CN114487366A

CN114487366A - Portable concrete slump detects quick belt cleaning device

Info

Publication number: CN114487366A
Application number: CN202210018742.1A
Authority: CN
Inventors: 张国生
Original assignee: Individual
Current assignee: Yongzhou Huasen Concrete Co ltd
Priority date: 2022-01-09
Filing date: 2022-01-09
Publication date: 2022-05-13
Anticipated expiration: 2042-01-09
Also published as: CN114487366B

Abstract

The invention relates to a cleaning device, in particular to a movable rapid cleaning device for concrete slump detection. The technical problem to be solved is as follows: the utility model provides a but quick belt cleaning device of portable concrete slump detection of self-cleaning slump bucket inner wall is provided. The technical scheme is as follows: a movable rapid cleaning device for concrete slump detection comprises a vehicle body, a vehicle handle, a first fixing plate, a second fixing plate, a fixing block, universal wheels, a barrel body lifting mechanism, a concrete conveying mechanism and the like; the handlebar is installed to the automobile body rear side, and the automobile body top is fixed with the second fixed plate, and automobile body top rear side and second fixed plate top rear side are fixed with a first fixed plate jointly. The slump constant detection device can be used for slump detection, and can automatically clean the inner wall of a slump barrel, so that the labor consumption is saved, and the detection speed is accelerated; the bucket body lifting mechanism can enable the slump bucket to vertically lift.

Description

Portable concrete slump detects quick belt cleaning device

Technical Field

The invention relates to a cleaning device, in particular to a movable rapid cleaning device for concrete slump detection.

Background

Before construction, slump detection is needed to be carried out on concrete, the slump detection of the concrete is mainly used for testing the slump value of the concrete, and the workability of the concrete is analyzed through the detected slump value, so that whether the prepared concrete meets the requirements of engineering construction or not is evaluated.

When need carry out bulky concrete placement at the job site, in order to ensure the quality of concrete, need test the slump of concrete frequently, current testing process needs artifical manual operation mostly, and the concrete may be touched to the manual slump bucket of taking out during the detection, lead to the testing result inaccurate, and detect and can't wash the inner wall of slump bucket automatically after accomplishing, the testing result can be influenced if continuous use, manual washing is more troublesome again, wash speed slowly and still can influence follow-up detection process, consequently need design a portable concrete slump detection quick cleaning device that can vertical lift slump bucket and self-cleaning slump bucket inner wall.

Disclosure of Invention

In order to overcome the most artifical manual operation that needs of current testing process, manually take out the slump bucket and may touch the concrete when detecting in addition, lead to the testing result inaccurate, detect moreover and can't wash the inner wall of slump bucket automatically after accomplishing, the continuous use can influence the testing result, manual cleaning's the trouble again, wash speed slowly and still can influence the shortcoming of follow-up detection process, the technical problem that will solve: the utility model provides a but quick belt cleaning device of portable concrete slump detection of self-cleaning slump bucket inner wall is provided.

The technical scheme is as follows: a movable rapid cleaning device for concrete slump detection comprises a vehicle body, a handlebar, a first fixing plate, a second fixing plate, fixing blocks, universal wheels, a barrel body lifting mechanism, a concrete conveying mechanism, a vibration mechanism and a barrel body inner wall cleaning mechanism, wherein the handlebar is installed on the rear side of the vehicle body, the second fixing plate is fixed on the top of the vehicle body, the first fixing plate is fixed on the rear side of the top of the vehicle body and the rear side of the top of the second fixing plate together, the fixing block is fixed on the leftmost side of the top of the second fixing plate, four universal wheels are installed at the bottom of the vehicle body, the barrel body lifting mechanism is installed on the left side of the top of the second fixing plate, the barrel body can be vertically lifted by the barrel body lifting mechanism, the concrete conveying mechanism is installed on the top of the first fixing plate, the concrete conveying mechanism is used for conveying concrete, the vibration mechanism is installed in the concrete conveying mechanism, and the vibration mechanism is used for vibrating and knocking the outer wall of the barrel body, the cleaning mechanism for the inner wall of the barrel body is arranged in the lifting mechanism for the barrel body, and is used for cleaning the inner wall of the barrel body.

Further, staving elevating system is including the guide bar, a motor, first lead screw, staving mount and slump bucket, and second fixed plate top left side is fixed with a guide bar, and a motor is installed at the guide bar top, and the output shaft of a motor is connected on first lead screw, and first lead screw bottom is rotated with the guide bar and is connected, and the cover has a staving mount on the nut on the first lead screw, staving mount and guide bar sliding connection install the slump bucket in the staving mount.

Further, concrete conveying mechanism is including first mount, the concrete transport machine, No. two motors, No. three motors and second lead screw, first fixed plate top rear side is fixed with a No. three motor, be connected with a second lead screw on the output shaft of No. three motors, the second lead screw rotates with first fixed plate to be connected, nut overcoat on the second lead screw has a first mount, first mount and first fixed plate sliding connection, first mount top rotates and is connected with a concrete transport machine, a No. two motors are installed to the left rear side of first mount, the output shaft of No. two motors is connected on the concrete transport machine.

Furthermore, the vibration mechanism comprises a second fixing frame, a vibration motor and a vibration plate, the second fixing frame is fixed in the middle of the front side of the first fixing frame, the vibration motor is installed in the second fixing frame, and the vibration plate is connected to an output shaft of the vibration motor.

Further, the cleaning mechanism for the inner wall of the barrel body comprises a third fixing frame, a water guide pipe, a fourth fixing frame, a fifth fixing plate, a fourth motor, a first belt pulley, a transmission belt, a second belt pulley, a first connecting rod, a brush plate, a first water outlet pipe, a second water outlet pipe, a control rod, a lifting rod, a second spring, a bottom fixing rod, a water outlet, a loop bar and a second connecting rod, wherein the third fixing frame is fixed at the top of the front side of the guide rod, the water guide pipe is fixed in the third fixing frame, the first water outlet pipe and the second water outlet pipe are connected to the right rear side of the water guide pipe, the fourth fixing frame is fixed at the top of the rear side of the guide rod, the fourth motor is installed at the rightmost side of the fourth fixing frame, the first belt pulley is fixedly connected to an output shaft of the fourth motor, the fifth fixing plate is fixed at the rightmost side of the bottom of the fourth fixing frame, and the front side of the bottom of the fifth fixing frame is rotatably connected with the second belt pulley, the utility model discloses a quick-witted, including first belt pulley and second belt pulley, be provided with a drive belt on the side of second belt pulley jointly, the symmetry is fixed with four head rods on the side of second belt pulley, the other end of two head rods of homonymy articulates there is a brush board, the spout has been opened at the guide bar top, sliding connection has a lifter in the spout at guide bar top, even there are two second springs between guide bar and the lifter, the bottom right side rotation joint of lifter has a control lever, the bottom of control lever is fixed with a bottom dead lever, the control lever overcoat has a loop bar, the loop bar bottom is connected with the bottom dead lever, the loop bar bottom articulates there are two second connecting rods, the other end of two second connecting rods articulates respectively on two brush boards, symmetrical connection is in the loop bar both sides behind first outlet pipe and the second outlet pipe all passing fifth fixed plate, be provided with a plurality of delivery ports on first outlet pipe and the second outlet pipe.

Furthermore, still including spirit level and lifting screw, both sides all are provided with a spirit level around the automobile body, and the automobile body bottom is connected with four universal wheels through four lifting screw.

Furthermore, the universal wheel locking device further comprises locking screws, and one locking screw is arranged outside each universal wheel.

Furthermore, the device also comprises a connecting plate, and the front side of the top of the first fixing frame is fixed with the connecting plate.

Further, the device comprises a third fixing plate, a fourth fixing plate, a first sliding block, a first spring, a second sliding block, a first sliding rod, a third sliding block, a fourth sliding block, a second sliding rod and a third spring, wherein the left side of the bottom of the trolley body is fixedly provided with the fourth fixing plate, the bottom of the trolley body is also fixedly provided with the four third fixing plates, gaps are reserved between the four third fixing plates and the fourth fixing plate, the fourth fixing plate is slidably connected with the first sliding block, the first spring is connected between the bottom of the first sliding block and the fourth fixing plate, the third fixing plate and the fourth fixing plate are slidably connected with the first sliding rod, the second sliding block is slidably connected between the gaps between the third fixing plate and the fourth fixing plate, the second sliding block or the third sliding block is slidably connected at the gap between the fourth fixing plates, the fourth sliding block is slidably connected at two sides of the bottom of the barrel body fixing frame, a third spring is connected between the barrel body fixing frame and the fourth sliding block, a second sliding rod is connected to each of two sides of the guide rod in a sliding mode, and the bottom of the second sliding rod is connected to the first sliding block in a rotating mode.

The beneficial effects are that: the slump constant detection device can be used for slump detection, and can automatically clean the inner wall of a slump barrel, so that the labor consumption is saved, and the detection speed is accelerated; the barrel body lifting mechanism can vertically lift the slump barrel, and when the barrel body is vertically lifted, the slump barrel can be prevented from being separated from concrete, and the detection result is influenced by the fact that the slump barrel touches the concrete again; the concrete conveying mechanism can quickly add concrete into the barrel body, so that the detection speed is improved; the vibration mechanism can replace manual work to quickly knock the outer wall of the slump constant barrel, so that the labor consumption is reduced, and the knocking speed is increased; the inner wall cleaning mechanism of the barrel body can timely clean the inner wall of the slump barrel, and can quickly perform next detection after cleaning is finished, so that the overall detection speed is improved; each universal wheel at the bottom of the vehicle body can be adjusted in height, so that the vehicle body can be kept in a horizontal state at any time, and the influence on a detection result due to the inclination of the vehicle body is avoided; the locking screw can lock the universal wheel, so that the influence of the movement of the vehicle body on a detection result in the detection process is prevented; a connecting plate is arranged between the concrete conveyer and the slump bucket, and the connecting plate can prevent concrete from falling from a gap; the in-process that descends once more after slump bucket washs finishes can make the concrete that stays when detecting last drop from the hole at automobile body middle part, need not artifical clearance, has promoted detection speed.

Drawings

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

FIG. 2 is a schematic structural view of the barrel elevating mechanism of the present invention.

Fig. 3 is a schematic structural view of the concrete conveying mechanism and the vibrating mechanism of the present invention.

FIG. 4 is a schematic view of a part of the inner wall cleaning mechanism of the barrel body of the present invention.

FIG. 5 is an enlarged schematic view of the inner wall cleaning mechanism of the barrel body of the present invention.

FIG. 6 is a schematic structural diagram of the first slider portion of the present invention.

FIG. 7 is an exploded view of the fourth slider and the second slider bar according to the present invention.

FIG. 8 is a schematic structural diagram of the first slider and the second slider according to the present invention.

Reference numerals: 1. a vehicle body 101, a vehicle handle 102, a first fixing plate, 103, a second fixing plate, 1031, a fixing block, 104, a level gauge 105, a third fixing plate, 106, a fourth fixing plate, 107, a first sliding block, 1071, a first spring, 108, a second sliding block, 109, a first sliding rod, 110, a third sliding block, 111, a lifting screw, 112, a universal wheel, 113, a locking screw, 2, a guide rod, 201, a motor, 202, a first screw rod, 203, a barrel fixing frame, 204, a slump barrel, 3, a first fixing frame, 301, a concrete conveyer, 302, a connecting plate, 303, a second motor, 304, a third motor, 305, a second screw rod, 4, a second fixing frame, 401, a vibration motor, 402, a vibration plate, 5, a third fixing frame, 501, a water guide pipe, 502, a fourth fixing frame, 5021, a fifth fixing plate, 503, a fourth motor, 5031, a first belt pulley, 504. the device comprises a transmission belt, 505, a second belt pulley, 506, a first connecting rod, 507, a brush board, 508, a first water outlet pipe, 509, a second water outlet pipe, 510, a control rod, 5101, a lifting rod, 5102, a second spring, 5103, a bottom fixing rod, 511, a water outlet, 512, a loop bar, 513, a second connecting rod, 6, a fourth sliding block, 601, a second sliding rod, 602 and a third spring.

Detailed Description

The technical scheme of the invention is further explained by combining the attached drawings.

Example 1

A movable rapid cleaning device for concrete slump detection is shown in figures 1-5 and comprises a vehicle body 1, a handlebar 101, a first fixing plate 102, a second fixing plate 103, a fixing block 1031, universal wheels 112, a barrel lifting mechanism, a concrete conveying mechanism, a vibrating mechanism and a barrel inner wall cleaning mechanism, wherein the handlebar 101 is installed on the rear side of the vehicle body 1, lines are arranged on the handlebar 101 and are convenient to push manually, the second fixing plate 103 is fixed on the top of the vehicle body 1, a through hole is formed in the middle of the second fixing plate 103, the first fixing plate 102 is fixed on the rear side of the top of the vehicle body 1 and the rear side of the top of the second fixing plate 103 together, the first fixing plate 102 is used for installing the concrete conveying mechanism, the fixing block 1031 is fixed on the leftmost side of the top of the second fixing plate 103, the fixing block 1031 is a triangular block, four universal wheels 112 are installed at the bottom of the vehicle body 1, and the universal wheels 112 are installed to facilitate the movement of the vehicle body 1, staving elevating system installs in second fixed plate 103 top left side, staving elevating system can make staving vertical lift, staving vertical lift can avoid touching the concrete influence testing result, concrete conveying mechanism installs at first fixed plate 102 top, concrete conveying mechanism is used for carrying the concrete, vibrations mechanism installs in concrete conveying mechanism, vibrations mechanism is used for vibrations to strike the external wall of barrel, the internal wall wiper mechanism of barrel installs in staving elevating system, the internal wall wiper mechanism of barrel is used for wasing the internal wall of barrel.

Before testing, a baffle plate is placed at the center of the top of the second fixing plate 103, the barrel lifting mechanism is lowered onto the baffle plate on the second fixing plate 103, after the bottom of the barrel is contacted with the top of the baffle plate, the concrete conveying mechanism is started to convey concrete into the barrel, the concrete is filled for three times, the vibration mechanism is started after each filling to uniformly distribute the concrete in the barrel, the barrel is filled after the three times of filling, the top of the barrel is leveled after the concrete in the barrel is compacted, then the barrel lifting mechanism is lifted, the concrete generates a slump phenomenon due to self weight, so that the slump of the concrete is tested, after the test is completed, the barrel lifting mechanism is lifted to the highest position, the inner wall of the barrel needs to be cleaned, the inner wall cleaning mechanism of the barrel is started to clean the inner wall of the barrel, the residual concrete falls onto the baffle plate along the barrel, and then the baffle plate and the concrete are cleaned by workers, the slump can be detected and the barrel body can be cleaned.

Example 2

On the basis of the embodiment 1, as shown in fig. 2, the barrel body lifting mechanism comprises a guide rod 2 and a first motor 201, first lead screw 202, staving mount 203 and slump bucket 204, second fixed plate 103 top left side is fixed with a guide bar 2, it has a spout to open on the 2 right sides of guide bar, a motor 201 is installed at 2 tops of guide bar, the output shaft of a motor 201 is on first lead screw 202, a motor 201 can drive first lead screw 202 and rotate, first lead screw 202 bottom is rotated with guide bar 2 and is connected, the cover has a staving mount 203 on the nut on first lead screw 202, staving mount 203 rear side is in the spout on guide bar 2, staving

mount

203 and 2 sliding connection of guide bar, staving mount 203 can reciprocate along first lead screw 202, install slump bucket 204 in the staving mount 203, slump bucket 204 is the tubaeform staving of a little up-down big.

When slump bucket 204 needs to descend, start a motor 201, a motor 201 drives first lead screw 202 rotatory, first lead screw 202 is rotatory to make staving mount 203 descend along guide bar 2, the last slump bucket 204 of fixing of staving mount 203 can descend thereupon, close a motor 201 when slump bucket 204 descends to second fixed plate 103 top, after concrete filling is accomplished, start a motor 201 reverse rotation, a motor 201 drives first lead screw 202 reversal, first lead screw 202 reversal makes staving mount 203 rise along guide bar 2, the last slump bucket 204 of fixing of staving mount 203 can rise thereupon, the vertical rising in-process slump bucket 204 of staving mount 203 can not contact with concrete and influence the detection effect, realize the function that makes slump bucket 204 lift vertically.

As shown in fig. 2-3, the concrete conveying mechanism includes a first fixing frame 3, a concrete conveyer 301, a second motor 303, a third motor 304 and a second screw 305, the rear side of the top of the first fixing plate 102 is fixed with the third motor 304, the output shaft of the third motor 304 is connected with the second screw 305, the third motor 304 can drive the second screw 305 to rotate, the second screw 305 is rotatably connected with the first fixing plate 102, the nut on the second screw 305 is sleeved with the first fixing frame 3, the first fixing frame 3 can move back and forth along the second screw 305, the first fixing frame 3 is slidably connected with the first fixing plate 102, the top of the first fixing frame 3 is rotatably connected with the concrete conveyer 301, the concrete conveyer 301 is used for conveying concrete, the left rear side of the first fixing frame 3 is provided with the second motor 303, the output shaft of the second motor 303 is connected with the concrete conveyer 301, the second motor 303 drives the concrete conveyor 301 to rotate.

The third motor 304 is fixed at the top of the first fixing plate 102, when concrete needs to be conveyed into the slump bucket 204, the third motor 304 is started, an output shaft of the third motor 304 drives the second screw rod 305 to rotate, the first fixing frame 3 moves forwards along the screw rod to the foremost end of the first fixing plate 102, then the third motor 304 is closed, the foremost end of the concrete conveyer 301 is just positioned at an upper inlet of the slump bucket 204, the second motor 303 is started, the second motor 303 enables the concrete conveyer 301 to rotate, the concrete can fall into the slump bucket 204 along the concrete conveyer 301, the third motor 304 is started after filling is finished, the third motor 304 drives the first fixing frame 3 to move backwards through the second screw rod 305, the concrete conveyer 301 is also retracted therewith, and the function of conveying the concrete into the bucket body is integrally realized.

As shown in fig. 3, the vibration mechanism includes a second fixing frame 4, a vibration motor 401 and a vibration plate 402, the second fixing frame 4 is fixed in the middle of the front side of the first fixing frame 3, the second fixing frame 4 is hollow, the vibration motor 401 is installed in the second fixing frame 4, the vibration motor 401 can drive the vibration plate 402 to vibrate, the output shaft of the vibration motor 401 is connected with the vibration plate 402, and the vibration plate 402 can be just clamped on the outer wall of the slump bucket.

3 front sides middle parts of first mount are fixed with a second mount 4, when first mount 3 forward motion, second mount 4 also removes thereupon, when first mount 3 removed the forefront, vibrations board 402 just blocked in the outside of slump bucket 204, start shock dynamo 401 after every filling one-third's concrete, shock dynamo 401 drives vibrations board 402 and strikes slump bucket 204 outer wall, strike even with the concrete in the barrel, close shock dynamo 401 after striking even, wholly realize vibrations and strike the function of staving outer wall.

As shown in fig. 4-5, the cleaning mechanism for inner wall of barrel comprises a third fixing frame 5, a water guiding pipe 501, a fourth fixing frame 502, a fifth fixing plate 5021, a fourth motor 503, a first belt pulley 5031, a transmission belt 504, a second belt pulley 505, a first connecting rod 506, a brush plate 507, a first water outlet pipe 508, a second water outlet pipe 509, a control rod 510, a lifting rod 5101, a second spring 5102, a bottom fixing rod 5103, a water outlet 511, a loop bar 512 and a second connecting rod 513, a third fixing frame 5 is fixed at the top of the front side of the guide rod 2, a water guiding pipe 501 is fixed in the third fixing frame 5, the left side of the water guiding pipe 501 can be externally connected with a pipeline, a first water outlet pipe 508 and a second water outlet pipe 509 are connected to the right rear side of the water guiding pipe 501, water in the water guiding pipe 501 can flow into the first water outlet pipe 508 and the second water outlet pipe 509, a fourth fixing frame 502 is fixed at the top of the rear side of the guiding rod 2, a fourth motor 503 is installed at the rightmost side of the fourth fixing frame 502, a first belt pulley 5031 is fixedly connected to an output shaft of the fourth motor 503, the fourth motor 503 drives the first belt pulley 5031 to rotate, a fifth fixing plate 5021 is fixed at the rightmost side of the bottom of the fourth fixing frame 502, an output shaft of the fourth motor 503 passes through the fifth fixing plate 5021, a second belt pulley 505 is rotatably connected to the front side of the bottom of the fifth fixing plate 5021, a transmission belt 504 is wound on the first belt pulley 5031 and the second belt pulley 505 together, the first belt pulley 5031 drives the second belt pulley 505 to rotate through the transmission belt 504, four first connecting rods 506 are symmetrically fixed on the side surface of the second belt pulley 505, the four first connecting rods 506 rotate along with the second belt pulley 505 when the second belt pulley 505 rotates, a brush plate 507 is hinged to the other ends of the two first connecting rods 506 at the same side, bristles are arranged on the brush plate 507, and can clean the slump through the inner wall, the top of the guide rod 2 is provided with a sliding groove, a lifting rod 5101 is connected in the sliding groove at the top of the guide rod 2 in a sliding manner, two second springs 5102 are connected between the guide rod 2 and the lifting rod 5101, the second springs 5102 are used for upwards pulling or downwards rebounding the lifting rod 5101, a control rod 510 is rotatably clamped at the right side of the bottom of the lifting rod 5101, the control rod 510 is supported by the lifting rod 5101 while rotating, the control rod 510 penetrates through a fifth fixing plate 5021, a bottom fixing rod 5103 is fixed at the bottom of the control rod 510, a loop bar 512 is sleeved outside the control rod 510, the loop bar 512 can penetrate through a through hole in the fifth fixing plate 5021, the bottom of the loop bar 512 is connected with the bottom fixing rod 5103, the control rod 510 can drive the loop bar 512 to rotate through the bottom fixing rod 5103, two second connecting rods 513 are hinged at the bottom of the loop bar 512, the other ends of the two second connecting rods 513 are respectively hinged to the two brush plates 507, the loop bar 512 ascends and can prop the two brush plates 507 through the two second connecting rods 513, when the loop bar 512 descends, the two second connecting rods 513 and the two brush plates 507 are retracted, the first water outlet pipe 508 and the second water outlet pipe 509 penetrate through the fifth fixing plate 5021 and then are symmetrically connected to two sides of the loop bar 512, a plurality of water outlets 511 are arranged on the first water outlet pipe 508 and the second water outlet pipe 509, and water in the first water outlet pipe 508 and the second water outlet pipe 509 is sprayed out from the water outlets 511.

When the slump bucket 204 rises to the highest point, the bucket body fixing frame 203 pushes the lifting rod 5101 to the highest point, the second spring 5102 is compressed, the bucket body fixing frame 203 rises to drive the control rod 510 to rise, the control rod 510 rises to drive the sleeve rod 512 to rise, the sleeve rod 512 rises to drive the two second connecting rods 513 hinged at the bottom of the sleeve rod to open outwards, the two second connecting rods 513 just prop the two brush boards 507 open, the two brush boards 507 are stuck to the inner wall of the slump bucket after being propped up, water enters the left side of the water guide pipe 501, the water in the water guide pipe 501 flows into the first water outlet pipe 508 and the second water outlet pipe 509, the water in the first water outlet pipe 508 and the second water outlet pipe 509 can be sprayed out from the water outlets 511 arranged at the two sides of the sleeve rod 512, when the slump bucket 204 rises to the highest point, the fourth motor 503 is started, the fourth motor 503 drives the first belt pulley 5031 to rotate, and the first belt pulley 5031 drives the second belt pulley 505 to rotate through the driving belt 504, the first connecting rod 506 on the second belt pulley 505 rotates along with the rotation of the first connecting rod 506, the two brush plates 507 connected to the first connecting rod 506 rotate along with the rotation of the brush plates 507, the sleeve rod 512 drives the sleeve rod 512 to rotate through the second connecting rod 513, the sleeve rod 512 drives the control rod 510 to rotate through the bottom fixing rod 5103, the first water outlet pipe 508 and the second water outlet pipe 509 at two sides of the sleeve rod 512 keep still when the sleeve rod 512 rotates, the brush plates 507 rotate along the inner wall of the slump bucket 204, the brush hairs on the brush plates 507 can brush the concrete adhered to the inner wall of the slump bucket 204, the concrete residues can fall down, when the detection is carried out again after the washing is finished, the slump bucket 204 falls, the lifting rod 5101 can be ejected downwards by the second spring 5102, the lifting rod 5101 falls to make the control rod 510 fall, the control rod 510 falls to make the bottom fixing rod 5103 fixed at the bottom of the control rod fall, the bottom fixing rod 5103 drives the sleeve rod 512 to fall, and the two second connecting rods 513 can also retract inwards after the sleeve rod 512 falls, two brush boards 507 of both sides are packed up to inside to two second connecting rods 513, just can pass from slump bucket 204 top after two brush boards 507 pack up, do not influence slump bucket 204 and descend, realize the function of self-cleaning slump bucket 204 inner wall.

Example 3

On the basis of embodiment 2, as shown in fig. 1, the automobile body further comprises a level 104 and a lifting screw 111, the level 104 is arranged on each of the front side and the rear side of the automobile body 1, scales are arranged on the level 104, the state of the automobile body 1 is convenient to observe, the bottom of the automobile body 1 is connected with four universal wheels 112 through the four lifting screws 111, the state of the automobile body 1 can be adjusted by adjusting the height of the lifting screws 111, and the lifting screws 111 are required to be adjusted before detection so that the automobile body 1 is kept horizontal.

Need keep the level when detecting the slump, avoid influencing detection effect, when the ground unevenness of automobile body 1 position, can adjust every universal wheel 112 height through adjusting lifting screw 111, can observe the spirit level 104 of automobile body 1 front and back both sides when adjusting, just explain automobile body 1 is in the horizontality when spirit level 104 points to 0 degree, realize adjusting automobile body 1 and make its function that keeps the horizontality.

As shown in fig. 1, the vehicle further includes a locking screw 113, one locking screw 113 is disposed outside each universal wheel 112, and tightening the locking screw 113 can lock the universal wheel 112, so that the vehicle body 1 cannot move.

When the slump is detected, the influence of the movement of the vehicle body 1 on the detection result needs to be avoided, when the vehicle body 1 moves to a detection place, the locking screws 113 on the four universal wheels 112 are screwed, the universal wheels 112 are locked, the vehicle body 1 cannot move, and the function of locking the universal wheels 112 is realized.

As shown in fig. 3, the joint tiles 302 are further included, one joint tile 302 is fixed to the front side of the top of the first fixing frame 3, the joint tile 302 is just connected with the concrete transporter 301, the other side of the joint tile 302 extends to the upper opening of the slump bucket 204, and the joint tile 302 can reduce the concrete from falling off.

When transporting concrete into the slump bucket 204, the concrete may fall from the gap between the concrete conveyer 301 and the slump bucket 204, a connection plate 302 is fixed on the front side of the top of the first fixing frame 3, the rear side of the connection plate 302 is just attached to the concrete conveyer 301, and the front end of the connection plate 302 is just positioned at the top of the slump bucket 204, so that the function of preventing the concrete from falling from the gap between the concrete conveyer 301 and the slump bucket 204 is realized.

As shown in fig. 6-8, the vehicle body further comprises a third fixing plate 105, a fourth fixing plate 106, a first sliding block 107, a first spring 1071, a second sliding block 108, a first sliding rod 109, a third sliding block 110, a fourth sliding block 6, a second sliding rod 601 and a third spring 602, wherein the left side of the bottom of the vehicle body 1 is fixed with the fourth fixing plate 106, the middle of the fourth fixing plate 106 is provided with a sliding rail, the bottom of the vehicle body 1 is also fixed with four third fixing plates 105, the middle of each third fixing plate 105 is provided with a linear sliding hole, the size of the fourth fixing plate 106 is the same as that of the two third fixing plates 105, gaps are left between the four third fixing plates 105 and the fourth fixing plate 106, the fourth fixing plate 106 is slidably connected with the first sliding block 107, the first sliding block 107 is located in the sliding rail at the middle of the fourth fixing plate 106, the fourth fixing plate 106 is also symmetrically provided with two linear sliding holes, a first spring 1071 is connected between the bottom of the first sliding block 107 and the fourth fixed plate 106, first sliding rods 109 are connected with the third fixed plate 105 and the fourth fixed plate 106 in a sliding way, six first sliding rods 109 are connected end to form a ring, a second sliding block 108 is connected with a gap between the third fixed plate 105 and the fourth fixed plate 106 in a sliding way, a second sliding block 108 or a third sliding block 110 is connected with a gap between the fourth fixed plate 106 in a sliding way, two first sliding rods 109 are connected with the inside of each first sliding block 107, second sliding block 108 and third sliding block 110 in a sliding way, fourth sliding blocks 6 are connected with both sides of the bottom of the barrel body fixed frame 203 in a sliding way, a third spring 602 is connected between the barrel body fixed frame 203 and the fourth sliding block 6, both fourth sliding blocks 6 can slide into a groove at the bottom of the barrel body fixed frame 203, both sides of the guide rod 2 are provided with L-shaped sliding grooves, the sliding grooves on both sides of the guide rod 2 are connected with a second sliding rod 601 in a sliding manner, the bottom of the second sliding rod 601 is connected to the first sliding block 107 in a rotating manner, and when the second sliding rod 601 descends, the first sliding block 107 can slide to the left.

There is a round hole in second fixed plate 103 middle part, a first sliding block 107 and two third sliding blocks 110 tops just can form a round platform, the size of this round platform is the same with the round hole size in second fixed plate 103 middle part, just can carry out slump in this round platform and detect, first sliding block 107, the through-hole has all been opened at the middle part of second sliding block 108 and third sliding block 110, equal sliding connection has first slide bar 109 in every through-hole, six first slide bar 109 end to end connect and enclose into the circle, when the inner wall of slump bucket 204 washs and detect once more, the in-process that staving mount 203 drove slump bucket 204 descends, fourth slide bar 6 that staving mount 203 bottom sliding block left side is connected can be pushed down second slide bar 601, second slide bar 601 moves down and can make the first sliding block 107 of bottom slide along fourth fixed plate 106 outside, first sliding block 107 slides outside can drive two second sliding blocks 108 to outside through two first slide bars 109 The two second sliding blocks 108 drive the two third sliding blocks 110 to slide outwards through the two first sliding rods 109, the two third sliding blocks 110 drive the one second sliding block 108 to slide outwards through the two first sliding rods 109, the first sliding block 107 slides outwards while compressing the first spring 1071, when the first sliding block 107 slides to the outermost side, the fourth sliding block 6 is separated from the second sliding rod 601, at this time, the first sliding block 107 is separated from the two third sliding blocks 110, the circular hole in the middle of the second fixing plate 103 is exposed, concrete falls from the circular hole, then the first sliding block 107 is rebounded by the first spring 1071, the second sliding block 601 is reset, the two first sliding rods 109 drive the two second sliding blocks 108 to slide in the process of resetting the first sliding block 107, the two second sliding blocks 108 drive the two third sliding blocks 110 to slide through the two first sliding rods 109, the two third sliding blocks 110 drive the second sliding block 108 to slide through the two first sliding rods 109, the top parts of the first sliding block 107 and the two third sliding blocks 110 form a circular truncated cone and block a circular hole in the middle of the second fixing plate 103, when the barrel fixing frame 203 drives the fourth sliding block 6 to ascend, the fourth sliding block 6 is compressed into a groove in the barrel fixing frame 203 after contacting with the second sliding rod 601, and when the fourth sliding block 6 is separated from the second sliding rod 601, the third spring 602 ejects the fourth sliding block 6, so that the concrete block automatically falls out of the vehicle body 1.

While the disclosure has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims

1. The utility model provides a quick belt cleaning device of portable concrete slump detection which characterized in that: comprises a vehicle body (1), a handlebar (101), a first fixing plate (102), a second fixing plate (103), a fixing block (1031), universal wheels (112), a barrel body lifting mechanism, a concrete transfer mechanism, a vibration mechanism and a barrel body inner wall cleaning mechanism, wherein the handlebar (101) is installed on the rear side of the vehicle body (1), the second fixing plate (103) is fixed on the top of the vehicle body (1), the first fixing plate (102) is jointly fixed on the rear side of the top of the vehicle body (1) and the rear side of the top of the second fixing plate (103), the fixing block (1031) is fixed on the leftmost side of the top of the second fixing plate (103), four universal wheels (112) are installed at the bottom of the vehicle body (1), the barrel body lifting mechanism is installed on the left side of the top of the second fixing plate (103), the barrel body lifting mechanism can vertically lift the barrel body, the concrete transfer mechanism is installed on the top of the first fixing plate (102), and is used for conveying concrete, the vibration mechanism is installed in the concrete conveying mechanism and used for vibrating and knocking the outer wall of the barrel body, the cleaning mechanism for the inner wall of the barrel body is installed in the lifting mechanism for the barrel body, and the cleaning mechanism for the inner wall of the barrel body is used for cleaning the inner wall of the barrel body.

2. The portable concrete slump detection quick cleaning device as claimed in claim 1, wherein: staving elevating system is including guide bar (2), a motor (201), first lead screw (202), staving mount (203) and slump bucket (204), second fixed plate (103) top left side is fixed with a guide bar (2), a motor (201) is installed at guide bar (2) top, the output shaft of a motor (201) is on first lead screw (202), first lead screw (202) bottom is rotated with guide bar (2) and is connected, the cover has a staving mount (203) on the nut on first lead screw (202), staving mount (203) and guide bar (2) sliding connection, install slump bucket (204) in staving mount (203).

3. The portable concrete slump-detecting quick cleaning device as claimed in claim 2, wherein: concrete conveying mechanism is including first mount (3), concrete transport machine (301), No. two motor (303), No. three motor (304) and second lead screw (305), first fixed plate (102) top rear side is fixed with a No. three motor (304), be connected with a second lead screw (305) on the output shaft of No. three motor (304), second lead screw (305) rotate with first fixed plate (102) and be connected, the nut overcoat on second lead screw (305) has a first mount (3), first mount (3) and first fixed plate (102) sliding connection, first mount (3) top is rotated and is connected with a concrete transport machine (301), a No. two motor (303) are installed to first mount (3) left rear side, the output shaft of No. two motor (303) is connected on concrete transport machine (301).

4. The portable concrete slump detection quick cleaning device as claimed in claim 3, wherein: the vibrating mechanism comprises a second fixing frame (4), a vibrating motor (401) and a vibrating plate (402), the second fixing frame (4) is fixed in the middle of the front side of the first fixing frame (3), the vibrating motor (401) is installed in the second fixing frame (4), and the vibrating plate (402) is connected to an output shaft of the vibrating motor (401).

5. The portable concrete slump detection quick cleaning device as claimed in claim 4, wherein: the cleaning mechanism for the inner wall of the barrel body comprises a third fixing frame (5), a water guide pipe (501), a fourth fixing frame (502), a fifth fixing plate (5021), a fourth motor (503), a first belt pulley (5031), a transmission belt (504), a second belt pulley (505), a first connecting rod (506), a brush plate (507), a first water outlet pipe (508), a second water outlet pipe (509), a control rod (510), a lifting rod (5101), a second spring (5102), a bottom fixing rod (5103), a water outlet (511), a sleeve rod (512) and a second connecting rod (513), wherein the third fixing frame (5) is fixed at the top of the front side of the guide rod (2), the water guide pipe (501) is fixed in the third fixing frame (5), the first water outlet pipe (508) and the second water outlet pipe (509) are connected to the right rear side of the water guide pipe (501), the fourth fixing frame (502) is fixed at the top of the rear side of the guide rod (2), a fourth motor (503) is installed at the rightmost side of the fourth fixing frame (502), a first belt pulley (5031) is fixedly connected to an output shaft of the fourth motor (503), a fifth fixing plate (5021) is fixed at the rightmost side of the bottom of the fourth fixing frame (502), a second belt pulley (505) is rotatably connected to the front side of the bottom of the fifth fixing plate (5021), a transmission belt (504) is wound on the first belt pulley (5031) and the second belt pulley (505) together, four first connecting rods (506) are symmetrically fixed on the side surface of the second belt pulley (505), a brush plate (507) is hinged to the other end of each of the two first connecting rods (506) at the same side, a sliding groove is formed in the top of the guide rod (2), a lifting rod (5101) is slidably connected in the sliding groove in the top of the guide rod (2), and two second springs (5102) are connected between the guide rod (2) and the lifting rod (5101), the bottom right side of lifter (5101) rotates the joint and has a control lever (510), the bottom of control lever (510) is fixed with a bottom dead lever (5103), control lever (510) overcoat has a loop bar (512), loop bar (512) bottom is connected with bottom dead lever (5103), loop bar (512) bottom articulates there are two second connecting rods (513), the other end of two second connecting rods (513) articulates respectively on two brush boards (507), first outlet pipe (508) and second outlet pipe (509) all pass fifth fixed plate (5021) back symmetric connection in loop bar (512) both sides, be provided with a plurality of delivery ports (511) on first outlet pipe (508) and second outlet pipe (509).

6. The portable concrete slump detection quick cleaning device as claimed in claim 5, wherein: the lifting device is characterized by further comprising a level gauge (104) and lifting screws (111), wherein the level gauge (104) is arranged on each of the front side and the rear side of the vehicle body (1), and the bottom of the vehicle body (1) is connected with four universal wheels (112) through the four lifting screws (111).

7. The portable concrete slump detection quick cleaning device as claimed in claim 6, wherein: the universal wheel further comprises locking screws (113), and one locking screw (113) is arranged outside each universal wheel (112).

8. The portable concrete slump-detecting quick cleaning device as claimed in claim 7, wherein: the utility model also comprises a connecting plate (302), and the front side of the top of the first fixing frame (3) is fixed with the connecting plate (302).

9. The portable concrete slump-detecting quick cleaning device as claimed in claim 8, wherein: still including third fixed plate (105), fourth fixed plate (106), first sliding block (107), first spring (1071), second sliding block (108), first slide bar (109), third sliding block (110), fourth sliding block (6), second slide bar (601) and third spring (602), automobile body (1) bottom left side is fixed with a fourth fixed plate (106), automobile body (1) bottom still is fixed with four third fixed plates (105), all leave the space between four third fixed plates (105) and a fourth fixed plate (106), sliding connection has a first sliding block (107) on fourth fixed plate (106), be connected with first spring (1071) between first fixed plate (107) bottom and fourth fixed plate (106), all sliding connection has first slide bar (109) on third fixed plate (105) and fourth fixed plate (106), sliding connection has the second sliding block between the space between third fixed plate (105) and fourth fixed plate (106) (108) The sliding connection of the gap between the fourth fixing plates (106) is provided with a second sliding block (108) or a third sliding block (110), the four sliding blocks (6) are respectively connected to the two sides of the bottom of the barrel fixing frame (203), a third spring (602) is connected between the barrel fixing frame (203) and the fourth sliding block (6), the second sliding rods (601) are respectively connected to the two sides of the guide rod (2), and the bottoms of the second sliding rods (601) are rotatably connected to the first sliding blocks (107).