CN112536256B

CN112536256B - Plank surface cement clean-up equipment

Info

Publication number: CN112536256B
Application number: CN202011317176.1A
Authority: CN
Inventors: 傅新江; 柯帅
Original assignee: Shenzhen Yuezhong Lvsheng Environmental Protection Group Co ltd
Current assignee: Shenzhen Yuezhong Lvsheng environmental protection (Group) Co.,Ltd.
Priority date: 2020-11-23
Filing date: 2020-11-23
Publication date: 2022-02-11
Anticipated expiration: 2040-11-23
Also published as: CN112536256A

Abstract

The invention discloses a wood board surface cement cleaning device which comprises a shell, wherein a cleaning cavity is arranged in the shell, the cleaning cavity penetrates through the shell, the left end of the cleaning cavity is a feeding hole, the right end of the cleaning cavity is a discharging hole, and a cleaning device is arranged in the cleaning cavity; a worm wheel cavity and a first motor cavity are arranged in the shell, the opening direction of the worm wheel cavity is the same as the direction of the feed inlet of the cleaning cavity, the opening of the worm wheel cavity is positioned below the feed inlet of the cleaning cavity, one end of the worm wheel cavity, which is far away from the feed inlet of the cleaning cavity, is communicated with the first motor cavity, a power device is arranged in the first motor cavity, and a worm wheel device is arranged in the worm wheel cavity; the power cleaning device is arranged obliquely above the feed inlet of the cleaning cavity, and can recover and clean the recyclable long and thin wood board with caked cement on the surface left after the construction engineering is finished, so that the recyclable long and thin wood board can be reused, and the resource utilization rate is increased.

Description

Plank surface cement clean-up equipment

Technical Field

The invention belongs to the field of board recovery, and particularly relates to a board surface cement cleaning device.

Background

A plurality of long and thin wood boards are used in the building construction process, but the long and thin wood boards are not reused due to the fact that agglomerated cement is carried on the surfaces of the long and thin wood boards, workers are required to knock the long and thin wood boards one by one in few cases, the efficiency is low, and the labor intensity is high.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the simple, convenient and portable wood board surface cement cleaning equipment.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a plank surface cement clean-up equipment, especially have the recoverable long thin plank of caking cement to the surface that the building engineering finishes the back and collects, which comprises a housin, be provided with the clearance chamber in the casing, the clearance chamber runs through the casing, clearance chamber left end is the discharge gate for the feed inlet right-hand member, the clearance intracavity is equipped with cleaning device, cleaning device includes the pay-off gear subassembly, vibrations cam subassembly and front end clearance subassembly, the pay-off gear subassembly is located the feed inlet department in clearance chamber, front end clearance subassembly is located the discharge gate department in clearance chamber, vibrations cam subassembly is located the pay-off gear subassembly with between the front end clearance subassembly. A worm wheel cavity and a first motor cavity are arranged in the shell, the opening direction of the worm wheel cavity is the same as the direction of the feed inlet of the cleaning cavity, the opening of the worm wheel cavity is positioned below the feed inlet of the cleaning cavity, one end of the worm wheel cavity, which is far away from the feed inlet of the cleaning cavity, is communicated with the first motor cavity, a power device is arranged in the first motor cavity, and a worm wheel device is arranged in the worm wheel cavity; the utility model discloses a nail cleaning device, including clearance chamber feed inlet, power cleaning device, nail cleaning assembly, power assembly, trigger assembly, nail cleaning assembly is located under the power assembly, nail cleaning assembly is located trigger the subassembly with between the clearance chamber feed inlet.

The power device comprises a first motor arranged at the bottom of a first motor cavity, and a first main shaft is arranged on the end face, close to the feed inlet of the cleaning cavity, of the first motor in a rotating mode. And starting the first motor, and driving the first main shaft to rotate by the first motor.

The worm wheel device comprises a worm rotatably arranged in a worm wheel cavity, the worm is fixedly connected with the first main shaft, a worm wheel is fixedly sleeved on the worm, two first supports are fixedly arranged on the end face of the worm wheel far away from the worm, the two first supports are symmetrically distributed about the central plane of the worm wheel, a brush support and an elastic filter screen are fixedly arranged between the two first supports, the brush support and the elastic filter screen are concentric, the brush support is positioned between the elastic filter screen and the worm wheel, a brush is fixedly arranged on the end face of the brush support close to the elastic filter screen, and the brush penetrates through the elastic filter screen; the worm wheel cavity is communicated with the cleaning cavity through a plurality of trapezoidal sewage outlets.

The feeding gear assembly is composed of two gear parts which are arranged in an up-and-down symmetrical mode in the cleaning cavity, the gear parts comprise first transmission rods connected with the first main shaft through bevel gears in a meshed mode, the feeding gear assembly comprises second transmission rods connected with the first transmission rods through the bevel gears, the second transmission rods are connected with first rotating shafts through the bevel gears, and feeding gears are fixedly sleeved on the first rotating shafts.

The vibration cam component consists of a plurality of cam components, the cam components positioned on the same side are distributed on the inner wall of the cleaning cavity 11 at equal intervals, the cam components on the upper side and the lower side are distributed on the inner wall of the cleaning cavity 11 in a crossed and staggered manner, each cam component comprises a third transmission rod connected with the first transmission rod through a helical gear, the third transmission rod is connected with a second rotating shaft through a bevel gear, the second rotating shaft is fixedly sleeved with a third rotating shaft, the third rotating shaft is sleeved with a cam, a first cavity is defined in the cam, the third rotating shaft is positioned in the first cavity and can slide relatively along the first cavity, a first spring is connected between the upper and lower side ends of the third rotating shaft and the inner wall of the first cavity, the surface of the cam is provided with a trapezoidal bulge, a second cavity is formed in the trapezoidal bulge, and a scraping part is arranged in the second cavity.

The scraping component comprises a first sliding block which is arranged in the second cavity in a reciprocating sliding mode, a second spring is connected between two symmetrical end faces of the first sliding block and the inner wall of the second cavity, two symmetrical end faces of the first sliding block are attached to the inner wall of the second cavity, and a first scraper is fixedly arranged on the end face, far away from the bottom of the second cavity, of the first sliding block.

The front end cleaning assembly comprises two scraper components arranged on the upper inner wall and the lower inner wall of the discharge hole of the cleaning cavity, the two scraper components are not on the same vertical plane, and the distances between the two scraper components and the center of the discharge hole of the cleaning cavity are equal; the scraper blade part is including fixed setting up second support on the clearance chamber discharge gate inner wall, seted up the opening direction in the second support with the unanimous third cavity of clearance chamber discharge gate direction, reciprocal sliding from top to bottom in the third cavity is provided with the second slider, the both ends face of second slider symmetry with be connected with the third spring between the inner wall of third cavity, be provided with the fourth cavity in the second slider, the second slider internal fixation is provided with the torsional spring pivot, the torsional spring pivot has the scraper blade through torsional spring connection, the scraper blade is kept away from the fixed scraper blade that is equipped with is scraped around the terminal surface of torsional spring pivot scrapes the head, the scraper blade is scraped the head and is the toper.

The cross section of the feeding port of the cleaning cavity is trapezoidal, the length of one side close to the discharging port is shorter than that of one side far away from the discharging port, a second motor cavity is arranged in the shell, the power assembly comprises a second motor installed in the second motor cavity, the output end of the second motor is connected with a second main shaft, a second motor eccentric wheel is fixedly sleeved on the second main shaft, and the second main shaft of the second motor is not concentric with the eccentric wheel; an output shaft cavity is formed in the shell, an output shaft is arranged in the output shaft cavity in a reciprocating sliding mode, the output shaft is located under the eccentric wheel and attached to the eccentric wheel, the output shaft penetrates through the output shaft cavity, a rectangular bulge is arranged on the portion, located in the output shaft cavity, of the output shaft, and two fourth springs for resetting the output shaft are connected between the rectangular bulge portion of the output shaft and the bottom of the output shaft cavity; the output shaft lower extreme has been seted up and has been got the nail chamber, nail clearance subassembly is located get the nail intracavity.

The nail cleaning assembly comprises a magnet support fixedly arranged in the nail taking cavity, a magnet sliding cavity is formed in the magnet support, the included angle between the center line of the magnet sliding cavity and the axis of the output shaft is 45 degrees, a magnet is arranged in the magnet sliding cavity in a reciprocating sliding mode, the side end of the magnet is connected with a fifth spring and a pull rope, the fifth spring is located at the axis position of the pull rope, one end of the fifth spring is connected with the other end of the magnet, and the other end of the fifth spring is connected with the inner wall of the magnet sliding cavity; the lower end face of the magnet support is an inclined plane, a bulge is arranged on the lower end face of the magnet support, a collecting support is arranged below the bulge on the lower end face of the magnet support, and the collecting support is in threaded connection with the bottom of the nail taking cavity; the lower end surface of the output shaft is provided with two pyramid-shaped bulges, each pyramid-shaped bulge is internally provided with a clamping cavity, the clamping cavity is positioned at the lower side of the nail taking cavity and communicated with the nail taking cavity, and each clamping cavity is internally provided with a nail taking component; the pull rope penetrates through the magnet bracket and is then connected with the nail taking component on the right side through the rotating shaft component; the rotating shaft part comprises a rotating shaft bracket fixedly arranged on the inner wall of the nail taking cavity, the rotating shaft bracket is fixedly connected with a pull rope rotating shaft, a pull rope roller is rotatably sleeved on the pull rope rotating shaft, and a groove matched with the pull rope is formed in the pull rope roller; get the nail part and include fixed the setting and be in press from both sides the clamp of getting the intracavity and get the pivot, press from both sides the pivot and rotate the cover and be equipped with and press from both sides and get the connecting rod, press from both sides the clamp and get the pivot and be located press from both sides the center of getting the connecting rod, press from both sides the connecting rod and keep away from press from both sides the fixed friction block of getting that is equipped with of terminal surface of getting the chamber, it is close to press from both sides the clamp get the terminal surface in chamber with press from both sides and be connected with two sixth springs between the inner wall in chamber, and be located the sixth spring of downside with press from both sides the central point of getting the connecting rod junction and put and connect the stay cord.

Trigger the subassembly including fixed the setting trigger the support in the casing, trigger the support and seted up the rotation groove of opening orientation below, it is equipped with the trigger pivot to rotate the inslot internal rotation, trigger pivot fixedly connected with and trigger the connecting rod, it is equipped with the rectangle and triggers the arch to trigger the pivot, the rectangle trigger protruding with be connected with the seventh spring that is used for the rectangle to trigger protruding reset between the inner wall that rotates the groove, it installs the start block to rotate on the inslot wall, start the block with seventh spring coupling is on the inner wall of same rotation groove.

In summary, the invention has the following advantages: the device can clean the caked cement on the surface of the wood board, and the wood board is recycled; when the cement agglomerated on the surface of the wood board is cleaned, the crushed cement can be collected for reuse, and the cement cleaning of the inner wall of the equipment and the self cleaning of the cleaning component can be completed; can extract the nail on plank surface, both accomplish the potential safety hazard that nail on the plank brought also avoided recycling to the nail.

Drawings

FIG. 1 is a front view of the internal assembly of the present invention;

FIG. 2 is an edge partial view of the worm gear 17;

FIG. 3 is an enlarged view of a portion A of FIG. 1;

FIG. 4 is a partial enlarged view of FIG. 1 at B;

FIG. 5 is a partial enlarged view of FIG. 4 at C;

FIG. 6 is an enlarged view of a portion of FIG. 1 at D;

FIG. 7 is an enlarged view of a portion E of FIG. 6;

fig. 8 is a partially enlarged view of fig. 6 at F.

Detailed Description

The invention will now be described in detail with reference to fig. 1 to 8, 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 drawings.

Combine shown in fig. 1, a plank surface cement clean-up equipment, including casing 10, be provided with clearance chamber 11 in the casing 10, clearance chamber 11 runs through

casing

10, 11 left ends in clearance chamber are the feed inlet right-hand member and are the discharge gate, be equipped with cleaning device in the clearance chamber 11, cleaning device includes the pay-off gear subassembly, shakes cam pack and front end clearance subassembly, the pay-off gear subassembly is located the feed inlet department in clearance chamber 11, front end clearance subassembly is located the discharge gate department in clearance chamber 11, the vibrations cam pack is located the pay-off gear subassembly with between the front end clearance subassembly. A worm wheel cavity 12 and a first motor cavity 13 are arranged in the shell 10, the opening direction of the worm wheel cavity 12 is the same as the direction of a feed inlet of the cleaning cavity 11, the opening of the worm wheel cavity 12 is positioned below the feed inlet of the cleaning cavity 11, one end, far away from the feed inlet of the cleaning cavity 11, of the worm wheel cavity 12 is communicated with the first motor cavity 13, a power device is arranged in the first motor cavity 13, and a worm wheel device is arranged in the worm wheel cavity 12; the oblique top in clearance chamber 11 feed inlet is equipped with power cleaning device, power cleaning device includes power component, triggers subassembly and nail clearance subassembly, the nail clearance subassembly is located under the power component, the nail clearance subassembly is located trigger the subassembly with between the 11 feed inlets in clearance chamber.

The power device comprises a first motor 14 arranged at the bottom of a first motor cavity 13, and a first main shaft 15 is rotatably arranged on the end face, close to a feed inlet of the cleaning cavity 11, of the first motor 14. The first motor 14 is started, and the first motor 14 drives the first spindle 15 to rotate.

As shown in fig. 1-2, the worm wheel device includes a worm 16 rotatably disposed in the worm wheel cavity 12, the worm 16 is fixedly connected to the first spindle 15, a worm wheel 17 is fixedly disposed on the worm 16, two first brackets 24 are fixedly disposed on an end surface of the worm wheel 17 away from the worm 16, the two first brackets 24 are symmetrically distributed about a central plane of the worm wheel 17, a brush bracket 25 and an elastic filter screen 26 are fixedly disposed between the two first brackets 24, the brush bracket 25 and the elastic filter screen 26 are concentric, the brush bracket 25 is located between the elastic filter screen 26 and the worm wheel 17, a brush 27 is fixedly disposed on an end surface of the brush bracket 25 close to the elastic filter screen 26, and the brush 27 passes through the elastic filter screen 26; the worm wheel cavity 12 is communicated with the cleaning cavity 11 through a plurality of trapezoidal sewage outlets.

The first main shaft 15 drives the worm 16 to rotate, the worm 16 drives the worm wheel 17 to rotate, the worm wheel 17 drives the first support 24 to move, the first support 24 drives the brush support 25 and the elastic filter screen 26 to move, the brush support 25 drives the brush 27 to move, and cement in the cleaning cavity 11 enters the worm wheel cavity 12 due to the existence of a sewage discharge outlet and then contacts with the worm wheel 17 and further contacts with the brush 27, the elastic filter screen 26 and the first support 24; the brush 27 cleans cement in the movement process, and the elastic filter screen 26 prevents the cement from entering the brush support 25, so that the abrasion of the joint of the brush 27 and the brush support 25 is avoided; meanwhile, the material of the elastic filter screen 26 has certain elasticity, so that when large cement particles are encountered, the elastic filter screen 26 deforms to drive the brush 27 to move together, and because the brush 27 and the elastic filter screen 26 generate relative displacement, the surface of the brush 27 is scraped by the elastic filter screen 26, and the elastic filter screen 26 and the brush 27 are protected; the top end of the first support 24 is arc-shaped, the outer side end of the first support is provided with a bulge, the bulge can be used for enhancing stirring of cement, meanwhile, the cement can be crushed to a certain extent, large cement blocks are crushed while the elastic filter screen 26 and the elastic filter screen 26 are supported, and blockage caused by the large cement blocks is avoided; the rotation of worm wheel 17 takes cement to the left end export, the below of clearance chamber 11 feed inlet, accomplishes the crushing and the transport of cement, later collects, then handles in unison.

Referring to fig. 1, the feeding gear assembly is composed of two gear parts which are symmetrically arranged in the cleaning cavity up and down, the gear parts include a first transmission rod 22 connected with the first spindle 15 through a bevel gear in a meshed manner, the feeding gear assembly includes a second transmission rod 19 connected with the first transmission rod 22 through a bevel gear, the second transmission rod 19 is connected with a first rotating shaft 18 through a bevel gear, and a feeding gear 21 is fixedly sleeved on the first rotating shaft 18.

The first main shaft 15 drives the second transmission rod 19 to rotate through the helical gear, the second transmission rod 19 drives the first rotating shaft 18 to rotate through the helical gear, the first rotating shaft 18 drives the feeding gear 21 to rotate, the feeding gear 21 is located at a feeding hole of the cleaning cavity 11, friction between the feeding gear 21 and the surface of the wood board is increased through teeth arranged at side ends, the wood board is fed into the cleaning cavity 11 by means of thrust of a user at the beginning, and then the rotating feeding gear 21 drives the wood board to move towards a discharging hole of the cleaning cavity 11 by means of friction to complete feeding.

Referring to fig. 1 and 3, the vibration cam assembly is composed of a plurality of cam members, the number of the cam members is preferably 8, the cam members located on the same side are equally spaced on the inner wall of the cleaning cavity 11, the cam members on the upper and lower sides are alternately and staggeredly distributed on the inner wall of the cleaning cavity 11, each cam member includes a third transmission rod 23 connected with the first transmission rod 22 through a helical gear, the third transmission rod 23 is connected with a second rotating shaft 40 through a helical gear, the second rotating shaft 40 is fixedly sleeved with a third rotating shaft 41, the third rotating shaft 41 is sleeved with a cam 20, a first cavity 201 is defined in the cam 20, the third rotating shaft 41 is located in the first cavity 201 and can slide relatively along the first cavity 201, and a first spring 42 is connected between the upper and lower side ends of the third rotating shaft 41 and the inner wall of the first cavity 201, the surface of the cam 20 is provided with a trapezoidal protrusion, a second cavity 36 is formed in the trapezoidal protrusion, and a scraping part is arranged in the second cavity 36.

The first main shaft 15 drives the third transmission rod 23 to rotate through the bevel gear, the third transmission rod 23 drives the second rotating shaft 40 to rotate through the bevel gear, the second rotating shaft 40 drives the third rotating shaft 41 to rotate, the front end face, the rear end face, the left end face, the right end face and the upper end face of the third rotating shaft 41 are attached to the shell 2 10, the upper end face and the lower end face of the third rotating shaft are connected with the first cavity 201 through the first spring 42, so that the third rotating shaft 41 can drive the cam 20 to rotate, the cam 20 can move up and down relative to the third rotating shaft 41, and when the acting force of a wood board is large, the cam 20 can buffer by moving up and down relative to the third rotating shaft 41;

meanwhile, when the number of times of the buffering motion of the cam 20 is continuously increased, the reciprocating swing effect is achieved by means of the first spring 42, so that the impact force on the wood board is stronger, the vibration effect on the wood board is stronger, and the cleaning effect on cement on the surface of the wood board is better;

simultaneously, the arch on cam 20 surface can strike the plank at cam 20 rotation in-process, in supplementary cam 20 in order to reach better reciprocal swing effect, the arch on cam 20 surface also can strike once more the striking cement that the striking that contacts got off for cement receives the striking once more at the in-process that drops, change the direction of motion that drops when the volume becomes littleer, and then supplementary clearance plank surface cement, make the cement size of clearing up down littleer simultaneously, be convenient for crushing on next step and avoid blockking up.

Referring to fig. 3, the scraping component includes a first slider 37 disposed in the second cavity 36 in a reciprocating sliding manner, a second spring 39 is connected between two symmetrical end surfaces of the first slider 37 and an inner wall of the second cavity 36, two symmetrical end surfaces of the first slider 37 are attached to the inner wall of the second cavity 36, and a first scraper 38 is fixedly disposed on an end surface of the first slider 37 away from the bottom of the second cavity 36.

The movement of the cam 20 drives the first scraper 38 and the first slider 37 to move, the first scraper 38 scrapes the surface of the wood board, and the two second springs 39 connected with the first slider 37 can buffer when the first slider 37 is subjected to a large acting force.

As shown in fig. 4-5, the front cleaning assembly includes two scraper members disposed on the upper and lower inner walls of the discharge hole of the cleaning chamber 11, the two scraper members are not on the same vertical plane, and the distances between the two scraper members and the center of the discharge hole of the cleaning chamber 11 are equal; the scraper blade part is including fixed setting second support 43 on the 11 discharge gate inner walls in clearance chamber, set up opening direction in the second support 43 with the unanimous third cavity 49 of 11 discharge gate directions in clearance chamber, reciprocal sliding from top to bottom is provided with second slider 44 in the third cavity 49, the both ends face of second slider 44 symmetry with be connected with third spring 45 between the inner wall of third cavity 49, be provided with fourth cavity 46 in the second slider 44, second slider 44 internal fixation is provided with torsional spring pivot 55, torsional spring pivot 55 is connected with scraper blade 47 through torsional spring 471, scraper blade 47 keeps away from fixed scraper blade of being equipped with around the terminal surface of torsional spring pivot 55 scrapes head 472, scraper blade scrapes head 472 and is the toper.

When the wood board moves to the discharge hole of the cleaning cavity 11, the wood board contacts with the scraper 47 and the scraper scraping head 472, the wood board receives the continuous thrust of the feeding gear 21, so that the wood board gives the acting force to the scraper 47 and the scraper scraping head 472, so that the scraper 47 moves, since the scraper 47 transmits the force to the second slider 44 through the torsion spring 471 and the torsion spring rotating shaft 55, the second slider 44 receives a component force along the sliding direction of the second slider 44, so that the second slider 44 slides in the third cavity 49, one side of the third spring 45 at two sides of the second slider 44 is compressed and stretched, at the same time, the scraper 47 rotates around the torsion spring rotating shaft 55, so that the scraper scraping head 472 and the front end surface of the wood board move relatively, thereby scraping the front end surface of the wood board, since the scraper 47 rotates around the torsion spring rotating shaft 55 at the same time of scraping, the two scrapers 47 generate a distance separation after the front end surface of the wood board is cleaned, and finishing the discharge of the wood board from the discharge hole.

Referring to fig. 6 and 8, a cross section of a feed inlet of the cleaning cavity 11 is trapezoidal, a length of a side close to the feed outlet is shorter than a length of a side far away from the feed outlet, a second motor cavity 28 is disposed in the housing 10, the power assembly includes a second motor 30 mounted in the second motor cavity 28, an output end of the second motor 30 is connected to a second spindle 301, a second motor eccentric 302 is fixedly sleeved on the second spindle 301, and the second spindle 301 of the second motor is not concentric with the eccentric 302; an output shaft cavity 32 is formed in the shell 10, an output shaft 31 is arranged in the output shaft cavity 32 in a reciprocating sliding manner, the output shaft 31 is located right below the eccentric wheel 302 and attached to the eccentric wheel 302, the output shaft 31 penetrates through the output shaft cavity 32, a rectangular protrusion is arranged on the portion, located in the output shaft cavity 32, of the output shaft 31, and two fourth springs 34 for resetting the output shaft 31 are connected between the rectangular protrusion of the output shaft 31 and the bottom of the output shaft cavity 32; the lower end of the output shaft 31 is provided with a nail taking cavity 61, and the nail cleaning assembly is located in the nail taking cavity 61.

When the second motor 30 is started, the second motor 30 drives the second motor second main shaft 301 to rotate, the second motor second main shaft 301 drives the second motor eccentric wheel 302 to rotate, and the second motor eccentric wheel 302 does not coincide with the second motor second main shaft 301 in the axis center, so that the second motor eccentric wheel 302 can reciprocate up and down relative to the second motor cavity 28 in the movement process;

when the second motor eccentric 302 moves downward relative to the second motor cavity 28, the second motor eccentric 302 drives the output shaft 31 to move downward, the fourth spring 34 is compressed, and when the second motor eccentric 302 moves upward relative to the second motor cavity 28, the compressed fourth spring 34 is reset to drive the output shaft 31 to move upward, so that the output shaft 31 and the second motor eccentric 302 synchronously move upward and keep fit, and then move downward again.

Referring to fig. 8, the nail cleaning assembly includes a magnet holder 62 fixedly disposed in the nail taking cavity 61, a magnet sliding cavity 621 is formed in the magnet holder 62, an included angle between a center line of the magnet sliding cavity 621 and an axis of the output shaft 31 is 45 °, a magnet 64 is disposed in the magnet sliding cavity 621 in a reciprocating sliding manner, a fifth spring 65 and a pull rope 66 are connected to a side end of the magnet 64, the fifth spring 65 is located at the axis of the pull rope 66, and one end of the fifth spring 65 is connected to the other end of the magnet 64 and connected to an inner wall of the magnet sliding cavity 621; the lower end face of the magnet support 62 is an inclined plane, a bulge is arranged on the lower end face of the magnet support 62, a collecting support 63 is arranged below the bulge on the lower end face of the magnet support 62, and the collecting support 63 is in threaded connection with the bottom of the nail taking cavity 61; the lower end surface of the output shaft 31 is provided with two pyramid-shaped protrusions 70, each pyramid-shaped protrusion 70 is internally provided with a clamping cavity 701, the clamping cavity 701 is positioned at the lower side of the nail taking cavity 61 and communicated with the nail taking cavity 61, and a nail taking part is arranged in each clamping cavity 701; the pull rope 66 penetrates through the magnet bracket 62 and is connected with the nail taking component on the right side through a rotating shaft component; the rotating shaft component comprises a rotating shaft bracket 661 fixedly arranged on the inner wall of the nail taking cavity 61, the rotating shaft bracket 661 is fixedly connected with a pull rope rotating shaft 662, the pull rope rotating shaft 662 is rotatably sleeved with a pull rope roller 663, and a groove matched with the pull rope 66 is formed in the pull rope roller 663; the nail taking component comprises a clamping rotating shaft 702 fixedly arranged in the clamping cavity 701, the clamping rotating shaft 702 is rotatably sleeved with a clamping connecting rod 703, the clamping rotating shaft 702 is located at the center of the clamping connecting rod 703, the end surface of the clamping connecting rod 703, which is far away from the clamping cavity 701, is fixedly provided with a clamping friction block 704, two sixth springs 705 are connected between the end surface of the clamping connecting rod 703, which is close to the clamping cavity 701, and the inner wall of the clamping cavity 701, and the center position of the joint of the sixth spring 705 and the clamping connecting rod 703, which is located on the lower side, is connected with the pull rope 66.

The downward movement of the output shaft 31 drives the downward movement of the pyramid-shaped protrusion 70, so that the pyramid-shaped protrusion 70 impacts large cement blocks on the surface of the wood board, the cleaning of the large cement blocks is achieved, and the wood board can enter the cleaning cavity 11; meanwhile, when the nail is encountered in the contact of the pyramidal protrusion 70 with the wooden board, since the portion of the pyramidal protrusion 70 which is first contacted with the wooden board is the tip portion of the pyramid, the nail which is not in the middle will slide along the pyramidal protrusion 70;

when the nail slides to the clamping connecting rods 703, the nail caps firstly contact with the clamping connecting rods 703, after passing through the clamping rotating shafts 702, the nail caps spread the upper half parts of the two clamping connecting rods 703, so that the clamping connecting rods 703 rotate around the clamping rotating shafts 702 to pull the pull ropes 66, and the magnets 64 are pulled to move rightward through the pull rope rollers 663, so that the fifth springs 65 are compressed, meanwhile, the two sixth springs 705 connected with the clamping connecting rods 703, one compressed and one stretched, and meanwhile, the clamping friction blocks 704 on the clamping connecting rods 703 contact with the nail, thereby increasing the friction with the nail and having a clamping effect on the nail;

then the nail head enters the nail taking cavity 61, the sixth spring 705 resets to enable the pull rope 66 to not pull the magnet 64 any more, so that the magnet 64 moves leftwards, because the magnet 64 has a magnetic force on the nail, when the magnetic force of the magnet 64 on the nail is greater than the sum of the gravity of the nail and the received friction force, under the action of the magnetic force, the nail overcomes the lower half part of the friction brought by the wood board, is driven by the magnet 64 to move upwards and has a tendency of moving leftwards, because the magnet 64 is located in the fifth spring 65, the magnet 64 cannot be in direct contact with the nail, and along with the leftward movement of the magnet 64, the thickness of the magnet support 62 below the magnet 64 is gradually increased, the acting force on the nail is smaller and smaller, so that the difference between the magnetic force and the gravity of the nail is smaller and smaller when the nail moves leftwards, when the magnet 64 moves to the leftmost side, the magnetic force of the magnet 64 on the nail is smaller than the gravity of the nail, at this time, the nail is in contact with the projection on the lower end face of the magnet holder 62, falls into the collecting holder 63 due to the collision of the projection, and is collected;

when the lower half part of the nail extends into the wood board too deeply, so that the friction force of the wood board is too large, and the magnetic force of the magnet 64 cannot overcome the friction force of the lower half part of the nail caused by the wood board, when the output shaft 31 drives the pyramid-shaped protrusion 70 to move upwards, the lower half part of the nail is positioned in the wood board and is subjected to the friction force of the wood board, the nail moves downwards relative to the nail taking cavity 61, when the lower end surface of the nail cap moves to be jointed with the upper end surface of the clamping connecting rod 703, the clamping connecting rod 703 supports the nail cap, so that the nail cap is acted by the nail cap when the clamping connecting rod 703 moves upwards, thereby being driven to move upwards, so that the lower half part of the nail is separated from the wood board, the friction force of the wood board on the nail is reduced, then the nail enters the nail taking cavity 61 under the action of the magnetic force of the magnet 64, is attracted when the magnet 64 moves leftward next time and is then collected in the collecting holder 63 when the magnet 64 moves leftward.

Combine fig. 7 to show, trigger the subassembly including fixed the setting trigger support 35 in the casing 10, trigger support 35 and seted up opening rotation groove 52 towards the below, it is equipped with trigger pivot 51 to rotate the inslot 52 internal rotation, trigger pivot 51 fixedly connected with trigger connecting rod 50, trigger pivot 51 is equipped with the rectangle and triggers protruding 511, the rectangle trigger protruding 511 with be connected with the seventh spring 53 that is used for the rectangle to trigger protruding 511 to reset between the inner wall of rotation groove 52, install on the rotation groove 52 inner wall and start piece 54, start piece 54 with seventh spring 53 connects on the inner wall of same rotation groove 52.

When the cement blocks on the surface of the wood board greatly exceed the size of the feeding hole of the cleaning cavity 11, the size of the cement blocks can cause blockage to enter a triggering size range, so that when the cement blocks enter the cleaning cavity 11, the height of the cement blocks can touch the triggering connecting rod 50, and then the triggering connecting rod 50 is driven to rotate around the triggering rotating shaft 51; the rotation of the trigger rotating shaft 51 enables the rectangular trigger protrusion 511 to compress the seventh spring 53, and then the rectangular trigger protrusion 511 contacts the starting block 54 when the rectangular trigger protrusion is compressed to a certain amount, and then the second motor 30 is started through the starting block 54, because the seventh spring 53 needs to be compressed to trigger the second motor 30, and the elastic coefficient of the seventh spring 53 is large, the seventh spring 53 needs a large force to compress the seventh spring 53 while providing the reset, the trigger can perform false touch protection on a user, and avoids the situation that when the second motor 30 is started by false touch, part of human body tissues enter the stroke range of the pyramid protrusion 70 due to too small force needed by the trigger, and the injury caused by the false touch is reduced.

The motor is the prior art, so the description is omitted; the starting block is the prior art, and is not described in detail.

The working principle is as follows: the first motor 14 is started, and the first motor 14 drives the first spindle 15 to rotate.

The motor is the prior art, and therefore, the description is omitted.

The first main shaft 15 drives the worm 16 to rotate, the worm 16 drives the worm wheel 17 to rotate, the worm wheel 17 drives the first support 24 to move, the first support 24 drives the brush support 25 and the elastic filter screen 26 to move, the brush support 25 drives the brush 27 to move, the brush 27 cleans cement in the moving process, and the elastic filter screen 26 prevents the cement from entering the brush support 25; meanwhile, the material of the elastic filter screen 26 has certain elasticity, so that when large cement particles are encountered, the elastic filter screen 26 deforms to drive the brush 27 to move together, and because the brush 27 and the elastic filter screen 26 generate relative displacement, the surface of the brush 27 is scraped by the elastic filter screen 26, and the elastic filter screen 26 and the brush 27 are protected; the top end of the first support 24 is arc-shaped, the outer side end of the first support is provided with a bulge, the bulge can be used for enhancing stirring of cement, meanwhile, the cement can be crushed to a certain extent, large cement blocks are crushed while the elastic filter screen 26 and the elastic filter screen 26 are supported, and blockage caused by the large cement blocks is avoided; the rotation of worm wheel 17 takes cement to the left end export, the below of clearance chamber 11 feed inlet, accomplishes the crushing and the transport of cement, later collects, then handles in unison.

meanwhile, the protrusions on the surface of the cam 20 can impact the wood board in the rotating process of the cam 20; the movement of the cam 20 drives the first scraper 38 and the first slider 37, and the first scraper 38 scrapes off the surface of the wood board.

When the board moves to the outlet of the cleaning chamber 11, the board contacts the scraper 47 and the scraper head 472, as the board is continuously pushed by the feed gear 21, the board applies force to the squeegee 47 and the squeegee head 472, causing the squeegee 47 to move, since the scraper 47 transmits the force to the second slider 44 through the torsion spring 471 and then through the torsion spring rotation shaft 55, so that the second slider 44 receives a component force in the sliding direction of the second slider 44, so that the second slider 44 slides in the third cavity 49, the third spring 45 side on both sides of the second slider 44 is compressed and stretched, at the same time, the scraper 47 rotates around the torsion spring rotating shaft 55, so that the scraper head 472 and the front end surface of the wood board move relatively, because the scraping plates 47 rotate around the torsion spring rotating shaft 55 while scraping, the distance separation is generated between the two scraping plates 47 after the front end surfaces of the wood boards are cleaned, and the wood boards are discharged from the discharge port.

When the cement blocks on the surface of the wood board greatly exceed the size of the feeding hole of the cleaning cavity 11, the size of the cement blocks touches the trigger connecting rod 50, and then the trigger connecting rod 50 is driven to rotate around the trigger rotating shaft 51; the rotation of the trigger rotating shaft 51 causes the rectangular trigger protrusion 511 to compress the seventh spring 53, and then when the rectangular trigger protrusion 511 is compressed to a certain amount, the rectangular trigger protrusion 511 contacts the starting block 54, and the second motor 30 is started through the starting block 54;

when the second motor 30 is started, the second motor 30 drives the second motor second main shaft 301 to rotate, the second motor second main shaft 301 drives the second motor eccentric wheel 302 to rotate, and the second motor eccentric wheel 302 does not coincide with the second motor second main shaft 301 in the axis center, so that the second motor eccentric wheel 302 can reciprocate up and down relative to the second motor cavity 28 in the movement process; when the second motor eccentric 302 moves downward relative to the second motor cavity 28, the second motor eccentric 302 drives the output shaft 31 to move downward, and the fourth spring 34 is compressed;

then the nail head enters the nail taking cavity 61, the sixth spring 705 resets to enable the pull rope 66 not to pull the magnet 64 any more, the magnet 64 moves leftwards, the magnet 64 has a magnetic force on the nail, when the magnetic force of the magnet 64 on the nail is larger than the sum of the gravity of the nail and the received friction force, under the action of the magnetic force, the nail overcomes the friction of the lower half part caused by the wood board, is driven by the magnet 64 to move upwards and has a tendency of moving leftwards, the nail overcomes the friction of the lower half part and is driven by the magnet 64 to move upwards and moves leftwards at the same time, because the magnet 64 is positioned in the fifth spring 65, the magnet 64 cannot be in direct contact with the nail, along with the leftward movement of the magnet 64, the thickness of the magnet support 62 below the magnet 64 is gradually increased, the acting force on the nail is smaller and smaller, and the difference between the magnetic force and the gravity of the nail is smaller and smaller, when the magnet 64 moves to the leftmost side, the magnetic force of the magnet 64 to the nail is smaller than the gravity of the nail, the nail is contacted with the bulge on the lower end face of the magnet support 62, and the nail falls into the collecting support 63 under the collision of the bulge and is collected;

when the magnetic force of magnet 64 can't overcome the frictional force that the nail the latter half has the plank to bring, when output shaft 31 drives pyramid-shaped protrusion 70 upward movement, because the latter half of nail is located the plank, receive the frictional force of plank, the nail gets nail chamber 61 downstream relatively, when moving the lower terminal surface of nail cap and pressing from both sides the up end laminating of getting connecting rod 703, press from both sides and get connecting rod 703 and support for the nail cap, make the nail cap receive the effort of nail cap when pressing from both sides connecting rod 703 upward movement, thereby driven the upward movement, thereby make the latter half of nail break away from the plank, later get into under the effect of magnet 64 magnetic force and get nail chamber 61, be sucked up when next magnet 64 moves left then collected when magnet 64 moves left and collect in support 63.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a plank surface cement clean-up equipment, includes casing (10), be provided with clearance chamber (11) in casing (10), clearance chamber (11) run through casing (10), clearance chamber (11) left end is the discharge gate for the feed inlet right-hand member, its characterized in that: a cleaning device is arranged in the cleaning cavity (11), the cleaning device comprises a feeding gear assembly, a vibration cam assembly and a front end cleaning assembly, the feeding gear assembly is positioned at a feeding port of the cleaning cavity (11), the front end cleaning assembly is positioned at a discharging port of the cleaning cavity (11), and the vibration cam assembly is positioned between the feeding gear assembly and the front end cleaning assembly; a worm wheel cavity (12) and a first motor cavity (13) are arranged in the shell (10), the opening direction of the worm wheel cavity (12) is the same as the direction of a feed inlet of the cleaning cavity (11), the opening of the worm wheel cavity (12) is positioned below the feed inlet of the cleaning cavity (11), one end, far away from the feed inlet of the cleaning cavity (11), of the worm wheel cavity (12) is communicated with the first motor cavity (13), a power device is arranged in the first motor cavity (13), and a worm wheel device is arranged in the worm wheel cavity (12); the nail cleaning device is characterized in that a power cleaning device is arranged obliquely above a feed inlet of the cleaning cavity (11), the power cleaning device comprises a power assembly, a trigger assembly and a nail cleaning assembly, the nail cleaning assembly is located under the power assembly, the power assembly is used for providing power for the nail cleaning assembly, the trigger assembly is used for controlling the work of the power assembly, the nail cleaning assembly is located between the trigger assembly and the feed inlet of the cleaning cavity (11), the nail cleaning assembly is used for cleaning nails on the surface of a wood board, the power device comprises a first motor (14) arranged at the bottom of a first motor cavity (13), a first main shaft (15) is arranged on the end face, close to the feed inlet of the cleaning cavity (11), of the first motor (14) in a rotating mode, the first main shaft (15) is connected with a first transmission rod (22) through bevel gear meshing, and the feeding gear assembly is composed of two gear parts which are arranged in the cleaning cavity in an up-down symmetrical mode, the gear part comprises a second transmission rod (19) connected with the first transmission rod (22) through a helical gear, the second transmission rod (19) is connected with a first rotating shaft (18) through the helical gear, a feeding gear (21) is fixedly sleeved on the first rotating shaft (18), the vibration cam component comprises a plurality of cam components, the cam components positioned on the same side are equidistantly distributed on the inner wall of the cleaning cavity (11), the cam components on the upper side and the lower side are distributed on the inner wall of the cleaning cavity (11) in a crossed and staggered manner, the cam components comprise a third transmission rod (23) connected with the first transmission rod (22) through the helical gear, the third transmission rod (23) is connected with a second rotating shaft (40) through the helical gear, a third rotating shaft (41) is fixedly sleeved on the second rotating shaft (40), and a cam (20) is sleeved on the third rotating shaft (41), a first cavity (201) is defined in the cam (20), the third rotating shaft (41) is located in the first cavity (201) and can slide relatively along the first cavity (201), a first spring (42) is connected between the upper side end and the lower side end of the third rotating shaft (41) and the inner wall of the first cavity (201), a trapezoidal protrusion is arranged on the surface of the cam (20), a second cavity (36) is formed in the trapezoidal protrusion, and a scraping component is arranged in the second cavity (36).

2. The wood board surface cement cleaning device according to claim 1, wherein: the worm wheel device comprises a worm (16) which is rotatably arranged in a worm wheel cavity (12), the worm (16) is fixedly connected with the first main shaft (15), a worm wheel (17) is fixedly sleeved on the worm (16), the worm wheel (17) is fixedly provided with two first supports (24) on the end surface far away from the worm (16), the two first supports (24) are symmetrically distributed about the central plane of the worm wheel (17), a brush support (25) and an elastic filter screen (26) are fixedly arranged between the two first supports (24), the brush support (25) is concentric with the elastic filter screen (26), the brush support (25) is positioned between the elastic filter screen (26) and the worm wheel (17), and a brush (27) is fixedly arranged on the end surface, close to the elastic filter screen (26), of the brush support (25), the brush (27) passes through the elastic filter screen (26); the worm wheel cavity (12) is communicated with the cleaning cavity (11) through a plurality of trapezoidal sewage outlets.

3. The wood board surface cement cleaning device according to claim 1, wherein: the scraping component comprises a first sliding block (37) which is arranged in the second cavity (36) in a reciprocating sliding mode, two symmetrical end faces of the first sliding block (37) and the inner wall of the second cavity (36) are connected with a second spring (39), two symmetrical end faces of the first sliding block (37) are attached to the inner wall of the second cavity (36), and a first scraper (38) is fixedly arranged on the end face, far away from the bottom of the second cavity (36), of the first sliding block (37).

4. The wood board surface cement cleaning device according to claim 1, wherein: the front end cleaning assembly comprises two scraper components arranged on the upper inner wall and the lower inner wall of a discharge hole of the cleaning cavity (11), the two scraper components are not on the same vertical plane, and the distances between the two scraper components and the center of the discharge hole of the cleaning cavity (11) are equal; the scraper component comprises a second bracket (43) fixedly arranged on the inner wall of the discharge hole of the cleaning cavity (11), a third cavity (49) with an opening direction consistent with the discharge hole direction of the cleaning cavity (11) is arranged in the second bracket (43), a second sliding block (44) is arranged in the third cavity (49) in a reciprocating sliding manner, a third spring (45) is connected between two symmetrical end faces of the second sliding block (44) and the inner wall of the third cavity (49), a fourth cavity (46) is arranged in the second sliding block (44), a torsion spring rotating shaft (55) is fixedly arranged in the second sliding block (44), the torsion spring rotating shaft (55) is connected with a scraping rod (47) through a torsion spring (471), the scraping rod (47) is far away from the scraping rod scraping head (472) fixedly arranged on the periphery of the end face of the torsion spring rotating shaft (55), and the scraping rod scraping head (472) is conical.

5. The wood board surface cement cleaning device according to claim 1, wherein: the cross section of the feeding port of the cleaning cavity (11) is trapezoidal, the length of one side close to the discharging port is shorter than that of one side far away from the discharging port, a second motor cavity (28) is arranged in the shell (10), the power assembly comprises a second motor (30) arranged in the second motor cavity (28), the output end of the second motor (30) is connected with a second main shaft (301), a second motor eccentric wheel (302) is fixedly sleeved on the second main shaft (301), and the second motor and the second main shaft (301) are not concentric with the eccentric wheel (302); an output shaft cavity (32) is formed in the shell (10), an output shaft (31) is arranged in the output shaft cavity (32) in a reciprocating sliding mode, the output shaft (31) is located under the eccentric wheel (302) and attached to the eccentric wheel (302), the output shaft (31) penetrates through the output shaft cavity (32), a rectangular bulge is arranged on the portion, located in the output shaft cavity (32), of the output shaft (31), and two fourth springs (34) used for resetting the output shaft (31) are connected between the rectangular bulge portion of the output shaft (31) and the bottom of the output shaft cavity (32); the lower end of the output shaft (31) is provided with a nail taking cavity (61), and the nail cleaning assembly is located in the nail taking cavity (61).

6. The wood board surface cement cleaning device according to claim 5, wherein: the nail cleaning assembly comprises a magnet support (62) fixedly arranged in the nail taking cavity (61), a magnet sliding cavity (621) is formed in the magnet support (62), an included angle between the center line of the magnet sliding cavity (621) and the axis of the output shaft (31) is 45 degrees, a magnet (64) is arranged in the magnet sliding cavity (621) in a reciprocating sliding mode, the side end of the magnet (64) is connected with a fifth spring (65) and a pull rope (66), the fifth spring (65) is located at the axis position of the pull rope (66), one end of the fifth spring (65) is connected with the other end of the magnet (64) and is connected with the inner wall of the magnet sliding cavity (621); the lower end face of the magnet support (62) is an inclined plane, a bulge is arranged on the lower end face of the magnet support (62), a collecting support (63) is arranged below the bulge on the lower end face of the magnet support (62), and the collecting support (63) is in threaded connection with the bottom of the nail taking cavity (61); two pyramid-shaped protrusions (70) are arranged on the lower end face of the output shaft (31), a clamping cavity (701) is formed in each pyramid-shaped protrusion (70), the clamping cavity (701) is located on the lower side of the nail taking cavity (61) and communicated with the nail taking cavities (61), and a nail taking component is arranged in each clamping cavity (701); the pull rope (66) penetrates through the magnet bracket (62), and then the nail taking component on the right side is connected through the rotating shaft component; the rotating shaft component comprises a rotating shaft support (661) fixedly arranged on the inner wall of the nail taking cavity (61), the rotating shaft support (661) is fixedly connected with a pull rope rotating shaft (662), the pull rope rotating shaft (662) is rotatably sleeved with a pull rope roller (663), and a groove matched with the pull rope (66) is formed in the pull rope roller (663); the nail taking component comprises a clamping rotating shaft (702) fixedly arranged in a clamping cavity (701), the clamping rotating shaft (702) is rotatably sleeved with a clamping connecting rod (703), the clamping rotating shaft (702) is located at the center of the clamping connecting rod (703), the end face, far away from the clamping cavity (701), of the clamping connecting rod (703) is fixedly provided with a clamping friction block (704), the clamping connecting rod (703) is close to the end face of the clamping cavity (701) and is connected with two sixth springs (705) between the inner wall of the clamping cavity (701), and the sixth springs (705) located on the lower side are connected with the center position of the joint of the clamping connecting rod (703) to form the pull rope (66).

7. The wood board surface cement cleaning device as claimed in claim 6, wherein: trigger the subassembly including fixed setting trigger support (35) in casing (10), trigger support (35) and seted up opening rotation groove (52) towards the below, it is equipped with trigger pivot (51) to rotate groove (52) internal rotation, trigger pivot (51) fixedly connected with trigger connecting rod (50), trigger pivot (51) and be equipped with the rectangle and trigger protruding (511), the rectangle trigger protruding (511) with be connected with between the inner wall of rotation groove (52) and be used for the rectangle to trigger seventh spring (53) that protruding (511) reset, install on rotation groove (52) inner wall and start piece (54), start piece (54) with second motor (30) electricity is connected, start piece (54) with seventh spring (53) are connected on the inner wall of same rotation groove (52).