CN210709671U - Jacking type brick stacking machine - Google Patents

Abstract

The utility model discloses a jacking formula brick stacking machine, which comprises a frame, be equipped with conveyor, positioning mechanism, climbing mechanism and double-layered brick mechanism in the frame, conveyor's output is located to positioning mechanism, climbing mechanism and double-layered brick mechanism, conveyor is including the conveyor belt who is used for transmitting the ceramic tile, double-layered brick mechanism locates conveyor belt's top, climbing mechanism locates press from both sides brick mechanism's below, positioning mechanism locates one side that climbing mechanism is close to the conveyor output, wherein, press from both sides brick mechanism including locating the clamp arm of conveyor both sides, climbing mechanism is used for jacking the ceramic tile on the conveyor belt to the fixture position who presss from both sides the clamp arm, press from both sides the clamp arm and be close to relatively or keep away from with the centre gripping or loosen the ceramic tile on the climbing mechanism. The utility model discloses can avoid causing violent collision to the ceramic tile, it is efficient to fold the brick.

Description

Jacking type brick stacking machine

Technical Field

The utility model relates to a ceramic manufacture equipment technical field especially relates to a jacking formula brick stacking machine.

Background

The brick making system mainly comprises a brick making machine, a brick conveying machine, a brick stacking machine and the like, wherein the brick stacking machine is an indispensable part of the brick making system.

The existing brick stacking machine mainly has two brick conveying modes, one is a horizontal conveying mode, and the other is a vertical conveying mode. The brick stacking machine in the vertical conveying mode is small in size and small in occupied area, and meets the requirement of most people on miniaturization of the brick stacking machine, but the brick stacking machine in the vertical conveying mode has high requirement on the consistency of the sizes of the models of the ceramic tiles, and therefore the using range is narrow. The brick stacking machine in the horizontal conveying mode can adapt to tiles with wide size range, but the brick stacking machine in the traditional horizontal conveying mode is a lower-stacking type brick stacking machine, namely, the tiles are all transferred to the brick storage rack from the conveying belt in a reciprocating mode of the brick picking unit. After the ceramic tiles are placed, the tile picking unit needs to return to the tile taking station to pick the tiles again. In the brick picking process, the brick picking unit is required to independently complete the work of brick picking, transferring, placing and resetting, and only single ceramic tiles can be operated, so the efficiency of continuously picking bricks is low. In addition, in order to improve the speed of picking bricks, the speed of moving or swinging the brick picking unit is often very fast, and secondary damage caused by collision of the tiles is easily caused in the processes of great acceleration and deceleration. Meanwhile, the abrasion of related moving parts is accelerated, the number of the moving parts of the equipment is large, the use cost and the maintenance cost of the equipment are increased, and a large amount of production space is occupied.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a jacking formula brick stacking machine is provided, can avoid causing violent collision to the ceramic tile, it is efficient to fold the brick.

In order to solve the technical problem, the utility model provides a jacking type brick stacking machine, which comprises a frame, wherein the frame is provided with a conveying device, a positioning mechanism, a jacking mechanism and a brick clamping mechanism, the positioning mechanism, the jacking mechanism and the brick clamping mechanism are arranged at the output end of the conveying device,

the conveying device comprises a conveying belt for conveying ceramic tiles, the brick clamping mechanism is arranged above the conveying belt, the jacking mechanism is arranged below the brick clamping mechanism, the positioning mechanism is arranged on one side of the jacking mechanism, which is close to the output end of the conveying device,

the tile clamping mechanism comprises clamping arms arranged on two sides of the conveying device, the jacking mechanism is used for jacking tiles on the conveying belt to clamping stations of the clamping arms, and the clamping arms are relatively close to or far away from the clamping arms to clamp or loosen the tiles on the jacking mechanism.

As an improvement of the above scheme, a positioning mechanism is arranged on one side of the jacking mechanism close to the output end of the conveying device, the positioning mechanism comprises a baffle plate, a first rotating shaft and a first cylinder, the baffle plate is fixed to two end portions of the first rotating shaft, the piston end of the first cylinder is connected with the first rotating shaft through a rotating arm and drives the first rotating shaft to rotate, and the first rotating shaft is fixed to the rack through a bearing seat.

As an improvement of the scheme, the bottom of the clamping arm is provided with a base, the base is fixedly provided with a second cylinder and a second rotating shaft, the clamping arm is rotatably connected with the second rotating shaft, and the piston end of the second cylinder is hinged with the clamping arm to drive the clamping arm to rotate around the second rotating shaft.

As an improvement of the above scheme, the clamping arm comprises a clamping arm and a rotating arm, one end of the rotating arm is hinged with the second rotating shaft, the other end of the rotating arm is fixed with the clamping arm, and the piston end of the second cylinder is connected with the clamping arm;

as an improvement of the scheme, the bottom of the clamping arm is fixedly provided with a supporting plate, the clamping arm is oppositely provided with a first base plate, and the supporting plate extends towards one side of the first base plate and protrudes out of the surface of the first base plate.

As the improvement of above-mentioned scheme, the fixed screw-nut that is equipped with in bottom of base, wear to be equipped with the lead screw in the screw-nut, the bilateral symmetry of lead screw is equipped with the regulating spindle parallel with it, the regulating spindle passes through the bearing and is connected with the base, the regulating spindle and the end fixing of lead screw are equipped with the regulating plate, the lead screw passes the regulating plate just is connected with hand wheel.

As an improvement of the scheme, the jacking mechanism comprises a top plate and a fixed plate, a second cushion plate is arranged on the top plate, the top plate is connected with the fixed plate through a guide pillar, one end of the guide pillar is fixed with the top plate, the other end of the guide pillar is connected with the fixed plate in a sliding manner,

the fixed plate is fixed with the rack, the fixed plate is provided with a speed reduction driving device, output shafts at two ends of the speed reduction driving device are fixedly provided with cams, each cam is provided with a connecting rod assembly, one end of each connecting rod assembly is hinged with the corresponding cam, and the other end of each connecting rod assembly is fixedly connected with the corresponding guide pillar or the corresponding top plate.

As an improvement of the scheme, when the jacking mechanism jacks up the top plate to the highest position, the upper surface of the top plate is tangent to the upper surface of the supporting plate.

As an improvement of the above scheme, the conveying device is sequentially provided with a centering mechanism and a guide mechanism along the conveying direction, the centering mechanism comprises a third cylinder, a bracket and a first guide wheel, the first guide wheel is fixed with the bracket, and the piston end of the third cylinder is connected with the bracket;

the guide mechanism comprises a plurality of groups of second guide wheels which are symmetrically arranged.

As an improvement of the above scheme, the conveying device includes a first driving wheel, a second driving wheel and a driven wheel, the first driving wheel is arranged at the input end of the conveying device, the second driving wheel is arranged at the output end of the conveying device, a first belt is arranged on the driven wheel and the first driving wheel in a winding manner, a second belt is arranged on the driven wheel and the second driving wheel in a winding manner, and the guide mechanisms are symmetrically arranged at two sides of the driven wheel.

Implement the utility model discloses, following beneficial effect has:

the utility model discloses a jacking formula pile brick machine, conveyor belt through conveyor transmits the ceramic tile to positioning mechanism position, ceramic tile jacking on with conveyor belt through climbing mechanism to the centre gripping station of pressing from both sides tight arm, press from both sides tight arm near pressing from both sides tight ceramic tile, when a ceramic tile is carried to positioning mechanism now, climbing mechanism is with the supreme jacking position of its jacking, press from both sides brick mechanism drive clamp arm simultaneously and loosen, make the ceramic tile of back jacking make progress the thickness distance of jacking a ceramic tile with preceding ceramic tile, it presss from both sides tight arm with two ceramic tiles to press from both sides the further drive of brick mechanism and press from both sides tightly, and according to this, climbing mechanism and the cooperation action of pressing from both sides brick mechanism accomplish and fold brick work, it can avoid causing violent collision to the ceramic tile, it is gentle to fold the brick action, be particularly useful for large.

Drawings

Fig. 1 is a schematic view of the working state of a jacking type brick stacking machine of the present invention;

fig. 2 is a schematic structural view of the top-lift brick stacker of fig. 1;

FIG. 3 is a schematic structural view of the centering mechanism of FIG. 2;

FIG. 4 is a schematic structural view of the positioning mechanism of FIG. 2;

FIG. 5 is a schematic structural view of the brick clamping mechanism of FIG. 2;

fig. 6 is a schematic structural view of the jacking mechanism of fig. 2.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 and 2, the present invention provides an embodiment of a top-lift brick stacking machine, which includes a frame 1, the frame 1 is provided with a conveying device 2, a positioning mechanism 3, a jacking mechanism 4 and a brick clamping mechanism 5, the positioning mechanism 3, the jacking mechanism 4 and the brick clamping mechanism 5 are arranged at the output end B of the conveying device 2, the conveying device 2 comprises a conveying belt 21 for conveying the ceramic tiles A, the tile clamping mechanism 5 is arranged above the conveying belt 21, the jacking mechanism 4 is arranged below the brick clamping mechanism 5, the positioning mechanism 3 is arranged on one side of the jacking mechanism 4 close to the output end B of the conveying device 2, wherein the brick clamping mechanism 5 comprises clamping arms 51 arranged at two sides of the conveying device 2, the jacking mechanism 4 is used for jacking the ceramic bricks A on the conveying belt 21 to a clamping station of the clamping arms 51, the gripping arms 51 are relatively close to or far from each other to grip or release the tile a on the jacking mechanism 4.

This embodiment transmits ceramic tile A to 3 places of positioning mechanism through conveyor 2's conveyor belt 21, ceramic tile A jacking to the centre gripping station of clamp arm 51 on conveyor belt 21 through climbing mechanism 4, clamp arm 51 is close to and presss from both sides tight ceramic tile A, when next ceramic tile A carries to positioning mechanism 3, climbing mechanism 4 is with its jacking to last jacking position, 5 drive clamp arms 51 of clamp mechanism loosen simultaneously, make the ceramic tile A of back jacking upwards jack up a ceramic tile A's thickness distance with preceding ceramic tile A, clamp mechanism 5 further drives clamp arm 51 and presss from both sides tight ceramic tile A tightly, and accordingly, climbing mechanism 4 and 5 concerted action of clamp mechanism accomplish the brick work, it can avoid causing violent collision to ceramic tile A, the brick action of folding is soft, is particularly useful for large-specification ceramic tile A, high work efficiency.

Specifically, with reference to fig. 2 and 3, the conveying device 2 includes a first driving wheel 22, a second driving wheel 23, and a driven wheel 24, the first driving wheel 22 is disposed at an input end C of the conveying device 2, the second driving wheel 23 is disposed at an output end B of the conveying device 2, a first belt 211 is disposed around the driven wheel 24 and the first driving wheel 22, a second belt 212 is disposed around the driven wheel 24 and the second driving wheel 23, and the guiding mechanisms are symmetrically disposed at two sides of the driven wheel 24. The conveying device 2 is sequentially provided with a centering mechanism 25 and a guide mechanism 26 along the conveying direction, the centering mechanism 25 comprises a third air cylinder 251, a support 252 and a first guide wheel 253, the first guide wheel 253 is fixed with the support 252, and the piston end of the third air cylinder 251 is connected with the support 252; the guiding mechanism 26 comprises a plurality of groups of second guiding wheels which are symmetrically arranged. The ceramic tile A is input through the conveying end of the first belt 211, and the first guide wheels 253 at the two sides of the first belt 211 are driven to approach to the middle through the third air cylinder 251, so that the ceramic tile A on the first belt 211 is centered; when entering the second belt 212, the ceramic tiles A are guided by the second guide wheels at the two sides to be contacted with the positioning mechanism 3 without bias, so that the subsequent tile stacking operation is convenient.

Referring to fig. 4, the positioning mechanism 3 of the present embodiment includes a baffle 31, a first rotating shaft 32 and a first cylinder 33, the baffle 31 is fixed to two end portions of the first rotating shaft 32, a piston end of the first cylinder 33 is connected to the first rotating shaft 32 through a rotating arm and drives the first rotating shaft 32 to rotate, and the first rotating shaft 32 is fixed to the frame 1 through a bearing seat 34 and a base 35. This positioning mechanism 3 is equipped with inductive switch, and inductive switch is connected with climbing mechanism 4 and double-layered brick mechanism 5, and when inductive switch sensed ceramic tile A, drive climbing mechanism 4 and double-layered brick mechanism 5 began to move. The edge of the tile a on the second belt 212 contacts the shutter 31 and is not conveyed further forward with the second belt 212, waiting for the raising mechanism 4 to raise it at the position of the shutter 31.

Referring to fig. 5, a base 52 is disposed at the bottom of the clamping arm 51, a second cylinder 53 and a second rotating shaft 54 are fixedly disposed on the base 52, the clamping arm 51 is rotatably connected to the second rotating shaft 54, and a piston end of the second cylinder 53 is hinged to the clamping arm 51 to drive the clamping arm 51 to rotate around the second rotating shaft 54. The clamping arm 51 comprises a clamping arm 511 and a rotating arm 512, one end of the rotating arm 512 is hinged to the second rotating shaft 54, the other end of the rotating arm is fixed to the clamping arm 511, and the piston end of the second cylinder 53 is connected with the clamping arm 511. When the second cylinder 53 drives the rotating arm 512 to rotate to be close to each other and the clamping arm 511 is a vertical facade, the jacked tile A can be clamped, and when the second cylinder 53 reversely drives the rotating arm 512 to rotate to be away from each other, the clamping arm 511 loosens the clamped tile A.

The bottom of the clamping arm 511 is fixedly provided with a supporting plate 513, the clamping arm 511 is relatively provided with a first base plate 514, and the supporting plate 513 extends towards one side of the first base plate 514 and protrudes out of the surface of the first base plate 514. The first pad 514 is made of rubber material, is relatively soft, and provides enough friction to clamp the middle tile a, and the support plate 513 provides a certain support for the bottom tile a. To accommodate tiles a of different sizes, the distance between the seats 52 at the bottom of the gripping arms 51 can be adjusted: the fixed lead screw nut (not shown in the figure) that is equipped with in bottom of base 52, wear to be equipped with the lead screw 55 in the lead screw nut, the bilateral symmetry of lead screw 55 is equipped with the regulating spindle 56 parallel with it, regulating spindle 56 passes through bearing 57 and is connected with base 52, regulating spindle 56 and the end fixing of lead screw 55 are equipped with regulating plate 58, lead screw 55 passes regulating plate 58 just is connected with hand wheel 59. The hand wheel 59 drives the screw rod 55 to drive the screw rod nut and the base 52 to horizontally move along the length direction of the screw rod 55, and the adjusting shafts 56 and the bearings 57 on the two sides of the screw rod 55 ensure that enough support is provided for the base 52.

Referring to fig. 6, the jacking mechanism 4 includes a top plate 41 and a fixed plate 42, a second pad 411 is disposed on the top plate 41, the top plate 41 is connected to the fixed plate 42 through a guide pillar 43, one end of the guide pillar 43 is fixed to the top plate 41, the other end of the guide pillar 43 is slidably connected to the fixed plate 42, the fixed plate 42 is fixed to the frame 1, a deceleration driving device 44 is disposed on the fixed plate 42, a cam 45 is fixedly disposed on an output shaft at two ends of the deceleration driving device 44, a connecting rod assembly 46 is disposed on the cam 45, one end of the connecting rod assembly 46 is hinged to the cam 45, and the other end of the connecting rod assembly 46. This embodiment is preferred when the jacking mechanism 4 jacks up the top plate 41 to the highest position, the upper surface of the top plate 41 is tangent to the upper surface of the supporting plate 513, that is, when the first pad 514 on the holding arm 511 clamps the tile a on the top plate 41, in the clamped tile a, the bottom tile a is always in contact with the supporting plate 513, so as to ensure that the supporting plate 513 can provide a certain support for the bottom tile a.

The working process of the utility model is as follows:

the ceramic tile A enters the input end C of the conveying device 2 and is conveyed by the first conveying belt 21, after being centered by the first guide wheel 253 of the centering mechanism 25, the ceramic tile A is conveyed to the position of the baffle 31 of the positioning mechanism 3 by the guide of the second guide wheels on two sides of the second conveying belt 21, after being sensed by the sensing switch, the speed reduction driving device 44 of the jacking mechanism 4 drives the cams 45 and the connecting rod assemblies 46 at two ends to drive the guide post 43 and the top plate 41 to lift, when the top plate 41 lifts up, the ceramic tile A on the second conveying belt 21 is jacked up, the second air cylinder 53 of the tile clamping mechanism 5 drives the rotating arm 512 of the clamping arm 51 to rotate, the rotating arm 512 drives the clamping arm 511 to clamp the edge part of the ceramic tile A, the top plate 41 descends, after the sensing switch senses the ceramic tile A, the top plate 41 lifts up again, the ceramic tile A on the second conveying belt 21 is jacked up again, the sensing switch controls the second, the rotating arm 512 drives the clamping arm 511 to release the clamped ceramic tile A, so that the clamped ceramic tile A is superposed with the ceramic tile A lifted on the top plate 41, the second air cylinder 53 drives the rotating arm 512 of the clamping arm 51 to rotate in the positive direction, and the rotating arm 512 drives the clamping arm 511 to clamp the edges of the superposed two ceramic tiles A.

The jacking mechanism 4 drives the ceramic tile A clamped by the clamping arm 511 to lift the height of one ceramic tile A by the speed reduction driving device 44 through the cam 45 and the connecting rod assembly 46 in each ceramic tile A jacking period, when the ceramic tile A clamped by the clamping arm 511 reaches a certain number, the first air cylinder 33 of the positioning mechanism 3 drives the baffle plate 31 to rotate to the lower part of the second conveying belt 21, the ceramic tile A enters the next procedure through the second conveying belt 21, and the jacking mechanism 4 and the brick clamping mechanism 5 continue to work in cooperation to complete automatic continuous brick stacking of the ceramic tile A.

To sum up, implement the utility model discloses following beneficial effect has:

the utility model discloses a jacking formula brick stacking machine transmits ceramic tile A to the 3 positions of positioning mechanism through conveyor 2's conveyor belt 21 to accomplish in coordination through climbing mechanism 4 and double-layered brick mechanism 5 and fold the brick process, it has following advantage:

1. the method can avoid severe collision on the ceramic tile A, the action of stacking the ceramic tiles is soft, and the method is particularly suitable for large-size ceramic tiles A;

2. different from the brick stacking action completed by the reciprocating motion of the brick picking unit, the jacking mechanism 4 and the brick clamping mechanism 5 of the utility model work together to complete the brick stacking process, and the work efficiency is high;

3. the first belt 211 and the second belt 212 are connected and conveyed, no drop height exists, and the centering effect of the ceramic tile A is good;

4. the jacking mechanism 4 adopts the cam 45 and the connecting rod assembly 46 for transmission, and the jacking height has good consistency.

The above disclosure is only a preferred embodiment of the present invention, and certainly should not be taken as limiting the scope of the invention, which is defined by the claims and their equivalents.

Claims (10)

1. A jacking type brick stacking machine comprises a frame, and is characterized in that the frame is provided with a conveying device, a positioning mechanism, a jacking mechanism and a brick clamping mechanism, the positioning mechanism, the jacking mechanism and the brick clamping mechanism are arranged at the output end of the conveying device,

the conveying device comprises a conveying belt for conveying ceramic tiles, the brick clamping mechanism is arranged above the conveying belt, the jacking mechanism is arranged below the brick clamping mechanism, the positioning mechanism is arranged on one side of the jacking mechanism, which is close to the output end of the conveying device,

the tile clamping mechanism comprises clamping arms arranged on two sides of the conveying device, the jacking mechanism is used for jacking tiles on the conveying belt to clamping stations of the clamping arms, and the clamping arms are relatively close to or far away from the clamping arms to clamp or loosen the tiles on the jacking mechanism.

2. A jacking brick stacking machine according to claim 1, wherein the positioning mechanism comprises a baffle plate, a first rotating shaft and a first air cylinder, the baffle plate is fixed at two ends of the first rotating shaft, a piston end of the first air cylinder is connected with the first rotating shaft through a rotating arm and drives the first rotating shaft to rotate, and the first rotating shaft is fixed with the frame through a bearing seat.

3. A jacking brick stacking machine as claimed in claim 1, wherein a base is provided at the bottom of the clamping arm, a second cylinder and a second rotating shaft are fixedly provided on the base, the clamping arm is rotatably connected with the second rotating shaft, and a piston end of the second cylinder is hinged to the clamping arm to drive the clamping arm to rotate around the second rotating shaft.

4. A jacking brick stacking machine as claimed in claim 3, wherein the clamping arm comprises a clamping arm and a rotating arm, one end of the rotating arm is hinged to the second rotating shaft, the other end of the rotating arm is fixed to the clamping arm, and the piston end of the second cylinder is connected to the clamping arm.

5. A jacking brick stacking machine as claimed in claim 4, wherein a support plate is fixed to the bottom of the clamping arm, the clamping arm is provided with a first backing plate opposite to the first backing plate, and the support plate extends to one side of the first backing plate and protrudes from the surface of the first backing plate.

6. The jacking brick stacking machine according to claim 3, wherein a screw nut is fixedly arranged at the bottom of the base, a screw rod is arranged in the screw nut in a penetrating manner, adjusting shafts parallel to the screw rod are symmetrically arranged on two sides of the screw rod and are connected with the base through bearings, adjusting plates are fixedly arranged at the end parts of the adjusting shafts and the screw rod, and the screw rod penetrates through the adjusting plates and is connected with a hand wheel.

7. The jacking brick stacking machine of claim 5, wherein the jacking mechanism comprises a top plate and a fixed plate, the top plate is provided with a second cushion plate, the top plate and the fixed plate are connected through a guide pillar, one end of the guide pillar is fixed with the top plate, the other end of the guide pillar is slidably connected with the fixed plate,

the fixed plate is fixed with the rack, the fixed plate is provided with a speed reduction driving device, output shafts at two ends of the speed reduction driving device are fixedly provided with cams, each cam is provided with a connecting rod assembly, one end of each connecting rod assembly is hinged with the corresponding cam, and the other end of each connecting rod assembly is fixedly connected with the corresponding guide pillar or the corresponding top plate.

8. A top-lift brick stacking machine as claimed in claim 7 wherein the top surface of the top plate is tangent to the top surface of the support plate when the jacking mechanism jacks up the top plate to the uppermost position.

9. A jacking brick stacking machine according to claim 1, wherein the conveying device is provided with a centering mechanism and a guide mechanism in sequence along the conveying direction, the centering mechanism comprises a third cylinder, a bracket and a first guide wheel, the first guide wheel is fixed with the bracket, and the piston end of the third cylinder is connected with the bracket;

the guide mechanism comprises a plurality of groups of second guide wheels which are symmetrically arranged.

10. A jacking brick stacking machine as claimed in claim 9, wherein the conveying device comprises a first driving wheel, a second driving wheel and a driven wheel, the first driving wheel is arranged at the input end of the conveying device, the second driving wheel is arranged at the output end of the conveying device, a first belt is wound on the driven wheel and the first driving wheel, a second belt is wound on the driven wheel and the second driving wheel, and the guiding mechanisms are symmetrically arranged at two sides of the driven wheel.

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