CN112281604A

CN112281604A - Knocking device for laying bricks

Info

Publication number: CN112281604A
Application number: CN202011252686.5A
Authority: CN
Inventors: 李传江
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-11
Filing date: 2020-11-11
Publication date: 2021-01-29

Abstract

The invention discloses a knocking device for laying bricks, which comprises a device body, wherein the upper end of one side of the device body is fixedly connected with a pushing handle, the device body is internally provided with an installation cavity, four side blocks are uniformly and integrally formed at two sides of the device body, the lower end of each side block is integrally formed with a bottom box, power cavities are arranged in the two side blocks positioned at the front side, a motor is fixedly arranged on the inner wall of one side of the power cavity, which is far away from the device body, the output end of the motor is fixedly connected with a first rotating shaft, one end of the first rotating shaft, which is far away from the motor, is rotationally connected with the inner wall of the power cavity, a first gear is coaxially and fixedly sleeved on the first rotating shaft, and the inner walls of two sides of the bottom box corresponding to the power cavity are rotatably connected with a second rotating shaft, the second rotating shaft is coaxially and fixedly sleeved with a first travelling wheel, and the first rotating shaft is in transmission connection with a second rotating shaft belt. Has the advantages that: the device has high automation degree, does not need manual operation, greatly reduces the labor capacity and improves the knocking efficiency.

Description

Knocking device for laying bricks

Technical Field

The invention relates to the technical field of floor tiles, in particular to a knocking device for laying floor tiles.

Background

Floor tiles are a floor finishing material, also called floor tiles. The floor is made of clay by firing, has various specifications, firm quality, pressure resistance and wear resistance, can prevent moisture, has decoration effect after glazing treatment, and is mainly used for floors and floors of public buildings and civil buildings.

After the floor tiles are laid on a square, the floor tiles need to be knocked to enable the floor tiles to be attached more tightly, tools such as hammers are used for knocking the floor tiles manually in the existing method, knocking labor is large, knocking efficiency is low, and fatigue is easy to occur.

To solve the above problems, we propose a knocking device for laying bricks.

Disclosure of Invention

The invention aims to solve the problems in the background art and provides a tile laying knocking device.

In order to achieve the purpose, the invention adopts the following technical scheme: a knocking device for laying bricks comprises a device body, wherein the upper end of one side of the device body is fixedly connected with a pushing handle, the device body is internally provided with an installation cavity, four side blocks are uniformly and integrally formed at two sides of the device body, the lower end of each side block is integrally formed with a bottom box, power cavities are arranged in the two side blocks positioned at the front side, a motor is fixedly arranged on the inner wall of one side of the power cavity, which is far away from the device body, the output end of the motor is fixedly connected with a first rotating shaft, one end of the first rotating shaft, which is far away from the motor, is rotationally connected with the inner wall of the power cavity, a first gear is coaxially and fixedly sleeved on the first rotating shaft, the inner walls of the two sides of the bottom box corresponding to the power cavity are rotatably connected with a second rotating shaft, the second rotating shaft is coaxially and fixedly sleeved with a first travelling wheel, the first rotating shaft is in transmission connection with the second rotating shaft, and second running wheels are rotatably mounted on the inner walls of the two sides of the two bottom boxes positioned on the rear side; the upper side of the first gear is engaged with a second gear, two second gears are coaxially and fixedly connected with a square shaft, two ends of the square shaft penetrate through the installation cavity and are rotatably connected with the installation cavity, a plurality of cams are sleeved on the square shaft at equal intervals, square holes in sliding fit with the square shaft are formed in the cams, a sliding box is sleeved outside the cams, round holes are formed in two sides of the sliding box, the square shaft penetrates through the round holes, a plurality of guide rods are inserted in the sliding box in a sliding mode, the guide rods are fixedly connected to inner walls of two sides of the installation cavity, a pair of fixing rods are fixedly connected to inner walls of two sides of the sliding box relative to the cams, two fixing rods in a pair are symmetrically arranged relative to the axis of the square shaft, annular grooves in sliding connection with the pair of fixing rods are formed in the side faces of the cams, and a contact plate in rolling contact with the cams, the utility model discloses a high voltage direct current power supply, including contact plate, first montant, contact plate, the lower extreme fixedly connected with of first montant runs through the sliding box and is connected with the second montant through the extensible member, the lower extreme fixedly connected with of second montant strikes the board, is located the sliding box the movable sleeve is equipped with first spring on the first montant, and the both ends of first spring respectively with the inner wall fixed connection of contact plate, sliding box, the interior roof fixedly connected with baffle of installation cavity, and the lower extreme of baffle and the sliding box fixed connection who is located the middle part, the interior top of installation cavity is equipped with conductive spring, conductive spring runs through the baffle and fixed connection with it, and is a plurality of the sliding box respectively with conductive spring's sub-strand fixed connection, the common electricity in both ends of conductive spring is connected with high voltage direct current power supply.

In the floor tile laying and knocking device, the first rotating shaft and the second rotating shaft are respectively coaxially and fixedly sleeved with a first belt pulley and a second belt pulley at corresponding positions, the first belt pulley and the second belt pulley are jointly tensioned and sleeved with a synchronous belt, and a belt groove for the synchronous belt to pass through is formed in the inner bottom wall of the power cavity.

In the tile paving and striking device, the diameter of the first gear is larger than that of the second gear.

In the above tile laying and knocking device, the telescopic member includes an inner rod and a sleeve which slide inside and outside each other, a second spring is movably sleeved outside the inner rod and the sleeve, and two ends of the second spring are respectively fixedly connected to the first vertical rod and the second vertical rod.

In the floor tile laying and knocking device, the inner bottom wall of the mounting cavity is provided with the movable groove, the shape and size of the movable groove are larger than those of the knocking plate, and the movable groove is connected with the first vertical rod in a sliding mode.

In the above tile paving and striking device, the diagonal length of the square shaft cross section is smaller than the inner diameter of the circular hole.

Compared with the prior art, the knocking device for local brick laying has the advantages that:

1. the motor drives the first running wheel to rotate through belt transmission to realize automatic running, and the square shaft and the cam matched with the square shaft are driven to rotate through the first gear and the second gear which are meshed with each other, so that the floor tiles are intermittently knocked by the knocking plate, the labor capacity is reduced, and the knocking efficiency is improved;

2. the arrangement of the telescopic pieces enables the distance between the knocking plate and the first vertical rod to be freely changed according to the thickness of the floor tile, internal damage caused by rigid contact between the knocking plate and the floor tile is avoided, the floor tile is protected, and the applicability is stronger;

3. by utilizing the magnetic effect of the conductive spring, the high-voltage direct-current power supply can adjust the current intensity to enable the conductive spring to contract in different degrees, so as to drive a plurality of sliding boxes to move inwards, realize the knocking operation of the floor tiles with different densities and meet different requirements;

4. the device has high automation degree, does not need manual operation, greatly reduces the labor capacity and improves the knocking efficiency.

Drawings

FIG. 1 is a perspective view of a front view of a portion of a tile installation rapping device in accordance with the present invention;

FIG. 2 is an enlarged view of a portion of the side block of FIG. 1;

FIG. 3 is an enlarged view of a portion of the slide box of FIG. 1;

FIG. 4 is an enlarged schematic view of the structure at A in FIG. 3;

FIG. 5 is a schematic structural view of a square shaft and a circular hole of the brick laying knocking device provided by the invention;

FIG. 6 is a schematic side view of a tile installation striking device according to the present invention.

In the figure: the device comprises a device body 1, a side block 2, a mounting cavity 3, a power cavity 4, a motor 5, a first rotating shaft 6, a first belt wheel 7, a first gear 8, a bottom box 9, a second rotating shaft 10, a second belt wheel 11, a first traveling wheel 12, a synchronous belt 13, a square shaft 14, a second gear 15, a guide rod 16, a sliding box 17, a cam 18, a square hole 19, a fixing rod 20, a ring groove 21, a contact plate 22, a first vertical rod 23, a first spring 24, a second vertical rod 25, a second spring 26, a knocking plate 27, a movable groove 28, a round hole 29, a partition plate 30, a conductive spring 31, a high-voltage direct-current power supply 32 and a telescopic rod 33.

Detailed Description

The following examples are for illustrative purposes only and are not intended to limit the scope of the present invention.

Examples

Referring to fig. 1-6, a knocking device for laying bricks, comprising a device body 1, a pushing handle fixedly connected to one side upper end of the device body 1, a mounting cavity 3 formed in the device body 1, four side blocks 2 uniformly and integrally formed on both sides of the device body 1, a bottom box 9 integrally formed on the lower end of each side block 2, a power cavity 4 formed in two side blocks 2 located on the front side, a motor 5 fixedly installed on the inner wall of one side of the power cavity 4 far away from the device body 1, a first rotating shaft 6 fixedly connected to the output end of the motor 5, a first gear 8 coaxially fixed on the first rotating shaft 6, a second rotating shaft 10 rotatably connected to the inner wall of the bottom box 9 corresponding to the power cavity 4, a first traveling wheel 12 coaxially fixed on the second rotating shaft 10, the first rotating shaft 6 in transmission connection with the second rotating shaft 10, the inner walls of two sides of the two bottom boxes 9 positioned at the rear side are rotatably provided with second running wheels;

the upper side of the first gear 8 is engaged with a second gear 15, a square shaft 14 is coaxially and fixedly connected between the two second gears 15, two ends of the square shaft 14 penetrate through the installation cavity 3 and are rotatably connected with the installation cavity, a plurality of cams 18 are sleeved on the square shaft 14 at equal intervals, square holes 19 in sliding fit with the square shaft 14 are formed in the cams 18, sliding boxes 17 are sleeved outside the cams 18, round holes 29 are formed in two sides of each sliding box 17, the square shaft 14 penetrates through the round holes 29, guide rods 16 are inserted in the sliding boxes 17 in a sliding mode, the guide rods 16 are fixedly connected to inner walls of two sides of the installation cavity 3 and play a role in guiding, a pair of fixing rods 20 are fixedly connected to the inner walls of two sides of each sliding box 17 relative to the cams 18, the two fixing rods 20 in a pair are symmetrically arranged relative to the axis of the square shaft 14, annular grooves 21 in sliding connection with the pair of fixing rods 20 are formed in the side faces of the cams 18, contact plates 22, the lower end of the contact plate 22 is fixedly connected with a first vertical rod 23, the lower end of the first vertical rod 23 penetrates through the sliding box 17 and is connected with a second vertical rod 25 through a telescopic piece, the lower end of the second vertical rod 25 is fixedly connected with a knocking plate 27, the first vertical rod 23 positioned in the sliding box 17 is movably sleeved with a first spring 24, and both ends of the first spring 24 are respectively fixedly connected with the contact plate 22 and the inner wall of the sliding box 17, the inner top wall of the installation cavity 3 is fixedly connected with a partition plate 30, and the lower extreme of baffle 30 and the sliding box 17 fixed connection that is located the middle part, the interior top of installation cavity 3 is equipped with conductive spring 31, and conductive spring 31 runs through baffle 30 and fixed connection with it, and a plurality of sliding boxes 17 are respectively with conductive spring 31's single strand fixed connection, and the common electricity in both ends of conductive spring 31 is connected with high voltage direct current power supply 32, and high voltage direct current power supply 32 fixes the dress on the interior roof of installation cavity 3.

The first rotating shaft 6 and the second rotating shaft 10 are respectively coaxially and fixedly sleeved with a first belt pulley 7 and a second belt pulley 11 at corresponding positions, the first belt pulley 7 and the second belt pulley 11 are jointly tensioned and sleeved with a synchronous belt 13, a belt groove for the synchronous belt 13 to pass through is formed in the inner bottom wall of the power cavity 4, and the motor 5 transmits torque to the first traveling wheel 12 through belt transmission.

The diameter (module) of the first gear wheel 8 is larger than the diameter (module) of the second gear wheel 15. The motor 5 transmits torque to the square shaft 14 through the first gear 8 and the second gear 15 which are meshed with each other, so that the speed is increased and the torque is reduced.

The extensible member includes inside and outside gliding interior pole and sleeve, and interior pole and sleeve are outer movable sleeve joint have second spring 26, and the both ends of second spring 26 are respectively in first montant 23, second montant 25 fixed connection. The telescopic pieces are arranged, so that the knocking plate 27 cannot be knocked with the floor tiles hard, internal damage is avoided, and knocking operation of the floor tiles with different thicknesses can be realized.

The inner bottom wall of the mounting cavity 3 is provided with a movable groove 28, the shape and size of which are larger than those of the knocking plate 27, and the movable groove 28 is connected with the first vertical rod 23 in a sliding manner. The movable slot 28 defines the sliding range of the first vertical bar 23, i.e. the tapping density of the tapping plate 27.

The diagonal length of the cross section of the square shaft 14 is smaller than the inner diameter of the circular hole 29. The rotation of the square shaft 14 does not affect the slide case 17.

The working principle of the invention is as follows:

two motors 5 drive first pivot 6 to same direction, on the one hand, motor 5 passes through first band pulley 7, second band pulley 11, hold-in range 13 drives second pivot 10 and the first driving wheel 12 who is connected with it and rotates, and then remove this device, on the other hand motor 5 through intermeshing's first gear 8 and second gear 15 with torque speed-raising transmission for square shaft 14, square shaft 14 drives cam 18 circumference through the square hole 19 with it complex and rotates, cam 18 extrudes contact plate 22, loop through first montant 23, extensible member, second montant 25 drives rapping plate 27 and carries out soft striking to the ceramic tile that has pasted intermittently, extensible member can avoid rapping plate 27 rigid striking and lead to the internal damage that the stress caused, realize this device and move the action process of strikeing simultaneously, reduce operating personnel's the amount of labour, improve and strike efficiency.

The fixing rod 20 and the ring groove 21 are arranged to maintain the position of the cam 18 relative to the sliding boxes 17, the density of the sliding boxes 17 can be adjusted according to actual needs, the high-voltage direct-current power supply 32 energizes the conductive spring 31, the conductive spring 31 contracts due to the magnetic effect of current, the current intensity is proportional to the contraction degree, the sliding boxes 17 linearly slide along the guide rod 16, it should be noted that the number of the sliding boxes 17 is odd, the sliding boxes 17 on two sides of the partition plate 30 are linearly close to the middle point, and the applicability is stronger.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides a knocking device is laid to floor tile, includes the device body (1), its characterized in that, the fixedly connected with pushing hands in one side upper end of the device body (1), install chamber (3) have been seted up in the device body (1), the even integrated into one piece in both sides of the device body (1) has four side pieces (2), each the lower extreme of side piece (2) all integrated into one piece has end box (9), two that are located the front side seted up power chamber (4) in side piece (2), one side inner wall fixed mounting that power chamber (4) kept away from the device body (1) has motor (5), the output of motor (5) fixedly connected with first pivot (6), the one end that motor (5) were kept away from in first pivot (6) is connected with the inner wall rotation of power chamber (4), coaxial fixed cup joint has first gear (8) on first pivot (6), the inner walls of two sides of the bottom boxes (9) corresponding to the power cavity (4) are rotatably connected with second rotating shafts (10), the second rotating shafts (10) are coaxially and fixedly sleeved with first running wheels (12), the first rotating shafts (6) are in belt transmission connection with the second rotating shafts (10), and the inner walls of two sides of the two bottom boxes (9) positioned at the rear side are rotatably provided with second running wheels;

the upper side of the first gear (8) is engaged with a second gear (15), a square shaft (14) is coaxially and fixedly connected between the two second gears (15), two ends of the square shaft (14) penetrate through the installation cavity (3) and are rotatably connected with the installation cavity, a plurality of cams (18) are sleeved on the square shaft (14) at equal intervals, square holes (19) in sliding fit with the square shaft (14) are formed in the cams (18), sliding boxes (17) are sleeved outside the cams (18), round holes (29) are formed in two sides of each sliding box (17), the square shaft (14) penetrates through the round holes (29), a plurality of guide rods (16) are inserted into the sliding boxes (17) in a sliding mode, the guide rods (16) are fixedly connected to inner walls of two sides of the installation cavity (3), and a pair of fixing rods (20) are fixedly connected to inner walls of two sides of each sliding box (17) relative to the cams (18), two dead levers (20) in a pair are symmetrically arranged about the axis of a square shaft (14), the side face of a cam (18) is provided with an annular groove (21) which is connected with a pair of dead levers (20) in a sliding manner, a contact plate (22) which is in rolling contact with the cam (18) is arranged in a sliding box (17), the lower end of the contact plate (22) is fixedly connected with a first vertical rod (23), the lower end of the first vertical rod (23) penetrates through the sliding box (17) and is connected with a second vertical rod (25) through a telescopic piece, the lower end of the second vertical rod (25) is fixedly connected with a knocking plate (27), a first spring (24) is movably sleeved on the first vertical rod (23) in the sliding box (17), the two ends of the first spring (24) are respectively fixedly connected with the inner walls of the contact plate (22) and the sliding box (17), and a partition plate (30) is fixedly connected with the inner top wall, and the lower extreme of baffle (30) and sliding box (17) fixed connection who is located the middle part, the interior top of installation cavity (3) is equipped with conductive spring (31), conductive spring (31) run through baffle (30) and fixed connection with it, and is a plurality of sliding box (17) respectively with conductive spring (31) single strand fixed connection, the common electricity in both ends of conductive spring (31) is connected with high voltage direct current power supply (32), and high voltage direct current power supply (32) are fixed to be inlayed on the interior roof of installation cavity (3).

2. The knocking device for laying bricks according to claim 1, wherein the first rotating shaft (6) and the second rotating shaft (10) are respectively and coaxially fixedly sleeved with a first belt pulley (7) and a second belt pulley (11) at corresponding positions, the first belt pulley (7) and the second belt pulley (11) are jointly tensioned and sleeved with a synchronous belt (13), and the inner bottom wall of the power cavity (4) is provided with a belt groove for the synchronous belt (13) to pass through.

3. A tile laying rapping device in accordance with claim 1, wherein the diameter of the first gear wheel (8) is larger than the diameter of the second gear wheel (15).

4. A knocking device for laying bricks as claimed in claim 1, wherein said extension element comprises an inner rod and a sleeve sliding inside and outside each other, said inner rod and sleeve are movably sleeved with a second spring (26), and two ends of said second spring (26) are respectively fixed on a first vertical rod (23) and a second vertical rod (25).

5. A knocking device for laying bricks, as in claim 1, characterized in that said inner bottom wall of said installation cavity (3) is equipped with a movable groove (28) whose shape and size are bigger than those of said knocking plate (27), and said movable groove (28) is slidingly connected to said first vertical rod (23).

6. A tile laying rapping device in accordance with claim 1, wherein the diagonal length of the cross-section of the square shaft (14) is smaller than the inner diameter of the circular hole (29).