CN112081385A - Movable vibrating and leveling device - Google Patents

Abstract

The invention relates to the field of geothermal heating equipment, in particular to a movable vibrating and leveling device which comprises a machine body, wherein a moving device for providing power for the machine body to move is arranged on the lower side of the machine body, the moving device comprises a front moving crawler belt and a rear moving crawler belt which are arranged on the lower side of the machine body, the lower end of the moving crawler belt is in contact with the ground, when the moving crawler belts rotate, the moving crawler belts can drive the machine body to move leftwards above concrete, a vibrating device for vibrating the concrete is arranged on the right side of the moving device, the machine body can move on the concrete, when the machine body moves to a wall, the machine body can automatically turn and then vibrate the next row of concrete; the mobile device rear side is equipped with the device that vibrates, the device rear side that vibrates is equipped with floating device, makes the operation of vibrating and floating operation go on simultaneously, labour saving and time saving.

Description

Movable vibrating and leveling device

Technical Field

The invention relates to the field of geothermal heating equipment, in particular to a movable vibrating and leveling device.

Background

The ground heating uses the whole ground as a radiator, the whole ground is uniformly heated by a heating medium in a floor radiation layer, the heat is conducted from bottom to top by utilizing the self-uniform heat and upward heat radiation rule of the ground, so as to achieve the purpose of heating, during the installation process of the floor heating, concrete with a moving thickness needs to be poured, workers need to vibrate and trowel the concrete when the pouring is finished, so that the concrete layer obtains better strength, the traditional concrete vibration and trowel is realized by the vibrators held by the workers, the row-by-row operation is carried out on the indoor ground, the time consumption is long, and finally the vibrated concrete can cause large height deviation of a concrete layer and uneven ground due to internal agglomeration, the traditional equipment cannot simultaneously vibrate and trowel, so that the equipment which can quickly and simultaneously vibrate and trowel the concrete is absent at present, and the movable vibrating and trowel device is provided.

Disclosure of Invention

The invention aims to provide a movable vibrating and leveling device which can overcome the defects in the prior art, so that the practicability of equipment is improved.

The technical scheme adopted by the invention for solving the technical problems is as follows: a movable vibrating and leveling device comprises a machine body, wherein a moving device for providing power for the machine body to move is arranged on the lower side of the machine body, the moving device comprises a front moving crawler and a rear moving crawler which are arranged on the lower side of the machine body, the lower end of the moving crawler is in contact with the ground, when the moving crawler rotates, the moving crawler can drive the machine body to move leftwards above concrete, a vibrating device for vibrating the concrete is arranged on the right side of the moving device, the vibrating device comprises a vibrating ruler of which the lower end is in contact with the concrete, a front vibrating ruler connecting block and a rear vibrating ruler connecting block are fixedly arranged at the upper end of the vibrating ruler, when the machine body moves leftwards, the vibrating device can control the front vibrating ruler connecting block and the rear vibrating ruler connecting block to vibrate upwards and downwards intermittently, the vibrating ruler connecting block drives the vibrating ruler to vibrate upwards and downwards on a concrete layer, so that the strength of the concrete layer, the concrete surface leveling device comprises a leveling power cavity arranged in the machine body, a leveling slider is arranged in the leveling power cavity in a slant sliding manner, a leveling connecting rod penetrating through the lower side end wall of the leveling power cavity is arranged at the lower end of the leveling slider, a leveling ruler is fixedly arranged on the right side of the leveling connecting rod, when the machine body moves leftwards, the leveling device can control the leveling slider to slide in the leveling power cavity in a reciprocating manner, the leveling slider can drive the leveling ruler to push back and forth on the concrete surface layer, so that the concrete surface is kept smooth, an induction element for detecting a wall body is arranged in the end wall on the left side of the machine body, a steering motor for providing power for steering the machine body is arranged in the end wall on the lower side of the machine body, and when the machine body moves leftwards to the leftmost end, the induction element detects the wall body, turn to two around the motor control the removal track synchronous rotation, the removal track can drive the organism turns to, after the organism rotated the vibration cavity degree, turn to the motor and shut down, the removal track drives the organism continues to vibrate and trowel the operation right, finally accomplishes the whole vibration and trowel on ground.

Further, the moving device comprises a first moving power cavity arranged in the machine body, a moving motor is fixedly connected in the front side end wall of the first moving power cavity, a moving motor shaft is arranged at the rear end of the moving motor in a power connection manner, a front first moving bevel gear and a rear first moving bevel gear are fixedly connected on the moving motor shaft, a front moving power chamber and a rear moving power chamber are symmetrically arranged at the lower side of the machine body, a second moving power cavity is arranged in the moving power chamber, a moving power rotating shaft penetrating through the bottom wall of the first moving bevel gear and the top wall of the moving power chamber is rotatably connected between the second moving power cavity and the first moving power cavity, a second moving bevel gear meshed with the first moving bevel gear is fixedly connected in the first moving power cavity of the moving power rotating shaft, and a third moving bevel gear is fixedly connected in the second moving power cavity of the moving power rotating shaft, a front first movable belt pulley and a rear first movable belt pulley are arranged on one side of the front movable power chamber and the rear movable power chamber far away from the machine body, a first movable belt pulley rotating shaft penetrating through the outer side end wall of the second movable power chamber is fixedly connected with the inner side of the first movable belt pulley, a fourth movable bevel gear meshed with the third movable bevel gear is fixedly connected with the first movable belt pulley rotating shaft in the second movable power chamber, a second movable belt pulley rotating shaft is rotatably connected with the right end of the outer side end wall of the front movable power chamber and the right end of the outer side end wall of the rear movable power chamber, a second movable belt pulley is fixedly connected with the second movable belt pulley rotating shaft, the second movable belt pulley is in transmission connection with the first movable belt pulley, a steering power shaft is fixedly connected with the upper side end wall of the front movable power chamber and the rear movable power chamber, and a second steering bevel gear is fixedly connected with, the movable power rotating shaft penetrates through the upper end wall and the lower end wall of the steering power shaft, the steering motor is fixedly connected in the lower end wall of the machine body, the lower end of the steering motor is dynamically connected with a steering motor shaft, and the lower end of the steering motor shaft is fixedly connected with a first steering bevel gear which is meshed with the front second steering bevel gear and the rear second steering bevel gear, so that the movable function of the design is completed.

Further, the vibrating device comprises a vibrating cavity with a downward opening in the lower end wall of the machine body, the vibrating power chamber is arranged between the left end wall and the right end wall of the vibrating cavity in a sliding connection mode, a front vibrating spring and a rear vibrating spring are fixedly connected between the upper end wall of the vibrating power chamber and the top wall of the vibrating cavity, a vibrating power chamber is arranged in the vibrating power chamber, a vibrating motor is fixedly connected in the front end wall of the vibrating power chamber, a vibrating motor shaft is arranged at the rear end of the vibrating motor in a power connection mode, a first vibrating V belt wheel is fixedly connected at the rear end of the vibrating motor shaft, a vibrating feeding cavity is arranged at the rear side of the vibrating power chamber, a first vibrating rotating shaft is arranged between the vibrating feeding cavity and the vibrating power chamber in a rotating connection mode, a second vibrating V belt wheel is fixedly connected in the vibrating power chamber by the first vibrating rotating shaft, the first vibrating rotating shaft is provided with a vibrating slide block which is connected with the end wall of the vibrating feeding cavity in a rotating way in the vibrating feeding cavity, a third vibrating spring is fixedly connected between the rear side end wall of the vibrating slide block and the rear side end wall of the vibrating feeding cavity, the front side and the rear side of the upper end of the vibrating power cavity are symmetrically provided with two vibrating transmission cavities, the front vibrating transmission cavity and the rear vibrating transmission cavity are connected in a rotating way and provided with a second vibrating rotating shaft, the second vibrating rotating shaft is fixedly connected in the vibrating power cavity and provided with a front vibrating V belt pulley and a rear vibrating V belt pulley, the third vibrating V belt pulley, the second vibrating V belt pulley and the first vibrating V belt pulley are in transmission connection, the second vibrating rotating shaft is fixedly connected in the vibrating transmission cavity and provided with a vibrating power turntable, and a plurality of uniformly distributed vibrating lugs are fixedly connected on the outer side end wall of the vibrating power turntable, the utility model discloses a power rotary table, including the first fixed axle sleeve that vibrates, the first fixed axle sleeve that vibrates outside be equipped with the second pivot that vibrates rotates the fixed axle sleeve that vibrates of connection, the fixed axle sleeve upper end that vibrates with between the transmission chamber roof that vibrates fixed connection be equipped with the second spring that vibrates, the second pivot that vibrates is in the fixed cover that vibrates that is equipped with of the outdoor side rotation of the power of vibrating is connected, the fixed cover lower extreme fixed connection of ruler that vibrates be equipped with the ruler links piece, two around the piece is linked to the ruler lower extreme fixed connection that vibrates be equipped with the ruler that vibrates to accomplish the function of vibrating of this design.

Further, the floating device comprises the floating power cavity arranged on the right side of the vibrating power chamber, the floating power cavity is internally provided with the floating slide block in sliding connection, the lower end wall of the floating slide block is fixedly connected with the bottom wall of the floating power cavity and is provided with a floating spring, the lower end wall of the floating slide block is fixedly connected with the floating connecting rod penetrating through the lower end wall of the floating power cavity, the lower end of the floating connecting rod is fixedly connected with a floating connecting rod seat, the lower end of the floating connecting rod seat is fixedly connected with the floating ruler, the rear side of the floating power cavity is provided with a floating transmission cavity, the floating transmission cavity is rotatably connected with the floating power cavity and is provided with a floating power rotating shaft, the floating power rotating shaft is fixedly connected with a floating eccentric wheel in the floating power cavity, and the floating power rotating shaft is fixedly connected with a second floating belt pulley in the floating transmission cavity, the second floating belt pulley with the first floating belt pulley that fixed connection was equipped with on the mobile motor shaft has floating belt transmission to be connected to accomplish the floating function of this design.

The invention has the beneficial effects that: a movable vibrating and leveling device is provided with a moving device capable of moving on concrete, a machine body can move on the concrete, the machine body can automatically turn when moving to a wall body, and then the next row of concrete is vibrated; the mobile device rear side is equipped with the device that vibrates, the device rear side that vibrates is equipped with floating device, makes the operation of vibrating and floating operation go on simultaneously, labour saving and time saving.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

Fig. 1 is a schematic view of the overall structure of a mobile tamper-leveling apparatus according to the present invention;

FIG. 2 is a schematic view of the structure in the direction "A-A" of FIG. 1;

FIG. 3 is a schematic view of the structure in the direction "B-B" of FIG. 1;

FIG. 4 is a schematic view of the structure in the direction "C-C" of FIG. 1;

FIG. 5 is an enlarged view of the structure at "D" of FIG. 2;

FIG. 6 is a schematic view of the structure in the direction "E-E" of FIG. 3;

FIG. 7 is a schematic view of the structure in the direction "F-F" of FIG. 5.

Detailed Description

The invention will now be described in detail with reference to fig. 1 to 7, for the sake of convenience of description, the following orientations are now defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a movable vibrating and leveling device which is mainly applied to floor heating concrete pouring, and the invention is further explained by combining the attached drawings of the invention.

The invention relates to a movable vibrating and leveling device, which comprises a machine body 10, wherein a moving device 991 for providing power for the machine body 10 to move is arranged on the lower side of the machine body 10, the moving device 991 comprises a front moving crawler 16 and a rear moving crawler 16 which are arranged on the lower side of the machine body 10, the lower end of the moving crawler 16 is in contact with the ground, when the moving crawler 16 rotates, the moving crawler 16 can drive the machine body 10 to move leftwards above concrete, a vibrating device 992 for vibrating the concrete is arranged on the right side of the moving device 991, the vibrating device 992 comprises a vibrating ruler 17 of which the lower end is in contact with the concrete, a front vibrating ruler connecting block 27 and a rear vibrating ruler connecting block 27 are fixedly arranged at the upper end of the vibrating ruler 17, when the machine body 10 moves leftwards, the vibrating device 992 can control the front vibrating ruler connecting block 27 and the rear vibrating ruler connecting block 27 to intermittently vibrate upwards and downwards, the vibrating ruler connecting block 27 drives the vibrating ruler, thereby vibrating the concrete layer and improving the strength of the concrete layer, the right side of the vibrating power chamber 20 is provided with a floating device 993 for floating the surface of the concrete, the floating device 993 comprises a floating power cavity 21 arranged in the machine body 10, a floating slide block 45 is arranged in the floating power cavity 21 and can slide obliquely, the lower end of the floating slide block 45 is provided with a floating connecting rod 22 penetrating through the lower side end wall of the floating power cavity 21, the floating connecting rod 22 is provided with a floating ruler 24 fixed on the right side of the vibrating ruler 17, when the machine body 10 moves leftwards, the floating device 993 can control the floating slide block 45 to slide in the floating power cavity 21 in a reciprocating manner, the floating slide block 45 can drive the floating ruler 24 to push the concrete surface layer back and forth, so as to keep the surface of the concrete smooth, the end wall on the left side of the machine body 10 is provided with a sensing element 11 for detecting the wall, a steering motor 12 for providing power for steering the machine body 10 is arranged in the lower side end wall of the machine body 10, when the machine body 10 moves to the leftmost end leftwards, the induction element 11 detects a wall body, the steering motor 12 controls the front and rear two movable crawler belts 16 to synchronously rotate, the movable crawler belts 16 can drive the machine body 10 to steer, after the machine body 10 rotates the vibrating cavity by 180 degrees, the steering motor 12 is stopped, and the movable crawler belts 16 drive the machine body 10 to continue vibrating and leveling operation rightwards, so that the overall vibrating and leveling operation of the ground is finally completed.

Advantageously, the moving device 991 comprises a first moving power cavity 54 arranged in the machine body 10, a moving motor 56 is fixedly connected in the front end wall of the first moving power cavity 54, a moving motor shaft 52 is arranged in the rear end of the moving motor 56 in a power connection, a front first moving bevel gear 53 and a rear first moving bevel gear 53 are fixedly connected on the moving motor shaft 52, a front moving power chamber 15 and a rear moving power chamber 15 are symmetrically arranged on the lower side of the machine body 10, a second moving power cavity 60 is arranged in the moving power chamber 15, a moving power rotating shaft 57 penetrating through the bottom wall of the first moving bevel gear 53 and the top wall of the moving power chamber 15 is rotatably connected between the second moving power cavity 60 and the first moving power cavity 54, a second moving bevel gear 55 engaged with the first moving bevel gear 53 is fixedly connected in the first moving power cavity 54 by the moving power rotating shaft 57, the movable power rotating shaft 57 is fixedly connected with a third movable bevel gear 62 in the second movable power cavity 60, the front and rear two movable power chambers 15 are provided with a front and rear two first movable belt pulleys 64 on the side far away from the machine body 10, the inner side of the first movable belt pulley 64 is fixedly connected with a first movable belt pulley rotating shaft 63 penetrating through the outer end wall of the second movable power cavity 60, the first movable belt pulley rotating shaft 63 is fixedly connected with a fourth movable bevel gear 61 engaged with the third movable bevel gear 62 in the second movable power cavity 60, the right end of the outer end wall of the front and rear two movable power chambers 15 is rotatably connected with a second movable belt pulley rotating shaft 66, the second movable belt pulley 65 is fixedly connected with the second movable belt pulley rotating shaft 66, and the second movable belt pulley 65 is in transmission connection with the movable crawler 16 on the first movable belt pulley 64, the front and rear movable power chambers 15 are fixedly connected with a steering power shaft 14 on the upper end wall, the steering power shaft 14 is fixedly connected with a second steering bevel gear 59, the movable power rotating shaft 57 penetrates through the upper and lower end walls of the steering power shaft 14, the lower end wall of the machine body 10 is internally and fixedly connected with the steering motor 12, the lower end of the steering motor 12 is connected with a steering motor shaft 13 in a power mode, and the lower end of the steering motor shaft 13 is fixedly connected with a first steering bevel gear 58 which is engaged with the front and rear second steering bevel gears 59, so that the moving function of the design is completed.

Beneficially, the vibrating device 992 includes a vibrating cavity 18 with a downward opening in the lower end wall of the machine body 10, the vibrating power chamber 20 is slidably connected between the left and right end walls of the vibrating cavity 18, the vibrating motor shaft 34 is fixedly connected between the upper end wall of the vibrating power chamber 20 and the top wall of the vibrating cavity 18, the vibrating power chamber 25 is disposed in the vibrating power chamber 20, the vibrating motor 37 is fixedly connected in the front end wall of the vibrating power chamber 25, the vibrating motor shaft 34 is connected in the rear end of the vibrating motor shaft 37, the vibrating motor shaft 34 is fixedly connected in the rear end and provided with a first vibrating V pulley 36, the vibrating power chamber 25 is provided with a vibrating feeding chamber 31 in the rear side, the vibrating feeding chamber 31 is rotatably connected with the vibrating power chamber 25 and provided with a first vibrating shaft 33, the first vibrating shaft 33 is fixedly connected in the vibrating power chamber 25 and provided with a second vibrating V pulley 35, the first vibrating rotating shaft 33 is rotatably connected with the vibrating feeding cavity 31 and is provided with a vibrating sliding block 29 which is slidably connected with the end wall of the vibrating feeding cavity 31, the rear side end wall of the vibrating sliding block 29 is fixedly connected with the rear side end wall of the vibrating feeding cavity 31 and is provided with a third vibrating spring 32, the front side and the rear side of the upper end of the vibrating power cavity 25 are symmetrically provided with two vibrating transmission cavities 40, the front vibrating transmission cavity 40 and the rear vibrating power cavity 25 are rotatably connected and provided with a second vibrating rotating shaft 39, the second vibrating rotating shaft 39 is fixedly connected with the front vibrating power cavity 25 and is provided with a front vibrating V belt pulley 38 and a rear vibrating V belt pulley 38, the third vibrating V belt pulley 38, the second vibrating V belt pulley 35 and the first vibrating V belt pulley 36 are in transmission connection, the second vibrating rotating shaft 39 is fixedly connected with a vibrating power rotating disc 41 in the vibrating transmission cavity 40, the utility model discloses a vibrating and tamping machine, including vibrating power carousel 41, vibrating motor driving chamber 40, vibrating motor driving chamber 27, vibrating motor driving chamber 20, vibrating motor driving chamber 28, vibrating motor driving chamber 27, vibrating motor driving chamber 41, vibrating motor driving chamber 27, vibrating motor driving chamber 28, vibrating motor driving chamber 27, vibrating motor driving chamber 17, vibrating motor driving chamber 27, vibrating motor driving chamber.

Beneficially, the floating device 993 includes the floating power cavity 21 disposed on the right side of the vibrating power chamber 20, the floating power cavity 21 is slidably connected to be provided with the floating slider 45, the lower end wall of the floating slider 45 is fixedly connected to the bottom wall of the floating power cavity 21 and is provided with a floating spring 46, the lower end wall of the floating slider 45 is fixedly connected to be provided with the floating link 22 penetrating through the lower end wall of the floating power cavity 21, the lower end of the floating link 22 is fixedly connected to be provided with a floating link base 23, the lower end of the floating link base 23 is fixedly connected to be provided with the floating ruler 24, the rear side of the floating power cavity 21 is provided with a floating transmission cavity 49, the floating transmission cavity 49 is rotatably connected to the floating power cavity 21 and is provided with a floating power rotating shaft 48, the floating power rotating shaft 48 is fixedly connected to be provided with a floating eccentric 47 in the floating power cavity 21, the floating power rotating shaft 48 is fixedly connected with a second floating belt pulley 50 in the floating transmission cavity 49, and the second floating belt pulley 50 is in transmission connection with a first floating belt pulley 51 fixedly connected with the movable motor shaft 52 and provided with a floating belt 30, so that the floating function of the design is completed.

The steps of using a mobile tamper-leveling device herein are described in detail below with reference to fig. 1-7: at the beginning, the moving motor 56 is started, the moving motor 56 drives the first moving bevel gear 53 to rotate, the moving motor shaft 52 drives the first moving bevel gear 53 to rotate, the first moving bevel gear 53 drives the second moving bevel gear 55 to rotate, the second moving bevel gear 55 drives the moving power rotating shaft 57 to rotate, the moving power rotating shaft 57 drives the third moving bevel gear 62 to rotate, the third moving bevel gear 62 drives the fourth moving bevel gear 61 to rotate, the fourth moving bevel gear 61 drives the first moving belt pulley rotating shaft 63 to rotate, the first moving belt pulley rotating shaft 63 drives the first moving belt pulley 64 to rotate, the first moving belt pulley 64 drives the moving track 16 to transmit, the moving track 16 drives the first moving belt pulley 64 to move leftward, the first movable belt pulley 64 drives the movable power chamber 15 to move leftward, the movable power chamber 15 drives the steering motor shaft 13 to move leftward, the movable power rotating shaft 57 moves leftward, and the movable power rotating shaft 57 drives the machine body 10 to move leftward.

The vibration motor 37 is started, the vibration motor 37 drives the vibration motor shaft 34 to rotate, the vibration motor shaft 34 drives the first vibration V belt pulley 36 to rotate, the first vibration V belt pulley 36 drives the vibration V belt pulley 26 to transmit, the vibration V belt pulley 26 drives the front and back two third vibration V belt pulleys 38 and the second vibration V belt pulley 35 to rotate, the second vibration V belt pulley 35 drives the first vibration rotating shaft 33 to rotate, the third vibration V belt pulley 38 drives the second vibration rotating shaft 39 to rotate, the second vibration rotating shaft 39 drives the vibration power turntable 41 to rotate, the vibration power turntable 41 drives the vibration bump 42 to rotate and to contact with the top wall of the vibration transmission cavity 40, when the vibration bump 42 contacts with the top wall of the vibration transmission cavity 40, the vibration bump 42 pushes the vibration power turntable 41 to move downwards, the vibrating power turntable 41 drives the second vibrating rotating shaft 39 to move downwards, the second vibrating rotating shaft 39 drives the third vibrating V-belt pulley 38 and the vibrating fixing shaft sleeve 44 to move downwards, the second vibrating spring 43 is stretched, the upper end of the vibrating V-belt pulley 26 moves downwards, the third vibrating spring 32 pushes the vibrating slide block 29 to move forwards, the vibrating slide block 29 pushes the first vibrating rotating shaft 33 to move forwards, the first vibrating rotating shaft 33 pushes the second vibrating V-belt pulley 35 to move forwards, the second vibrating V-belt pulley 35 pushes the vibrating V-belt pulley 26 at the lower end to move downwards and re-tension the vibrating V-belt pulley 26, when the vibrating lug 42 is no longer in contact with the vibrating transmission cavity 40, the second vibrating spring 43 pulls the vibrating fixing shaft sleeve 44 to move upwards, and the vibrating fixing shaft sleeve 44 pulls the second vibrating rotating shaft 39 to move upwards, the second shaft 39 that vibrates promotes the upper end the V band pulley 26 that vibrates moves upwards, the lower extreme the V band pulley 26 that vibrates promotes the V band pulley 35 that vibrates moves backward, the V band pulley 35 that vibrates drives of second vibrates the slider 29 that vibrates slides backward, the compression of third vibrating spring 32, when second shaft 39 that vibrates up-and-down reciprocating motion, second shaft 39 that vibrates drives the fixed cover 28 of vibrating ruler vibrates from top to bottom, the fixed cover 28 of vibrating ruler drives the even piece 27 of vibrating ruler vibrates from top to bottom, the even piece 27 of vibrating ruler drives the vibrating ruler 17 vibrates from top to bottom, the vibrating ruler 17 vibrates the concrete.

When the moving motor shaft 52 rotates, the moving motor shaft 52 drives the first leveling belt pulley 51 to rotate, the first leveling belt pulley 51 drives the leveling belt 30 to transmit, the leveling belt 30 drives the second leveling belt pulley 50 to rotate, the second leveling belt pulley 50 drives the leveling power rotating shaft 48 to rotate, the leveling power rotating shaft 48 drives the leveling eccentric wheel 47 to rotate and intermittently contact with the leveling power cavity 21, when the leveling eccentric wheel 47 contacts with the leveling power cavity 21, the leveling eccentric wheel 47 drives the leveling power cavity 21 to slide downwards, the leveling power cavity 21 drives the leveling connecting rod 22 to move downwards, the leveling connecting rod 22 drives the leveling connecting rod seat 23 to move downwards, and the leveling connecting rod seat 23 drives the leveling ruler 24 to move downwards and flatten the concrete surface, after the floating eccentric wheel 47 rotates by a certain angle, the floating eccentric wheel 47 is separated from the floating power cavity 21, the floating spring 46 pushes the floating slide block 45 to slide upwards, and the floating slide block 45 drives the floating ruler 24 to slide upwards, so that the floating of the whole concrete surface is finally completed.

When the machine body 10 moves to the left to be close to a wall body, the sensing element 11 detects the wall body, the sensing element 11 controls the steering motor 12 to be started, the steering motor 12 drives the steering motor shaft 13 to rotate, the steering motor shaft 13 drives the first steering bevel gear 58 to rotate, the first steering bevel gear 58 drives the second steering bevel gear 59 to rotate, the second steering bevel gear 59 drives the steering power shaft 14 to rotate, the steering power shaft 14 drives the movable power chambers 15 on the front side and the rear side to synchronously rotate in the same direction, the movable power chamber 15 drives the first movable belt pulley rotating shaft 63 and the second movable belt pulley rotating shaft 66 to rotate, the first movable belt pulley rotating shaft 63 and the second movable belt pulley rotating shaft 66 drive the first movable belt pulley 64 and the second movable belt pulley 65 to rotate, the first movable belt pulley 64 and the second movable belt pulley 65 drive the movable crawler 16 to gradually rotate on the concrete surface, the movable crawler 16 drives the machine body 10 to turn, after the machine body 10 rotates the vibrating cavity by 180 degrees, the steering motor 12 stops, the machine body 10 moves rightwards, the vibrating ruler 17 and the leveling ruler 24 vibrate and level the next row of concrete, and finally vibration and leveling of the whole mixed egg soil layer are completed.

In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.

Claims (4)

1. The utility model provides a mobilizable vibration and trowelling device, includes the organism, its characterized in that: the machine body is characterized in that a moving device for providing power for moving the machine body is arranged on the lower side of the machine body, the moving device comprises a front moving crawler and a rear moving crawler which are arranged on the lower side of the machine body, the lower end of the moving crawler is in contact with the ground, when the moving crawler rotates, the moving crawler can drive the machine body to move leftwards above concrete, a vibrating device for vibrating the concrete is arranged on the right side of the moving device, the vibrating device comprises a vibrating ruler of which the lower end is in contact with the concrete, a front vibrating ruler connecting block and a rear vibrating ruler connecting block are fixedly arranged at the upper end of the vibrating ruler, when the machine body moves leftwards, the vibrating device can control the front vibrating ruler connecting block and the rear vibrating ruler connecting block to vibrate intermittently upwards and downwards, the vibrating ruler connecting block drives the vibrating ruler to vibrate upwards and downwards, so that the concrete layer is vibrated, the strength of the concrete layer is improved, a leveling device for leveling the concrete, the floating device comprises a floating power cavity arranged in the machine body, a floating slide block is arranged in the floating power cavity in a slant sliding manner, a floating connecting rod penetrating through the lower side end wall of the floating power cavity is arranged at the lower end of the floating slide block, a floating ruler is fixedly arranged on the right side of the vibrating ruler by the floating connecting rod, when the machine body moves leftwards, the floating device can control the floating slide block to slide in the floating power cavity in a reciprocating manner, the floating slide block can drive the floating ruler to push back and forth on the concrete surface layer, so that the concrete surface is kept smooth, an induction element for detecting a wall body is arranged in the left side end wall of the machine body, a steering motor for providing power for steering the machine body is arranged in the lower side end wall of the machine body, when the machine body moves leftwards to the leftmost end, the induction element detects the wall body, and the steering motor controls the front and rear moving tracks to rotate synchronously, the movable crawler belt can drive the machine body to turn, after the machine body rotates the vibration cavity degree, the steering motor is stopped, the movable crawler belt drives the machine body to continue vibrating and troweling operations rightwards, and finally the whole vibrating and troweling of the ground is finished.

2. A mobile tamper-leveling device according to claim 1, wherein: the moving device comprises a first moving power cavity arranged in the machine body, a moving motor is fixedly connected in the front side end wall of the first moving power cavity, a moving motor shaft is arranged at the rear end of the moving motor in a power connection manner, a front first moving bevel gear and a rear first moving bevel gear are fixedly connected on the moving motor shaft, a front moving power chamber and a rear moving power chamber which are symmetrical are arranged at the lower side of the machine body, a second moving power cavity is arranged in the moving power chambers, a moving power rotating shaft penetrating through the bottom wall of the first moving bevel gear and the top wall of the moving power chambers is rotatably connected between the second moving power cavity and the first moving power cavity, a second moving bevel gear meshed with the first moving bevel gear is fixedly connected in the first moving power cavity, and a third moving bevel gear is fixedly connected in the second moving power cavity, a front first movable belt pulley and a rear first movable belt pulley are arranged on one side of the front movable power chamber and the rear movable power chamber far away from the machine body, a first movable belt pulley rotating shaft penetrating through the outer side end wall of the second movable power chamber is fixedly connected with the inner side of the first movable belt pulley, a fourth movable bevel gear meshed with the third movable bevel gear is fixedly connected with the first movable belt pulley rotating shaft in the second movable power chamber, a second movable belt pulley rotating shaft is rotatably connected with the right end of the outer side end wall of the front movable power chamber and the right end of the outer side end wall of the rear movable power chamber, a second movable belt pulley is fixedly connected with the second movable belt pulley rotating shaft, the second movable belt pulley is in transmission connection with the first movable belt pulley, a steering power shaft is fixedly connected with the upper side end wall of the front movable power chamber and the rear movable power chamber, and a second steering bevel gear is fixedly connected with, the movable power rotating shaft penetrates through the upper end wall and the lower end wall of the steering power shaft, the steering motor is fixedly connected in the lower end wall of the machine body, the lower end of the steering motor is dynamically connected with a steering motor shaft, and the lower end of the steering motor shaft is fixedly connected with a first steering bevel gear which is meshed with the front second steering bevel gear and the rear second steering bevel gear, so that the movable function of the design is completed.

3. A mobile tamper-leveling device according to claim 1, wherein: the vibrating device comprises a vibrating cavity with a downward opening in the lower end wall of the machine body, the vibrating power chamber is arranged between the left end wall and the right end wall of the vibrating cavity in a sliding connection mode, a front first vibrating spring and a rear first vibrating spring are fixedly connected between the upper end wall of the vibrating power chamber and the top wall of the vibrating cavity, a vibrating motor is fixedly connected in the front end wall of the vibrating power chamber, a vibrating motor shaft is arranged in the rear end of the vibrating motor in a power connection mode, a first vibrating V belt wheel is fixedly connected at the rear end of the vibrating motor shaft, a vibrating feeding cavity is arranged at the rear side of the vibrating power chamber, a first vibrating rotating shaft is arranged between the vibrating feeding cavity and the vibrating power chamber in a rotating connection mode, a second vibrating V belt wheel is fixedly connected in the vibrating power chamber on the first vibrating rotating shaft, the first vibrating rotating shaft is provided with a vibrating slide block which is connected with the end wall of the vibrating feeding cavity in a rotating way in the vibrating feeding cavity, a third vibrating spring is fixedly connected between the rear side end wall of the vibrating slide block and the rear side end wall of the vibrating feeding cavity, the front side and the rear side of the upper end of the vibrating power cavity are symmetrically provided with two vibrating transmission cavities, the front vibrating transmission cavity and the rear vibrating transmission cavity are connected in a rotating way and provided with a second vibrating rotating shaft, the second vibrating rotating shaft is fixedly connected in the vibrating power cavity and provided with a front vibrating V belt pulley and a rear vibrating V belt pulley, the third vibrating V belt pulley, the second vibrating V belt pulley and the first vibrating V belt pulley are in transmission connection, the second vibrating rotating shaft is fixedly connected in the vibrating transmission cavity and provided with a vibrating power turntable, and a plurality of uniformly distributed vibrating lugs are fixedly connected on the outer side end wall of the vibrating power turntable, the utility model discloses a power rotary table, including the first fixed axle sleeve that vibrates, the first fixed axle sleeve that vibrates outside be equipped with the second pivot that vibrates rotates the fixed axle sleeve that vibrates of connection, the fixed axle sleeve upper end that vibrates with between the transmission chamber roof that vibrates fixed connection be equipped with the second spring that vibrates, the second pivot that vibrates is in the fixed cover that vibrates that is equipped with of the outdoor side rotation of the power of vibrating is connected, the fixed cover lower extreme fixed connection of ruler that vibrates be equipped with the ruler links piece, two around the piece is linked to the ruler lower extreme fixed connection that vibrates be equipped with the ruler that vibrates to accomplish the function of vibrating of this design.

4. A mobile tamper-leveling device according to claim 1, wherein: the floating device comprises a floating power cavity arranged on the right side of the vibrating power chamber, the floating power cavity is slidably connected with the floating slide block, a floating spring is fixedly connected between the lower end wall of the floating slide block and the bottom wall of the floating power cavity, the lower end wall of the floating slide block is fixedly connected with a floating connecting rod penetrating through the lower end wall of the floating power cavity, the lower end of the floating connecting rod is fixedly connected with a floating connecting rod seat, the lower end of the floating connecting rod seat is fixedly connected with a floating ruler, a floating transmission cavity is arranged on the rear side of the floating power cavity, a floating power rotating shaft is rotatably connected between the floating transmission cavity and the floating power cavity and is provided with a floating eccentric wheel, the floating power rotating shaft is fixedly connected with a floating eccentric wheel in the floating power cavity, and a second floating belt pulley is fixedly connected in the floating transmission cavity, the second floating belt pulley with the first floating belt pulley that fixed connection was equipped with on the mobile motor shaft has floating belt transmission to be connected to accomplish the floating function of this design.

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