CN108755360B

CN108755360B - Knocking device for square floor tile construction

Info

Publication number: CN108755360B
Application number: CN201810507513.XA
Authority: CN
Inventors: 胡爱国
Original assignee: Jiaxing Hexing Zirun Bearing Development Co ltd
Current assignee: Tai'an Kunda Municipal Engineering Co ltd
Priority date: 2018-05-24
Filing date: 2018-05-24
Publication date: 2020-07-17
Anticipated expiration: 2038-05-24
Also published as: CN108755360A

Abstract

The invention relates to a knocking device, in particular to a knocking device for square floor tile construction. The invention aims to provide a knocking device for square floor tile construction, which is time-saving, labor-saving, high in knocking speed, free of knocking by people and not prone to fatigue. The technical scheme is as follows: a knocking device for square floor tile construction comprises a bottom plate, wheels, a first sliding block, a sliding rail, a second sliding block, a transverse plate, a vertical plate, a transverse rod, a rack, a knocking block, a first spring, a first motor, a rotating rod and the like; the wheels are symmetrically arranged on the left side and the right side of the bottom plate, the sliding groove is formed in the top of the bottom plate, a first sliding block is arranged in the sliding groove, and a sliding rail is vertically arranged in the middle of the top of the first sliding block. According to the invention, through the knocking device, the side edges of the floor tiles can be knocked, so that gaps among the floor tiles are reduced, the knocking blocks move up and down, the floor tiles are knocked tightly, the floor tiles do not need to be knocked by people, convenience and rapidness are realized, and the effects of time and labor saving, high knocking speed, no need of knocking by people and low possibility of fatigue of people are achieved.

Description

Knocking device for square floor tile construction

Technical Field

The invention relates to a knocking device, in particular to a knocking device for square floor tile construction.

Background

The construction machine is a tool for on-site construction, and belongs to a fixed asset of a construction unit.

When square ceramic tile was under construction, people pasted the ceramic tile subaerial back, need strike the ceramic tile, and made the better that the ceramic tile pasted, and when artifical hammer or other instruments that use were strikeed the ceramic tile, need consume more manpower and time, strike speed is slow moreover, long-time striking people is easy tired, consequently need urgent need to develop a labour saving and time saving, strike fast, need not the people and strike, and the difficult tired striking device is used in square ceramic tile construction of people.

Disclosure of Invention

The invention aims to overcome the defects that when the floor tiles are manually knocked, more manpower and time are consumed, the knocking speed is low, and people are easy to fatigue after knocking for a long time.

The technical scheme is as follows: a knocking device for square floor tile construction comprises a bottom plate, wheels, a first sliding block, a sliding rail, a second sliding block, a transverse plate, vertical plates, transverse rods, racks, knocking blocks, a first spring, a first motor, a rotating rod, a first bearing seat, a sector gear and rubber blocks, wherein the wheels are symmetrically arranged on the left side and the right side of the bottom plate, a sliding groove is formed in the top of the bottom plate, the first sliding block is arranged in the sliding groove, the sliding rail is vertically arranged in the middle of the top of the first sliding block, the second sliding block matched with the sliding rail is arranged on the sliding rail, the transverse plate is arranged in the middle of the left side face of the second sliding block, the vertical plates are symmetrically arranged on the left side face and the right side of the transverse plate, the rubber blocks are arranged at the bottom of the vertical plates, the transverse rods are arranged between the lower portion of the right side face of the vertical plates on the, first spring housing is on the rack, and first bearing frame is installed to left side riser right flank lower part, and first bearing frame is located the horizontal pole top, installs the bull stick in the first bearing frame, and evenly spaced installs sector gear on the bull stick, and sector gear is located rack rear side and its meshing, and right side riser left flank lower part horizontal installation has first motor, and first motor is located the horizontal pole top, and the output shaft of first motor passes through the shaft coupling and is connected with the bull stick right-hand member.

Optionally, still including knocking device, knocking device is including T type pole, the montant, the pulley, act as go-between, the push pedal, movable rod and second spring, open on left side riser upper portion has the through-hole, be equipped with the movable rod in the through-hole, the push pedal is installed to the movable rod left end, be connected with a plurality of second springs between push pedal right flank and the left side riser left surface lower part, the montant is installed on diaphragm bottom right side, the pulley is installed to the montant bottom, T type pole is installed on rightmost side rack top, the top is connected with acts as go-between in the T type pole, it walks around the pulley and is connected with.

Optionally, still including sliding sleeve, 7 type poles and guide arm, install the guide arm between left side riser right flank middle part and the right side riser left flank middle part, be equipped with the sliding sleeve on the guide arm, install 7 type poles in the middle of the sliding sleeve top, 7 type pole left ends are connected with the movable rod right-hand member.

Optionally, the sliding rail further comprises a second bearing seat, a screw rod and a second motor, a threaded hole is formed in the right side of the transverse plate, the second bearing seats are mounted on the upper side and the lower side of the left side face of the sliding rail, the screw rod is connected between the second bearing seats on the upper side and the lower side, the screw rod is located in the threaded hole, the second motor is mounted on the upper portion of the left side face of the sliding rail, the second motor is located above the second bearing seats, and an output shaft of the.

Firstly, an operator pushes the device to be positioned beside a floor tile through wheels and pushes a slide rail to move leftwards, the slide rail moves leftwards and drives a transverse plate to move leftwards through a second sliding block, the transverse plate moves leftwards and drives a vertical plate to move leftwards so as to drive a part on the vertical plate to move leftwards, when a knocking block moves leftwards and is positioned above the floor tile, the slide rail is stopped being pushed, the second sliding block moves downwards and drives the transverse plate to move downwards, the transverse plate moves downwards and drives a vertical plate to move downwards, the vertical plate moves downwards and drives a rubber block to move downwards, and then the rubber block moves downwards and contacts with the floor tile, the second sliding block is stopped being pushed, the first motor can be started to rotate forwards, the motor rotates forwards and drives a rotating rod to rotate forwards, the rotating rod rotates forwards and drives a sector gear to, the knocking block moves up and down to be in contact with the floor tile, and then the knocking block knocks the floor tile, so that the floor tile can be better attached. Similarly, after the floor tile is knocked, the first motor can be closed, the second sliding block is pulled to move upwards, the knocking block is driven to move upwards to return to the original position, the rubber block is not in contact with the floor tile, the second sliding block is stopped to be pulled, the sliding rail is pulled to move rightwards again, the sliding rail moves rightwards to drive the transverse plate to move rightwards to return to the original position, the sliding rail is stopped to be pulled, and the device can be pushed to knock the next floor tile.

Because the device also comprises a knocking device which comprises a T-shaped rod, a vertical rod, a pulley, a pull wire, a push plate, a movable rod and a second spring, the upper part of a left vertical plate is provided with a through hole, the movable rod is arranged in the through hole, the left end of the movable rod is provided with the push plate, the right side surface of the push plate and the lower part of the left side surface of the left vertical plate are connected with the plurality of second springs, the vertical rod is arranged at the right side of the bottom of a transverse plate, the pulley is arranged at the bottom end of the vertical rod, the T-shaped rod is arranged at the top end of a rightmost rack, the top in the T-shaped rod is connected with the pull wire, the tail end of the pull wire bypasses the pulley and is connected with the right end of the movable rod, when the side edge of the floor tile needs to be knocked, the slide rail can be pushed to move, stop promoting the second slider, start first motor, and then the rack drives T type pole when reciprocating and reciprocates, because of the effect of second spring, T type pole reciprocates and removes about driving the movable rod through acting as go-between, and the movable rod removes about driving the push pedal, and remove about the push pedal and remove and beat it with the ceramic tile contact, and then make the better hugging closely together of ceramic tile. After the floor tile is knocked, the motor is turned off, the push plate stops moving left and right, an operator can pull the second sliding block to move upwards, the push plate is driven to move upwards to a proper position, the sliding rail is pulled to move right, and the push plate is driven to move right to be restored to the original position. So, can make the ceramic tile subsides better, need not the manual work and strike the ceramic tile side.

Because still including the sliding sleeve, 7 type poles and guide arm, install the guide arm between left side riser right flank middle part and the right side riser left flank middle part, be equipped with the sliding sleeve on the guide arm, install 7 type poles in the middle of the sliding sleeve top, 7 type pole left ends are connected with the movable rod right-hand member, when the movable rod removes, the sliding sleeve plays the guide effect with the guide arm, and more steady when making the movable rod remove, and then more steady when making the push pedal remove, do not influence the striking to the ceramic tile.

Because still including the second bearing frame, lead screw and second motor, open the diaphragm right side has the screw hole, the second bearing frame is all installed to slide rail left surface upper and lower both sides, be connected with the lead screw between the upper and lower both sides second bearing frame, the lead screw is located the screw hole, the second motor is installed on slide rail left surface upper portion, the second motor is located top second bearing frame top, the output shaft of second motor passes through the shaft coupling and is connected with the lead screw top, when the knockout removes to ceramic tile top or the push pedal removes to the ceramic tile on one side, can start the second motor reversal, the second motor reversal drives the lead screw reversal, the lead screw reversal drives the diaphragm through the screw hole and moves down, and then drive knockout and push pedal. When the knocking block and the push plate move to proper positions, the second motor can be switched off. After the local brick is knocked, the second motor can be started to rotate positively, the knocking block and the push plate are driven to move upwards to return to the original position, and the second motor is turned off. Therefore, the transverse plate does not need to be manually pulled by a person, and time and labor are saved.

According to the invention, through the knocking device, the side edges of the floor tiles can be knocked, so that gaps among the floor tiles are reduced, the knocking blocks move up and down, the floor tiles are knocked tightly, the floor tiles do not need to be knocked by people, convenience and rapidness are realized, and the effects of time and labor saving, high knocking speed, no need of knocking by people and low possibility of fatigue of people are achieved.

Drawings

Fig. 1 is a first front view structure diagram of the present invention.

Fig. 2 is a second front view structure diagram of the present invention.

Fig. 3 is a third schematic view of the present invention.

Wherein: 1: bottom plate, 2: wheel, 3: chute, 4: first slider, 5: slide rail, 6: second slider, 7: transverse plate, 8: a vertical plate, 9: cross bar, 10: guide hole, 11: rack, 12: a knock-out block, 13: first spring, 14: first motor, 15: turning rod, 16: first bearing seat, 17: sector gear, 18: rubber block, 19: knocking device, 191: t-bar, 192: vertical bar, 193: pulley, 194: stay wire, 195: through-hole, 196: a push plate, 197: movable rod, 198: second spring, 20: a sliding sleeve, 21: type 7 rod, 22: guide rod, 23: second bearing housing, 24: screw rod, 25: threaded hole, 26: a second motor.

Detailed Description

The preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Example 1

A knocking device for square floor tile construction is disclosed, as shown in figures 1-3, and comprises a bottom plate 1, wheels 2, a first slide block 4, slide rails 5, a second slide block 6, a transverse plate 7, a vertical plate 8, a transverse rod 9, a rack 11, a knocking block 12, a first spring 13, a first motor 14, a rotating rod 15, a first bearing seat 16, a sector gear 17 and a rubber block 18, wherein the wheels 2 are symmetrically arranged on the left side and the right side of the bottom plate 1, a chute 3 is formed in the top of the bottom plate 1, the first slide block 4 is arranged in the chute 3, the slide rail 5 is vertically arranged in the middle of the top of the first slide block 4, the second slide block 6 matched with the slide rail 5 is arranged on the slide rail 5, the transverse plate 7 is arranged in the middle of the left side of the second slide block 6, the vertical plates 8 are symmetrically arranged on the left side and the right side of the bottom of the transverse plate 7, evenly spaced division has guide hole 10 on the horizontal pole 9, be equipped with rack 11 in the guide hole 10, the piece 12 of striking is installed to rack 11 bottom, be connected with first spring 13 between 12 tops of piece and the horizontal pole 9 bottom, first spring 13 cover is on

rack

11, 8 right flank lower parts of left side riser install primary shaft bearing 16, primary shaft bearing 16 is located horizontal pole 9 top, install bull stick 15 in the primary shaft bearing 16, evenly spaced installs sector gear 17 on bull stick 15, sector gear 17 is located rack 11 rear side and its meshing, 8 left flank lower part horizontal mounting in right side riser has first motor 14, first motor 14 is located horizontal pole 9 top, the output shaft of first motor 14 passes through the shaft coupling and is connected with bull stick 15 right-hand member.

Example 2

rack

Still including knocking device 19, knocking device 19 is including T type pole 191, montant 192, pulley 193, act as go-between 194, push pedal 196, movable rod 197 and

second spring

198, 8 upper portions of left side riser are opened there is through-hole 195, be equipped with movable rod 197 in the through-hole 195, push pedal 196 is installed to the movable rod 197 left end, be connected with a plurality of second springs 198 between push pedal 196 right flank and the 8 left surface lower part of left side riser, montant 192 is installed on 7 bottom right sides of diaphragm, pulley 193 is installed to montant 192 bottom, T type pole 191 is installed on 11 tops of rightmost side rack, the top is connected with act as go-between 194 in the T type pole 191, act as go-between 194 tail end and walk around pulley 193 and be connected.

Example 3

rack

second spring

The vertical shaft sliding device is characterized by further comprising a sliding sleeve 20, a 7-shaped rod 21 and a guide rod 22, the guide rod 22 is installed between the middle of the right side face of the left vertical plate 8 and the middle of the left side face of the right vertical plate 8, the sliding sleeve 20 is arranged on the guide rod 22, the 7-shaped rod 21 is installed in the middle of the top of the sliding sleeve 20, and the left end of the 7-shaped rod 21 is connected with the right end of.

Example 4

rack

second spring

The sliding rail structure is characterized by further comprising a second bearing seat 23, a screw rod 24 and a second motor 26, wherein a threaded hole 25 is formed in the right side of the transverse plate 7, the second bearing seats 23 are mounted on the upper side and the lower side of the left side face of the sliding rail 5, the screw rod 24 is connected between the second bearing seats 23 on the upper side and the lower side, the screw rod 24 is located in the threaded hole 25, the second motor 26 is mounted on the upper portion of the left side face of the sliding rail 5, the second motor 26 is located above the second bearing seats 23, and an output.

Firstly, an operator pushes the device to be positioned beside a floor tile through the wheels 2, then pushes the slide rail 5 to move leftwards, the slide rail 5 moves leftwards, the second slide block 6 drives the transverse plate 7 to move leftwards, the transverse plate 7 moves leftwards, the vertical plate 8 moves leftwards, and further drives a component on the vertical plate 8 to move leftwards, when the knocking block 12 moves leftwards and is positioned above the floor tile, the slide rail 5 is stopped being pushed, the second slide block 6 is pushed to move downwards, the second slide block 6 moves downwards, the transverse plate 7 moves downwards, the vertical plate 8 moves downwards, the rubber block 18 moves downwards, and further the rubber block 18 moves downwards to be contacted with the floor tile, the second slide block 6 is stopped being pushed, the first motor 14 can be started to rotate forwards, the motor rotates forwards to drive the rotating rod 15 to rotate forwards, the rotating rod 15 rotates forwards to drive the sector, the sector gear 17 rotates positively to drive the rack 11 to move up and down, the rack 11 moves up and down to drive the knocking block 12 to move up and down, the knocking block 12 moves up and down to be in contact with the floor tile, and then the knocking block 12 knocks the floor tile, so that the floor tile is better pasted. Similarly, after the floor tile is knocked, the first motor 14 can be turned off, the second sliding block 6 is pulled to move upwards, the knocking block 12 is driven to move upwards and return to the original position, the rubber block 18 is not in contact with the floor tile, the second sliding block 6 is stopped to be pulled, the sliding rail 5 is pulled to move rightwards, the sliding rail 5 moves rightwards to drive the transverse plate 7 to move rightwards and return to the original position, the sliding rail 5 is stopped to be pulled, and the device can be pushed to knock the next floor tile.

Because the utility model also comprises a knocking device 19, the knocking device 19 comprises a T-shaped rod 191, a vertical rod 192, a pulley 193, a pull wire 194, a push plate 196, a movable rod 197 and a second spring 198, the upper part of the left vertical plate 8 is provided with a through hole 195, the through hole 195 is internally provided with the movable rod 197, the left end of the movable rod 197 is provided with the push plate 196, a plurality of second springs 198 are connected between the right side surface of the push plate 196 and the lower part of the left side surface of the left vertical plate 8, the vertical rod 192 is arranged at the right side of the bottom of the transverse plate 7, the pulley 193 is arranged at the bottom end of the vertical rod 192, the T-shaped rod 191 is arranged at the top end of the rightmost rack 11, the pull wire 194 is connected at the top in the T-shaped rod 191, the tail end of the pull wire 194 bypasses the pulley 193 to be connected with the right end of the movable rod 197, can stop to promote slide rail 5, promote the downward movement of second slider 6, and then push pedal 196 downstream is located the ceramic tile on one side, stop to promote second slider 6, start first motor 14, and then drive T type pole 191 and reciprocate when rack 11 reciprocates, because of the effect of second spring 198, T type pole 191 reciprocates and moves about through acting as go-between 194 drive movable rod 197, movable rod 197 moves about and moves about drive push pedal 196, move about the push pedal 196 and beat it with the ceramic tile contact, and then make better hugging closely together of ceramic tile. After the floor tile is knocked, the motor is turned off, the push plate 196 stops moving left and right, an operator can pull the second slide block 6 to move upwards, further drive the push plate 196 to move upwards to a proper position, pull the slide rail 5 to move right, and drive the push plate 196 to move right to return to the original position. So, can make the ceramic tile subsides better, need not the manual work and strike the ceramic tile side.

Because still including sliding

sleeve

20, 7 type pole 21 and guide arm 22, install guide arm 22 between 8 right flank middle parts of left side riser and the 8 left flank middle parts of right side riser, be equipped with sliding sleeve 20 on the guide arm 22, install 7 type pole 21 in the middle of the sliding sleeve 20 top, 7 type pole 21 left end is connected with the movable rod 197 right-hand member, when moving rod 197 moves about, sliding sleeve 20 plays the guide effect with guide arm 22, and it is more steady when making movable rod 197 move, and then it is more steady when moving rod 196 removes, do not influence the striking to the ceramic tile.

Because still including second bearing frame 23, lead screw 24 and second motor 26, diaphragm 7 right side is opened threaded hole 25, second bearing frame 23 is all installed to slide rail 5 left side upper and lower both sides, be connected with lead screw 24 between upper and lower both sides second bearing frame 23, lead screw 24 is located threaded hole 25, slide rail 5 left side upper portion is installed second motor 26, second motor 26 is located top second bearing frame 23 top, the output shaft of second motor 26 passes through the shaft coupling and is connected with lead screw 24 top, when the piece 12 removes to the ceramic tile top or push pedal 196 removes to the ceramic tile of one side, can start second motor 26 reversal, second motor 26 reversal drives lead screw 24 reversal, lead screw 24 reversal drives diaphragm 7 through threaded hole 25 and moves down, and then drives piece 12 and push pedal 196 and move down. When the knock block 12 and the push plate 196 are moved to the proper position, the second motor 26 is turned off. After the local brick is knocked, the second motor 26 can be started to rotate forwardly, so that the knocking block 12 and the push plate 196 are driven to move upwards to return to the original position, and the second motor 26 is turned off. Therefore, the transverse plate 7 does not need to be pulled manually, and time and labor are saved.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims

1. A knocking device for square floor tile construction is characterized by comprising a bottom plate (1), wheels (2), a first sliding block (4), a sliding rail (5), a second sliding block (6), a transverse plate (7), vertical plates (8), a transverse rod (9), a rack (11), a knocking block (12), a first spring (13), a first motor (14), a rotating rod (15), a first bearing seat (16), a sector gear (17) and a rubber block (18), wherein the wheels (2) are symmetrically arranged on the left side and the right side of the bottom plate (1), a sliding groove (3) is formed in the top of the bottom plate (1), the first sliding block (4) is arranged in the sliding groove (3), the sliding rail (5) is vertically arranged in the middle of the top of the first sliding block (4), the transverse plate (7) is arranged in the middle of the left side face of the sliding rail (5), the vertical plates (8) are symmetrically arranged on the left side and the right side of the bottom of the transverse plate (7), the rubber block (18) is arranged at the bottom of the vertical plate (8), a cross rod (9) is arranged between the lower part of the right side surface of the left vertical plate (8) and the lower part of the left side surface of the right vertical plate (8), guide holes (10) are uniformly formed in the cross rod (9) at intervals, racks (11) are arranged in the guide holes (10), a knocking block (12) is arranged at the bottom end of the racks (11), a first spring (13) is connected between the top of the knocking block (12) and the bottom of the cross rod (9), the first spring (13) is sleeved on the racks (11), a first bearing seat (16) is arranged at the lower part of the right side surface of the left vertical plate (8), the first bearing seat (16) is positioned above the cross rod (9), a rotating rod (15) is arranged in the first bearing seat (16), sector gears (17) are uniformly arranged on the rotating rod (15) at intervals, the sector gears (17) are positioned at the rear side, the first motor (14) is positioned above the cross rod (9), and an output shaft of the first motor (14) is connected with the right end of the rotating rod (15) through a coupler;

the novel steel wire rope drawing machine is characterized by further comprising a knocking device (19), the knocking device (19) comprises a T-shaped rod (191), a vertical rod (192), a pulley (193), a drawing wire (194), a push plate (196), a movable rod (197) and a second spring (198), a through hole (195) is formed in the upper portion of a left vertical plate (8), the movable rod (197) is arranged in the through hole (195), the push plate (196) is installed at the left end of the movable rod (197), the second springs (198) are connected between the right side face of the push plate (196) and the lower portion of the left side face of the left vertical plate (8), the vertical rod (192) is installed on the right side of the bottom of the transverse plate (7), the pulley (193) is installed at the bottom end of the vertical rod (192), the T-shaped rod (191) is installed at the top end of the rightmost rack (11), the drawing wire (194) is connected;

the sliding sleeve is characterized by further comprising a sliding sleeve (20), a 7-shaped rod (21) and a guide rod (22), the guide rod (22) is arranged between the middle of the right side face of the left vertical plate (8) and the middle of the left side face of the right vertical plate (8), the sliding sleeve (20) is arranged on the guide rod (22), the 7-shaped rod (21) is arranged in the middle of the top of the sliding sleeve (20), and the left end of the 7-shaped rod (21) is connected with the right end of the movable rod (;

the sliding rail structure is characterized by further comprising a second bearing seat (23), a screw rod (24) and a second motor (26), wherein a threaded hole (25) is formed in the right side of the transverse plate (7), the second bearing seats (23) are mounted on the upper side and the lower side of the left side surface of the sliding rail (5), the screw rod (24) is connected between the second bearing seats (23) on the upper side and the lower side, the screw rod (24) is located in the threaded hole (25), the second motor (26) is mounted on the upper portion of the left side surface of the sliding rail (5), the second motor (26) is located above the second bearing seat (23), and an output shaft of the second motor;

firstly, an operator pushes the device to be positioned beside a floor tile through wheels and pushes a slide rail to move leftwards, the slide rail moves leftwards and drives a transverse plate to move leftwards through a second sliding block, the transverse plate moves leftwards and drives a vertical plate to move leftwards so as to drive a part on the vertical plate to move leftwards, when a knocking block moves leftwards and is positioned above the floor tile, the slide rail is stopped being pushed, the second sliding block moves downwards and drives the transverse plate to move downwards, the transverse plate moves downwards and drives a vertical plate to move downwards, the vertical plate moves downwards and drives a rubber block to move downwards, and then the rubber block moves downwards and contacts with the floor tile, the second sliding block is stopped being pushed, the first motor can be started to rotate forwards, the motor rotates forwards and drives a rotating rod to rotate forwards, the rotating rod rotates forwards and drives a sector gear to, the knocking block moves up and down to be in contact with the floor tile, the knocking block is further used for knocking the floor tile, so that the floor tile can be better attached, similarly, after the floor tile is knocked, the first motor can be turned off, the second sliding block is pulled to move upwards, the knocking block is further driven to move upwards to be recovered to the original position, the rubber block is not in contact with the floor tile, the second sliding block is stopped being pulled, the sliding rail is pulled to move rightwards, the sliding rail moves rightwards to drive the transverse plate to move rightwards to be recovered to the original position, the sliding rail is stopped being pulled, and the device.