CN113047258A - Ground tamping treatment device for civil engineering - Google Patents

Abstract

The invention relates to a tamping treatment device, in particular to a ground tamping treatment device for soil, which comprises moving wheels, a balancing weight, a device outer shell, a height adjusting device, two power transmission devices and a tamping device, wherein the moving wheels are movably arranged on the balancing weight, the balancing weight is respectively and fixedly arranged at two ends of the device outer shell, the height adjusting device is fixedly arranged on the device outer shell, the power transmission device is arranged above the height adjusting device, the tamping device is arranged on the power transmission device, and the tamping device is slidably arranged on the device outer shell, causing significant damage to the device.

Description

Ground tamping treatment device for civil engineering

Technical Field

The invention relates to a tamping treatment device, in particular to a ground tamping treatment device for soil.

Background

In the civil construction, different operations need different degrees of looseness in ground, some ground can be softer, unsuitable operation, so to carry out the tamping treatment to ground, old-fashioned tamping method mostly is car drive gravity roller and carries out the compaction, and some operation positions are less, it is very troublesome to use old-fashioned method, old-fashioned tamping method also has the striking tamping, but often have too big noise in old-fashioned tamping device and cause the damage to people's hearing, and the impact force to ground also can cause great injury to the device, has shortened life.

Disclosure of Invention

The invention mainly solves the technical problem of providing a ground tamping treatment device for the soil, 1. the device can adjust the tamping height of the device according to different requirements; 2. the device can buffer the collision force, and avoid the damage to the device caused by rigid contact in the device; 3. the height adjusting position of the device adopts inclined plane contact, so that the phenomenon that the internal stress is too large and great damage is caused to the device can be prevented.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a ground tamping treatment device for building, is including removing wheel, balancing weight, device shell body, high adjusting device, power transmission and tamping device, removal wheel movable mounting on the balancing weight, the balancing weight is provided with two, fixed mounting is respectively at the both ends of device shell body, high adjusting device fixed mounting is on the device shell body, power transmission is installed to high adjusting device's top, installs tamping device on the power transmission, tamping device slidable mounting is on the device shell body.

As a further optimization of the technical scheme, the invention relates to a ground tamping treatment device for soil, which comprises a fixed U-shaped frame, a power motor A, a transmission straight gear A, a driving straight gear, a gear fixing block, a transmission connecting rod, a sliding oblique block and a driving oblique block, wherein the fixed U-shaped frame is fixedly arranged on a device shell, the power motor A is fixedly arranged on the fixed U-shaped frame, the transmission straight gear A is arranged at the output end of the power motor A, the transmission straight gear A is movably arranged on the fixed U-shaped frame through a shaft, the transmission straight gear A is meshed with the driving straight gear through teeth, a mounting groove is arranged on the driving straight gear, the gear fixing block is slidably arranged in the mounting groove arranged on the driving straight gear, one end of the transmission connecting rod is movably arranged at the eccentric position of the driving straight gear through the shaft, and the other end of the transmission connecting rod is movably arranged on the sliding oblique block through the, the sliding inclined block is slidably mounted on the fixed U-shaped frame, the sliding inclined block is in contact with the driving inclined block through an inclined plane, the driving inclined block is slidably mounted on the fixed U-shaped frame, and a stop block is arranged above the fixed U-shaped frame.

As a further optimization of the technical scheme, the ground tamping treatment device for the soil and the trees comprises a mounting frame body, a power motor B, a driving disc body, a limiting frame body, an upper cover disc, a driving slide bar, a spring A, a spring mounting block, a connecting frame body, a spring B and a connecting shaft, wherein the mounting frame body is fixedly arranged on the driving inclined block, the power motor B is fixedly arranged on the mounting frame body, the driving disc body is arranged at the output end of the power motor B and is in contact with the limiting frame body, the limiting frame body is fixedly arranged on the mounting frame body, the upper cover disc is fixedly arranged above the limiting frame body, the driving slide bar is slidably arranged on the upper cover disc and is in contact with the driving disc body, the spring mounting block is fixedly arranged above the driving slide bar, the spring A is sleeved on the driving slide bar, and two ends of the spring A are respectively and fixedly arranged on the upper cover disc and, a connecting frame body is fixedly arranged above the spring mounting block, two ends of a spring B are respectively and fixedly arranged on the upper cover plate and the connecting frame body, and a connecting shaft is fixedly arranged above the connecting frame body;

the driving disc body comprises an installation chassis and an arc-shaped inclined block, the installation chassis is installed at the output end of the power motor B, and the arc-shaped inclined block is fixedly installed above the installation chassis.

As a further optimization of the technical scheme, the ground tamping treatment device for the soil comprises a control frame body, a fixed sliding frame and a tamping mechanism, wherein the lower part of the control frame body is fixedly provided with the fixed sliding frame;

the control frame comprises a frame body, a power motor C, a transmission straight gear B and a support straight gear, wherein the power motor C is fixedly arranged on the frame body;

the tamping mechanism comprises a tamping bottom plate, a tamping plate connecting rod, a sliding double-sided toothed rod and a buffer spring, wherein the tamping bottom plate is fixedly arranged below the tamping plate connecting rod, the sliding double-sided toothed rod is slidably arranged in the tamping plate connecting rod, the buffer spring is positioned in the tamping plate connecting rod, two ends of the buffer spring are respectively and fixedly arranged on the sliding double-sided toothed rod and the tamping plate connecting rod, and the sliding double-sided toothed rod is respectively meshed with a transmission straight gear B and a support straight gear through teeth.

The ground tamping treatment device for the soil has the beneficial effects that:

1. the transmission straight gear A403 rotates, and is meshed with the driving straight gear 404, so that the driving straight gear 404 is driven to rotate on the gear fixing block 405, the gear fixing block 405 has the function of avoiding the transmission connecting rod 406, the internal movement interference of the device is avoided, the driving straight gear 404 rotates, the transmission connecting rod 406 drives the sliding inclined block 407 to slide on the fixed U-shaped frame 401, the inclined block 407 moves, and is in inclined surface contact with the driving inclined block 408, so that the driving inclined block 408 is driven to move to slide on the fixed U-shaped frame 401, the height adjusting function is realized, and the damage of impact force to the device can be reduced by adopting the inclined surface contact;

2. the mounting base plate 512 rotates to drive the arc-shaped inclined block 513 to rotate, the arc-shaped inclined block 513 rotates to push and drive the sliding rod 506, the spring A507 and the spring B510 are further pulled through the spring mounting block 508 and the connecting frame body 509, when the sliding rod 506 is driven to fall off from the arc-shaped inclined block 513, the spring A507 and the spring B510 release elastic potential energy, and the connecting shaft 511 is further driven to move downwards, so that the function of driving the tamping device 6 is realized;

3. the transmission straight gear B606 rotates, the transmission straight gear B606 rotates through being meshed with the sliding double-sided toothed bar 610, and then the sliding double-sided toothed bar 610 is driven to move in the tamping plate connecting bar 609, the double-sided toothed bar 610 is in contact with the tamping plate connecting bar 609 through the upper side to achieve the function of adjusting the height of the tamping plate connecting bar 609, and is influenced by the gravity of the tamping bottom plate 608, the sliding double-sided toothed bar 610 and the tamping plate connecting bar 609 pull a buffer spring 611, when the tamping bottom plate 608 tamps the ground, the buffer spring 611 plays a buffering role, the tamping plate connecting bar 609 is prevented from rigidly colliding with the sliding double-sided toothed bar 610, damage is caused, impact force is reduced, and then the whole device is protected.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic perspective view of the entire ground tamping treatment device for soil of the present invention.

Fig. 2 is a schematic view showing an overall supplementary three-dimensional structure of a ground tamping treatment device for soil of the present invention.

Fig. 3 is a schematic perspective view of a height adjusting device 4 of a ground tamping treatment device for soil according to the present invention.

Fig. 4 is a supplementary perspective view of a height adjusting device 4 of a ground tamping treatment device for soil of the present invention.

Fig. 5 is a schematic cross-sectional view of the height adjusting device 4 of the ground tamping treatment device for soil according to the present invention.

Fig. 6 is a schematic perspective view of the power transmission device 5 of the ground tamping treatment device for soil of the present invention.

Fig. 7 is a supplementary perspective view of the power transmission device 5 of the ground tamping treatment device for soil of the present invention.

Fig. 8 is a supplementary perspective view of the power transmission device 5 of the ground tamping treatment device for soil of the present invention.

Fig. 9 is a schematic perspective view of a driving plate 503 of the ground tamping treatment device for soil and trees according to the present invention.

Fig. 10 is a schematic perspective view of a tamping device 6 of the ground tamping treatment device for soil of the present invention.

Fig. 11 is a schematic perspective view of a control frame 601 of the ground tamping treatment device for soil of the present invention.

Fig. 12 is a schematic cross-sectional view illustrating a control frame 601 of a ground tamping treatment device for soil according to the present invention.

Fig. 13 is a schematic perspective view of a tamping mechanism 603 of a ground tamping treatment device for soil according to the present invention.

Fig. 14 is a schematic cross-sectional view of a tamping mechanism 603 of a ground tamping treatment device for soil according to the present invention.

In the figure: a moving wheel 1; a balancing weight 2; a device outer case 3; a height adjusting device 4; a fixed U-shaped frame 401; a power motor A402; a spur gear a 403; driving a spur gear 404; a gear fixing block 405; a drive link 406; a sliding ramp block 407; driving the swash block 408; a power transmission device 5; a mounting frame 501; a power motor B502; driving the plate body 503; a restraint frame 504; an upper cover plate 505; driving the sliding bar 506; a spring A507; a spring mounting block 508; a connection frame body 509; a spring B510; a connecting shaft 511; a mounting chassis 512; an arc-shaped inclined block 513; a tamping device 6; a control frame 601; a stationary carriage 602; a tamping mechanism 603; a frame body 604; a power motor C605; a spur gear B606; a support spur gear 607; a tamper base 608; a tamper plate connecting rod 609; a sliding double-sided toothed bar 610; a buffer spring 611.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 and 2, and the ground tamping treatment device for the soil comprises a moving wheel 1, a balancing weight 2, a device outer shell 3, a height adjusting device 4, a power transmission device 5 and a tamping device 6, wherein the moving wheel 1 is movably mounted on the balancing weight 2, the balancing weight 2 is provided with two balancing weights, the two balancing weights are respectively and fixedly mounted at two ends of the device outer shell 3, the height adjusting device 4 is fixedly mounted on the device outer shell 3, the power transmission device 5 is mounted above the height adjusting device 4, the tamping device 6 is mounted on the power transmission device 5, and the tamping device 6 is slidably mounted on the device outer shell 3.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 3, 4 and 5, and the present embodiment further describes a first embodiment, where the height adjusting device 4 includes a fixed U-shaped frame 401, a power motor a402, a transmission spur gear a403, a driving spur gear 404, a gear fixing block 405, a transmission link 406, a sliding oblique block 407 and a driving oblique block 408, the fixed U-shaped frame 401 is fixedly installed on the device outer housing 3, the fixed U-shaped frame 401 is fixedly installed with the power motor a402, an output end of the power motor a402 is installed with the transmission spur gear a403, the transmission spur gear a403 is movably installed on the fixed U-shaped frame 401 through a shaft, the transmission spur gear a403 is engaged with the driving spur gear 404 through teeth, the driving spur gear 404 is provided with an installation groove, the gear fixing block 405 is slidably installed in the installation groove provided on the driving spur gear 404, one end of the transmission link 406 is movably installed at an eccentric position of the driving spur gear 404 through a shaft, the other end of the transmission connecting rod 406 is movably arranged on a sliding inclined block 407 through a shaft, the sliding inclined block 407 is slidably arranged on the fixed U-shaped frame 401, the sliding inclined block 407 is in contact with the driving inclined block 408 through an inclined surface, the driving inclined block 408 is slidably arranged on the fixed U-shaped frame 401, a stop block is arranged above the fixed U-shaped frame 401, the power motor A402 drives the transmission spur gear A403 to rotate, the transmission spur gear A403 rotates through being meshed with the driving spur gear 404 and further drives the driving spur gear 404 to rotate on the gear fixing block 405, the gear fixing block 405 has the function of avoiding the transmission connecting rod 406 and avoiding the internal motion interference of the device, the driving spur gear 404 rotates and drives the sliding inclined block 407 to slide on the fixed U-shaped frame 401 through the transmission connecting rod 406, the inclined block 407 moves through being in contact with the inclined surface of the driving inclined block 408 and further drives the inclined block 408 to move on the fixed U-shaped frame 401, and, the inclined surface contact is adopted, so that the damage of impact force to the device can be reduced.

The third concrete implementation mode:

the present embodiment is described below with reference to fig. 6, 7, 8, and 9, and the present embodiment further describes the first embodiment, where the power transmission device 5 includes a mounting frame 501, a power motor B502, a driving plate 503, a limiting frame 504, an upper cover plate 505, a driving slide rod 506, a spring a507, a spring mounting block 508, a connecting frame 509, a spring B510, and a connecting shaft 511, the mounting frame 501 is fixedly mounted on the driving slant block 408, the mounting frame 501 is fixedly mounted with the power motor B502, the output end of the power motor B502 is mounted with the driving plate 503, the driving plate 503 is in contact with the limiting frame 504, the limiting frame 504 is fixedly mounted on the mounting frame 501, the upper cover plate 505 is slidably mounted on the upper cover plate 505, the driving slide rod 506 is in contact with the driving plate 503, the spring mounting block 508 is fixedly mounted above the driving slide rod 506, a spring A507 is sleeved on the driving slide rod 506, two ends of the spring A507 are fixedly installed on the upper cover plate 505 and the spring installation block 508 respectively, a connection frame body 509 is fixedly installed above the spring installation block 508, two ends of a spring B510 are fixedly installed on the upper cover plate 505 and the connection frame body 509 respectively, and a connection shaft 511 is fixedly installed above the connection frame body 509;

the driving disc body 503 comprises an installation chassis 512 and an arc-shaped inclined block 513, the installation chassis 512 is installed at the output end of the power motor B502, the arc-shaped inclined block 513 is fixedly installed above the installation chassis 512, the power motor B502 drives the installation chassis 512 to rotate, the installation chassis 512 rotates to drive the arc-shaped inclined block 513 to rotate, the arc-shaped inclined block 513 rotates to push and drive the sliding rod 506, the spring A507 and the spring B510 are further pulled through the spring installation block 508 and the connecting frame body 509, when the sliding rod 506 is driven to fall off on the arc-shaped inclined block 513, the spring A507 and the spring B510 release elastic potential energy, and then the connecting shaft 511 is driven to move downwards, so that the function of driving the tamping device 6 is realized.

The fourth concrete implementation mode:

the present embodiment is described below with reference to fig. 10, 11, 12, 13, and 14, and the present embodiment further describes the present embodiment, in which the tamping device 6 includes a control frame 601, a fixed carriage 602, and a tamping mechanism 603, the lower portion of the control frame 601 is fixedly mounted on the fixed carriage 602, the tamping mechanism 603 is mounted on the control frame 601, and the tamping mechanism 603 is slidably mounted on the fixed carriage 602;

the control rack body 601 comprises a rack body 604, a power motor C605, a transmission spur gear B606 and a support spur gear 607, wherein the power motor C605 is fixedly arranged on the rack body 604, the output end of the power motor C605 is provided with the transmission spur gear B606, the transmission spur gear B606 is movably arranged on the rack body 604, and the support spur gear 607 is movably arranged on the rack body 604;

the tamping mechanism 603 comprises a tamping bottom plate 608, a tamping plate connecting rod 609, a sliding double-sided toothed bar 610 and a buffer spring 611, the tamping bottom plate 608 is fixedly arranged below the tamping plate connecting rod 609, the sliding double-sided toothed bar 610 is slidably arranged in the tamping plate connecting rod 609, the buffer spring 611 is positioned in the tamping plate connecting rod 609, two ends of the buffer spring 611 are respectively and fixedly arranged on the sliding double-sided toothed bar 610 and the tamping plate connecting rod 609, the sliding double-sided toothed bar 610 is respectively engaged with a transmission spur gear B606 and a support spur gear 607 through teeth, a power motor C605 rotates to drive the transmission spur gear B606 to rotate, the transmission spur gear B606 rotates to drive the sliding double-sided toothed bar 610 to move in the tamping plate connecting rod 609 through being engaged with the tamping plate connecting rod 609, the double-sided toothed bar 610 is contacted with the tamping plate connecting rod 609 through the upper surface to realize the function of adjusting the height of the tamping plate connecting rod 609 and is influenced by the gravity 608 of the tamping bottom plate, the sliding double-sided toothed bar 610 and the tamping plate connecting bar 609 pull the buffer spring 611, when the tamping bottom plate 608 tamps the ground, the buffer spring 611 plays a role in buffering, the tamping plate connecting bar 609 is prevented from rigidly colliding with the sliding double-sided toothed bar 610 to cause damage, impact force is reduced, and then the whole device is protected.

The invention relates to a ground tamping treatment device for soil, which has the working principle that:

the power motor A402 is started, the power motor A402 drives the transmission spur gear A403 to rotate, the transmission spur gear A403 rotates through being meshed with the transmission spur gear 404, the transmission spur gear 404 is driven to rotate on the gear fixing block 405, the gear fixing block 405 has the function of avoiding the transmission connecting rod 406, internal movement interference of the device is avoided, the transmission spur gear 404 is driven to rotate, the transmission connecting rod 406 drives the sliding inclined block 407 to slide on the fixed U-shaped frame 401, the inclined block 407 moves through being in inclined surface contact with the driving inclined block 408, and the driving inclined block 408 is driven to slide on the fixed U-shaped frame 401, so that the height adjusting function is achieved, and damage to the device caused by impact force can be reduced through the inclined surface contact.

The power motor B502 is started, the power motor B502 drives the mounting base plate 512 to rotate, the mounting base plate 512 rotates to drive the arc-shaped inclined block 513 to rotate, the arc-shaped inclined block 513 rotates to push the slide rod 506, the spring A507 and the spring B510 are further pulled through the spring mounting block 508 and the connecting frame body 509, when the slide rod 506 is driven to fall off from the arc-shaped inclined block 513, the spring A507 and the spring B510 release elastic potential energy, the connecting shaft 511 is further driven to move downwards, and therefore the function of driving the tamping device 6 is achieved.

The connecting shaft 511 moves to drive the frame body 604 to move, the power motor C605 is started, the power motor C605 rotates to drive the transmission spur gear B606 to rotate, the transmission spur gear B606 rotates to be meshed with the sliding double-sided toothed bar 610, the sliding double-sided toothed bar 610 is further driven to move in the tamping plate connecting rod 609, the double-sided toothed bar 610 is in contact with the tamping plate connecting rod 609 through the upper side to achieve the function of adjusting the height of the tamping plate connecting rod 609, the double-sided toothed bar is influenced by the gravity of the tamping bottom plate 608, the sliding double-sided toothed bar 610 and the tamping plate connecting rod 609 pull the buffer spring 611, when the tamping bottom plate 608 tamps the ground, the buffer spring 611 plays a buffer role, the tamping plate connecting rod 609 is prevented from rigidly colliding with the sliding double-sided toothed bar 610, damage is avoided, impact force is reduced.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (4)

1. The utility model provides a ground tamp processing apparatus for building, includes removal wheel (1), balancing weight (2), device shell body (3), height adjusting device (4), power transmission (5) and tamping unit (6), its characterized in that: the movable mounting that removes wheel (1) on balancing weight (2), balancing weight (2) are provided with two, fixed mounting is at the both ends of device shell body (3) respectively, altitude mixture control device (4) fixed mounting is on device shell body (3), power transmission (5) are installed to the top of altitude mixture control device (4), install tamping unit (6) on power transmission (5), tamping unit (6) slidable mounting is on device shell body (3).

2. The ground tamping treatment device for soil according to claim 1, wherein: the height adjusting device (4) comprises a fixed U-shaped frame (401), a power motor A (402), a transmission straight gear A (403), a driving straight gear (404), a gear fixing block (405), a transmission connecting rod (406), a sliding inclined block (407) and a driving inclined block (408), wherein the fixed U-shaped frame (401) is fixedly arranged on the device outer shell (3), the power motor A (402) is fixedly arranged on the fixed U-shaped frame (401), the transmission straight gear A (403) is arranged at the output end of the power motor A (402), the transmission straight gear A (403) is movably arranged on the fixed U-shaped frame (401) through a shaft, the transmission straight gear A (403) is meshed with the driving straight gear (404) through teeth, a mounting groove is formed in the driving straight gear (404), the gear fixing block (405) is slidably arranged in the mounting groove formed in the driving straight gear (404), one end of the transmission connecting rod (406) is movably arranged at the eccentric position of the driving straight gear (404) through a shaft, the other end of the transmission connecting rod (406) is movably mounted on a sliding inclined block (407) through a shaft, the sliding inclined block (407) is slidably mounted on the fixed U-shaped frame (401), the sliding inclined block (407) is in contact with the driving inclined block (408) through an inclined plane, the driving inclined block (408) is slidably mounted on the fixed U-shaped frame (401), and a stop block is arranged above the fixed U-shaped frame (401).

3. A ground-tamping treatment device for soil according to claim 1 or claim 2, wherein: the power transmission device (5) comprises an installation frame body (501), a power motor B (502), a driving disc body (503), a limiting frame body (504), an upper cover disc (505), a driving slide rod (506), a spring A (507), a spring installation block (508), a connection frame body (509), a spring B (510) and a connection shaft (511), wherein the installation frame body (501) is fixedly installed on a driving inclined block (408), the power motor B (502) is fixedly installed on the installation frame body (501), the driving disc body (503) is installed at the output end of the power motor B (502), the driving disc body (503) is contacted with the limiting frame body (504), the limiting frame body (504) is fixedly installed on the installation frame body (501), the upper cover disc (505) is fixedly installed above the limiting frame body (504), the driving slide rod (506) is installed on the upper cover disc (505) in a sliding manner, the driving slide rod (506) is contacted with the driving disc, a spring mounting block (508) is fixedly mounted above the driving sliding rod (506), a spring A (507) is sleeved on the driving sliding rod (506), two ends of the spring A (507) are fixedly mounted on the upper cover plate (505) and the spring mounting block (508) respectively, a connecting frame body (509) is fixedly mounted above the spring mounting block (508), two ends of a spring B (510) are fixedly mounted on the upper cover plate (505) and the connecting frame body (509) respectively, and a connecting shaft (511) is fixedly mounted above the connecting frame body (509);

the driving disc body (503) comprises an installation chassis (512) and an arc-shaped inclined block (513), the installation chassis (512) is installed at the output end of the power motor B (502), and the arc-shaped inclined block (513) is fixedly installed above the installation chassis (512).

4. The ground tamping treatment device for soil according to claim 1, wherein: the tamping device (6) comprises a control frame body (601), a fixed sliding frame (602) and a tamping mechanism (603), wherein the lower part of the control frame body (601) is fixedly provided with the fixed sliding frame (602), the tamping mechanism (603) is arranged on the control frame body (601), and the tamping mechanism (603) is arranged on the fixed sliding frame (602) in a sliding manner;

the control rack body (601) comprises a rack body (604), a power motor C (605), a transmission spur gear B (606) and a support spur gear (607), wherein the power motor C (605) is fixedly arranged on the rack body (604), the output end of the power motor C (605) is provided with the transmission spur gear B (606), the transmission spur gear B (606) is movably arranged on the rack body (604), and the support spur gear (607) is movably arranged on the rack body (604);

the tamping mechanism (603) comprises a tamping bottom plate (608), a tamping plate connecting rod (609), a sliding double-sided toothed rod (610) and a buffer spring (611), wherein the tamping bottom plate (608) is fixedly arranged below the tamping plate connecting rod (609), the sliding double-sided toothed rod (610) is slidably arranged in the tamping plate connecting rod (609), the buffer spring (611) is arranged in the tamping plate connecting rod (609), two ends of the buffer spring (611) are respectively and fixedly arranged on the sliding double-sided toothed rod (610) and the tamping plate connecting rod (609), and the sliding double-sided toothed rod (610) is respectively meshed with a transmission spur gear B (606) and a support spur gear (607) through teeth.

Images