second pushing frame 140 is not contacted with the fourth sliding frame 141 any more, the sliding plate 142 drives the fourth sliding frame 141 to move backwards to reset under the action of the sixth spring 143, when the slide plate 142 moves to the rear side and does not block the discharging opening, one pile body in the discharging frame 120 falls to the position in front of the slide plate 142, then people can push the device to the next piling site, after the pressing opening is aligned with the designated position, people can move the slide rod 151 to the left side and drive the push block 152 to move to the left side, the reset spring 153 is compressed, the push block 152 can move to the left side and push the corresponding pile body to the connecting ring, the pile body can fall into the pressing opening to contact with the foundation, the push block 152 can move to the left side and also block the rest pile bodies, after the pile body falls into the pressing opening, people can release the slide rod 151, so that the slide rod 151 drives the push block 152 to move to the right side to reset under the action of the reset spring 153, after piling is finished, one pile body is automatically pushed to the position aligned with the push block 152, the pile driving device is convenient for pile driving work at the next pile driving place, can be automatically carried out, and reduces the trouble of manual operation.

Still including stabilizing mean 16, stabilizing mean 16 is including screw rod 160, turning block 161 and commentaries on classics handle 162, and the symmetry is connected with screw rod 160 through threaded connection's mode around base 1 left side, and the top of two screw rods 160 all welds has commentaries on classics handle 162, and the bottom of two screw rods 160 all rotates to be equipped with and is used for contacting with ground, can play the turning block 161 of brake effect to gyro wheel 2.

After people push the device to reach the designated position, the rotating handle 162 is rotated, the screw 160 is driven to rotate and move downwards, the screw 160 moves downwards to drive the rotating block 161 to move downwards, the rotating block 161 is in contact with the ground, the device can be clamped, the roller 2 is prevented from rotating to influence piling work, when one person needs to push the device after piling, the rotating handle 162 can be reversely rotated, the screw 160 is driven to reversely rotate and move upwards to reset, and then the rotating block 161 is driven to move upwards and not to contact with the ground any more, so that the device can be pushed by people.

It is to be understood that the above description is intended to be illustrative only and is not intended to be limiting. Those skilled in the art will appreciate variations of the present invention that are intended to be included within the scope of the claims herein.

Claims (6)

1. The utility model provides a building engineering foundation pile device, which is characterized by, including base (1), gyro wheel (2), push away (3), first support frame (4), storage frame (5), support column (6), crane (7), first spring (8), briquetting (9), second spring (10), pile mechanism (11) and unloading mechanism (12), both sides all bilateral symmetry rotation is equipped with gyro wheel (2) in base (1), base (1) left side is equipped with pushes away (3), base (1) top left rear side is equipped with first support frame (4), base (1) top right side is equipped with storage frame (5), storage frame (5) anterior left side is equipped with the go-between, base (1) top left front side is equipped with support column (6), crane (7) are equipped with crane (7) to the upper side sliding, be connected with first spring (8) between crane (7) and the support column (6), crane (7) right side sliding is equipped with briquetting (9), be connected with second spring (10) between briquetting (9) and crane (7), crane (1) top right side is equipped with storage frame (5), be equipped with between crane (4) and the top (12) of a support frame (4), the right side of the front part of the base (1) is provided with a pressing opening, and the connecting ring is aligned with the pressing opening;

the piling mechanism (11) comprises a second supporting frame (110), a motor (111), a rotating shaft (112), a gear-lacking wheel (113), a first rack (114), a straight gear (115) and a second rack (116), wherein the second supporting frame (110) is arranged at the front part of the lifting frame (7), the motor (111) is arranged on the second supporting frame (110), the rotating shaft (112) is arranged on an output shaft of the motor (111), the gear-lacking wheel (113) is arranged in the middle of the rotating shaft (112), the first rack (114) is arranged on the left side of the upper part of the pressing block (9), the gear-lacking wheel (113) is matched with the first rack (114), the straight gear (115) is symmetrically arranged in front of and behind the rotating shaft (112), the second rack (116) is arranged at the position of the right side of the supporting column (6) on the left front side of the top of the base (1) in a bolt connection mode, the bolt is arranged at the lower side of the second rack (116) and matched with the base (1), the second rack (116) is arranged outside the lifting frame (7), and the two straight gears (115) are matched with the second rack (116);

the blanking mechanism (12) comprises a blanking frame (120), a first sliding frame (121), a first pushing plate (122), a third spring (123), a second pushing plate (124), a pull handle (125) and a fourth spring (126), the blanking frame (120) is connected between the first supporting frame (4) and the top of the material storage frame (5), a blanking opening is formed in the right rear side of the bottom of the blanking frame (120), the blanking opening is aligned with the material storage frame (5), the first sliding frame (121) is arranged in the sliding mode on the left of the rear portion of the blanking frame (120), the first sliding frame (121) is provided with the first pushing plate (122), the first pushing plate (122) is connected with the blanking frame (120) in a sliding mode, the third spring (123) is connected between the upper side and the lower side of the first sliding frame (121) and the blanking frame (120), the second pushing plate (124) is arranged on the front side of the inside of the blanking frame (120), the second pushing plate (124) is contacted with the first pushing plate (122), the second pushing plate (124) is arranged on the left side of the right side of the blanking frame (120), the first pushing plate (125) is connected with the pull handle (125), and the pull handle (125) is arranged between the first pushing plate (125) and the pull handle (125) and the first pushing plate (125) is connected with the pull handle (125).

2. The foundation piling device for constructional engineering according to claim 1, further comprising a reset mechanism (13), wherein the reset mechanism (13) comprises a first pushing frame (130), a sliding rod (131), a fifth spring (132) and a second sliding frame (133), the front left side of the top of the base (1) is provided with the sliding rod (131) in a front-back symmetrical sliding mode at the outer position of the supporting column (6), the right ends of the two sliding rods (131) are connected with the second rack (116), the second sliding frame (133) is connected between the left ends of the two sliding rods (131), the second sliding frame (133) is connected with the base (1) in a sliding mode, the second sliding frame (133) is located outside the supporting column (6), the first pushing frame (130) is matched with the second sliding frame (133), the front-back sides of the left side of the lower part of the second rack (116) are connected with the fifth spring (132), and the two fifth springs (132) are sleeved on the sliding rods (131) on the same side.

3. The foundation piling device for constructional engineering according to claim 2, further comprising a pushing mechanism (14), wherein the pushing mechanism (14) comprises a second pushing frame (140), a fourth pushing frame (141), a sliding plate (142) and a sixth spring (143), the second pushing frame (140) is arranged at the rear side of the second pushing frame (133), the sliding plate (142) is arranged at the rear side of the interior of the storage frame (5), the sliding plate (142) is matched with the blanking opening, the sixth spring (143) is connected between the left side and the right side of the sliding plate (142) and the storage frame (5), the fourth pushing frame (141) is arranged at the left side of the front part of the sliding plate (142), and the fourth sliding frame (141) is matched with the second pushing frame (140).

4. A construction engineering foundation pile driving device according to claim 3, further comprising a feeding mechanism (15), wherein the feeding mechanism (15) comprises a third supporting frame (150), a sliding rod (151), a pushing block (152) and a return spring (153), the third supporting frame (150) is arranged on the front side of the right part of the storage frame (5), the sliding rod (151) is arranged on the upper side of the third supporting frame (150), the pushing block (152) is arranged on the left side of the sliding rod (151), the return spring (153) is connected between the sliding rod (151) and the third supporting frame (150), the return spring (153) is sleeved on the sliding rod (151), and the pushing block (152) is located inside the storage frame (5).

5. The foundation pile driving device for construction engineering according to claim 4, further comprising a stabilizing mechanism (16), wherein the stabilizing mechanism (16) comprises a screw (160), a rotating block (161) and a rotating handle (162), the screw (160) is symmetrically connected to the left side of the base (1) in a threaded connection mode, the rotating handles (162) are arranged at the tops of the two screws (160), and the rotating blocks (161) are arranged at the bottoms of the two screws (160) in a rotating mode.

6. A construction foundation pile driving device according to claim 5, characterised in that the upper side of the push handle (3) is provided with a rubber sleeve.

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