CN111661662B - Continuous stacking device for hollow brick production - Google Patents

Abstract

One or more embodiments of the present disclosure provide a continuous palletizing device for producing hollow bricks, comprising: the inboard of back side door type frame is provided with vertical spout, the centre of vertical spout is provided with one-way rack, the rear side of back side door type frame is provided with the side shield, the below of back side door type frame is provided with the bearing chassis, the left and right sides symmetry of bearing chassis is provided with the translation gyro wheel. According to the invention, the chain type feeding conveyor belt is used for conveying the hollow bricks, a plurality of hollow bricks are blocked in the feeding chute by the trapezoid baffles and can be connected end to form a row of hollow bricks, the row of hollow bricks are pushed to horizontally move to the horizontal supporting plate on one side of the row of hollow bricks through the frame-shaped horizontal material pushing plate, a layer of hollow bricks can be formed by pushing a plurality of rows of hollow bricks, the layer of hollow bricks can be moved to convey corresponding positions by the horizontal supporting plate and are unloaded and stacked through the relative motion of the horizontal supporting plate and the material retaining baffles, a plurality of layers of hollow bricks can be stacked from bottom to top to form a complete brick pile, and the stacking is more standard.

Description

Continuous stacking device for hollow brick production

Technical Field

One or more embodiments of this description relate to air brick production technical field, especially relate to a continuous pile up neatly device is used in air brick production.

Background

The hollow brick is usually used for non-bearing parts, the void ratio is equal to or more than 35%, the hollow brick is divided into a cement hollow brick, a clay hollow brick, a shale hollow brick and the like, the hollow brick is a main wall body material commonly used in the building industry, the hollow brick has the advantages of light weight, less consumption of raw materials and the like, the hollow brick is a product recommended by the national building department at first, the hollow brick is similar to a red brick, common manufacturing raw materials of the hollow brick are clay and cinder ash and have common specifications, the hollow brick needs to be subjected to principle processing, mold forming, sintering and other steps during production, and the hollow brick generally needs to be stacked together after sintering and forming to facilitate subsequent transportation.

The applicant finds that the existing brick stacker crane is generally in a lifting clamping type structure, the stacker crane is simple in structure and flexible in working, but still needs manual work to move and stabilize, the labor consumption of people is large in working, the stacker crane is not suitable for large-batch brick stacking work in production, more loading and unloading works for building sites, the clamping type fixing structure is also very unstable, the structure of a hollow brick is fragile, clamping force in the lateral direction of the clamping type easily damages bricks, the bricks are easy to drop, and the safety and the efficiency in working are low.

Disclosure of Invention

In view of this, an object of one or more embodiments of the present disclosure is to provide a continuous stacking apparatus for producing hollow bricks, so as to solve the problems that a brick stacker crane with a hoisting clamping structure is not suitable for large-batch brick stacking work during production, and the safety and efficiency during work are low.

In view of the above, one or more embodiments of the present disclosure provide a continuous palletizing apparatus for producing hollow bricks, comprising:

the inner side of the rear side door frame is provided with a vertical sliding groove, a one-way rack is arranged in the middle of the vertical sliding groove, a side baffle is arranged at the rear side of the rear side door frame, a bearing underframe is arranged below the rear side door frame, translation rollers are symmetrically arranged on the left side and the right side of the bearing underframe, and a horizontal rail is arranged below the translation rollers;

the front side door frame is arranged on the front side of the rear side door frame, a tabling connecting groove is arranged on the inner side of the front side door frame, a transverse sliding rod is arranged at the top end of the front side door frame, a transverse screw rod is arranged at the bottom end of the front side door frame, and a transverse motor is arranged at the shaft end of the transverse screw rod;

the jogged connecting frame is arranged in the middle of the jogged connecting groove, horizontal sliding blocks are symmetrically arranged on the front side and the rear side of the jogged connecting frame, a horizontal sliding groove is formed below the horizontal sliding blocks, a frame-shaped horizontal pushing plate is arranged below the horizontal sliding groove, a horizontal rack is arranged in the middle of the frame-shaped horizontal pushing plate, a driving gear is arranged above the horizontal rack, and a driving motor is arranged at the shaft end of the driving gear;

the material collecting plate is arranged below the frame-shaped horizontal pushing plate, a feeding groove is formed in the middle of the material collecting plate, a trapezoidal baffle is arranged at the front end of the feeding groove, supporting plate rotating shafts are symmetrically arranged on the left side and the right side of the feeding groove, an extending supporting plate is connected to the outer side of each supporting plate rotating shaft, a abdicating groove is formed in the outer side of each extending supporting plate, and a reset spring rope is connected to the side face of the front end of each extending supporting plate;

the chain type feeding conveyor belt is arranged in the middle of the feeding groove, and a connecting roller sleeve is arranged in the middle of the feeding groove;

the horizontal supporting plate is arranged in the middle of the front side door frame, an L-shaped lateral baffle is arranged on the outer side of the front side door frame, horizontal roll shafts are uniformly and parallelly arranged on the upper surface of the horizontal supporting plate, an inclined jacking block is arranged at the outer end of the horizontal supporting plate, a horizontal support is arranged on the rear side of the horizontal supporting plate, and vertical screw sleeves are symmetrically arranged on the left side and the right side of the horizontal support;

the X-shaped connecting frame is arranged at the rear side of the horizontal support, vertical screw rods are symmetrically arranged on the left side and the right side of the horizontal support, the shaft end of each vertical screw rod is connected with a vertical motor, a transverse screw sleeve is arranged at the lower end of the X-shaped connecting frame, and a transverse sliding sleeve is arranged at the upper end of the X-shaped connecting frame;

the material retaining baffle is arranged in the middle of the rear side door frame, a one-way rotating shaft is arranged below the material retaining baffle, a movable baffle is connected below the one-way rotating shaft, vertical sliding blocks are symmetrically arranged on the left side and the right side of the material retaining baffle, an embedding groove is formed in the middle of each vertical sliding block, a horizontal locking tooth is slidably arranged in the middle of each embedding groove, and a locking spring is arranged on the rear side of each horizontal locking tooth.

In some alternative embodiments, the translation roller is cooperatively dimensioned with the horizontal rail, and the horizontal centerline of the horizontal rail is parallel to the horizontal centerline of the chain-type feeding conveyor.

In some optional embodiments, the size of the jogged connecting frame and the jogged connecting groove are mutually matched, and the frame-shaped horizontal material pushing plate is slidably connected with the horizontal sliding block through the horizontal sliding chute.

In some alternative embodiments, the horizontal rack and the driving gear are engaged with each other to form a transmission structure, and the driving gears are symmetrically arranged about the vertical central line of the horizontal rack.

In some optional embodiments, the extension supporting plate is rotatably connected with the collecting plate through the supporting plate rotating shaft, and when the extension supporting plate rotates outwards to the limit through the supporting plate rotating shaft, the upper surface of the extension supporting plate and the upper surface of the chain type feeding conveyor belt are positioned on the same horizontal plane.

In some optional embodiments, the horizontal center line of the feeding chute and the horizontal center line of the chain type feeding conveyor belt are parallel to each other, and the feeding chute and the chain type feeding conveyor belt are matched in size.

In some optional embodiments, the upper surface of the horizontal pallet is parallel to the upper surface of the chain type feeding conveyor belt, the upper surface of the horizontal pallet is parallel to the top surface of the L-shaped lateral baffle, and two side surfaces of the L-shaped lateral baffle are perpendicular to each other.

In some optional embodiments, the material retaining baffle is connected with the vertical chute in a sliding manner through the vertical sliding block, and a horizontal center line of the material retaining baffle is perpendicular to a vertical center line of the vertical chute.

In some optional embodiments, the movable baffle is rotatably connected with the material retaining baffle through the one-way rotating shaft, and the bottom surface of the movable baffle is parallel to the top surface of the L-shaped lateral baffle.

In some optional embodiments, the inclined top block and the vertical sliding block are mutually matched in size, and the horizontal locking teeth and the one-way rack are mutually matched in size.

From the above, it can be seen that the continuous stacking device for producing hollow bricks provided in one or more embodiments of the present disclosure conveys hollow bricks through a chain type feeding conveyor belt, a plurality of hollow bricks are blocked by a trapezoidal baffle plate in a feeding chute and can be connected end to form a row of hollow bricks, the row of hollow bricks are pushed by a frame-shaped horizontal material pushing plate to horizontally move to a horizontal supporting plate on one side of the row of hollow bricks, a layer of hollow bricks can be formed by pushing a plurality of rows of hollow bricks, the layer of hollow bricks can be moved by the horizontal supporting plate to convey corresponding positions, and the hollow bricks are stacked by being dismounted through relative movement of the horizontal supporting plate and a material retaining baffle plate, and the plurality of layers of hollow bricks can be stacked from bottom to top into a complete brick pile, so that stacking from a point to a line to a surface is completed, and finally, stacking work of an integral body is more standard and more efficient.

Drawings

In order to more clearly illustrate one or more embodiments or prior art solutions of the present specification, the drawings that are needed in the description of the embodiments or prior art will be briefly described below, and it is obvious that the drawings in the following description are only one or more embodiments of the present specification, and that other drawings may be obtained by those skilled in the art without inventive effort from these drawings.

FIG. 1 is a schematic block diagram of one or more embodiments of the present disclosure;

FIG. 2 is a schematic side view of one or more embodiments of the present disclosure;

FIG. 3 is a schematic structural view of a rear side door frame according to one or more embodiments of the present disclosure;

FIG. 4 is a schematic view of a front side door frame according to one or more embodiments of the present disclosure;

FIG. 5 is a partially exploded schematic view of one or more embodiments of the present disclosure;

FIG. 6 is a schematic diagram of a construction of a chimeric linker according to one or more embodiments of the present disclosure;

FIG. 7 is a schematic structural view of a material collecting plate according to one or more embodiments of the present disclosure;

FIG. 8 is a schematic diagram of a horizontal pallet according to one or more embodiments of the present disclosure;

FIG. 9 is a schematic illustration of a vertical chute according to one or more embodiments of the present disclosure;

FIG. 10 is a schematic structural view of a flapper according to one or more embodiments of the present disclosure;

FIG. 11 is a schematic diagram of a loading state for one or more embodiments of the present disclosure;

fig. 12 is a schematic structural diagram of a combined operating state according to one or more embodiments of the present disclosure.

Detailed Description

To make the objects, technical solutions and advantages of the present disclosure more apparent, the present disclosure is further described in detail below with reference to specific embodiments.

It is to be noted that unless otherwise defined, technical or scientific terms used in one or more embodiments of the present specification should have the ordinary meaning as understood by those of ordinary skill in the art to which this disclosure belongs. The use of "first," "second," and similar terms in one or more embodiments of the specification is not intended to indicate any order, quantity, or importance, but rather is used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

In one or more embodiments of the present disclosure, a continuous palletizing device for producing hollow bricks comprises:

the inner side of a rear side door type frame 1 is provided with a vertical sliding groove 101, a one-way rack 102 is arranged in the middle of the vertical sliding groove 101, a side baffle 103 is arranged at the rear side of the rear side door type frame 1, a supporting bottom frame 104 is arranged below the rear side door type frame 1, translation rollers 105 are symmetrically arranged at the left side and the right side of the supporting bottom frame 104, and a horizontal rail 106 is arranged below the translation rollers 105;

the front side door frame 2 is arranged on the front side of the rear side door frame 1, the inner side of the front side door frame is provided with a jogged connecting groove 201, the top end of the front side door frame is provided with a transverse sliding rod 202, the bottom end of the front side door frame is provided with a transverse screw 203, and the shaft end of the transverse screw 203 is provided with a transverse motor 204;

the jogged connecting frame 3 is arranged in the middle of the jogged connecting groove 201, horizontal sliding blocks 301 are symmetrically arranged on the front side and the rear side of the jogged connecting frame 3, a horizontal sliding groove 302 is arranged below the horizontal sliding block 301, a frame-shaped horizontal pushing plate 303 is arranged below the horizontal sliding groove 302, a horizontal rack 304 is arranged in the middle of the frame-shaped horizontal pushing plate 303, a driving gear 305 is arranged above the horizontal rack 304, and a driving motor 306 is arranged at the shaft end of the driving gear 305;

the material collecting plate 4 is arranged below the frame-shaped horizontal pushing plate 303, a feeding groove 401 is arranged in the middle of the material collecting plate, a trapezoidal baffle 402 is arranged at the front end of the feeding groove 401, supporting plate rotating shafts 403 are symmetrically arranged on the left side and the right side of the feeding groove 401, an extending supporting plate 404 is connected to the outer side of each supporting plate rotating shaft 403, a stepping groove 405 is arranged on the outer side of each extending supporting plate 404, and a reset spring rope 406 is connected to the side face of the front end of each extending supporting plate 404;

the chain type feeding conveyor belt 5 is arranged in the middle of the feeding groove 401, and a connecting roller sleeve 501 is arranged in the middle;

the horizontal supporting plate 6 is arranged in the middle of the front side door frame 2, an L-shaped lateral baffle 601 is arranged on the outer side of the front side door frame 2, horizontal roll shafts 602 are uniformly and parallelly arranged on the upper surface of the horizontal supporting plate, an inclined top block 603 is arranged at the outer end of the horizontal supporting plate 6, a horizontal support 604 is arranged on the rear side of the horizontal supporting plate 6, and vertical screw sleeves 605 are symmetrically arranged on the left side and the right side of the horizontal support 604;

the X-shaped connecting frame 7 is arranged on the rear side of the horizontal support 604, vertical screws 701 are symmetrically arranged on the left side and the right side of the horizontal support, the shaft end of each vertical screw 701 is connected with a vertical motor 702, a transverse threaded sleeve 703 is arranged at the lower end of the X-shaped connecting frame 7, and a transverse sliding sleeve 704 is arranged at the upper end of the X-shaped connecting frame 7;

the material retaining baffle 8 is arranged in the middle of the rear side door frame 1, a one-way rotating shaft 801 is arranged below the material retaining baffle 8, a movable baffle 802 is connected below the one-way rotating shaft 801, vertical sliding blocks 803 are symmetrically arranged on the left side and the right side of the material retaining baffle 8, an embedding groove 804 is arranged in the middle of each vertical sliding block 803, a horizontal locking tooth 805 is arranged in the middle of each embedding groove 804 in an embedding and sliding mode, and a locking spring 806 is arranged on the rear side of each horizontal locking tooth 805.

Referring to fig. 1 to 12, as an embodiment of the present invention, a continuous stacking apparatus for producing hollow bricks includes: the inner side of a rear side door type frame 1 is provided with a vertical sliding groove 101, a one-way rack 102 is arranged in the middle of the vertical sliding groove 101, a side baffle 103 is arranged at the rear side of the rear side door type frame 1, a supporting bottom frame 104 is arranged below the rear side door type frame 1, translation rollers 105 are symmetrically arranged at the left side and the right side of the supporting bottom frame 104, and a horizontal rail 106 is arranged below the translation rollers 105; the front side door frame 2 is arranged on the front side of the rear side door frame 1, the inner side of the front side door frame is provided with a jogged connecting groove 201, the top end of the front side door frame is provided with a transverse sliding rod 202, the bottom end of the front side door frame is provided with a transverse screw 203, and the shaft end of the transverse screw 203 is provided with a transverse motor 204; the jogged connecting frame 3 is arranged in the middle of the jogged connecting groove 201, horizontal sliding blocks 301 are symmetrically arranged on the front side and the rear side of the jogged connecting frame 3, a horizontal sliding groove 302 is arranged below the horizontal sliding block 301, a frame-shaped horizontal pushing plate 303 is arranged below the horizontal sliding groove 302, a horizontal rack 304 is arranged in the middle of the frame-shaped horizontal pushing plate 303, a driving gear 305 is arranged above the horizontal rack 304, and a driving motor 306 is arranged at the shaft end of the driving gear 305; the material collecting plate 4 is arranged below the frame-shaped horizontal pushing plate 303, a feeding groove 401 is arranged in the middle of the material collecting plate, a trapezoidal baffle 402 is arranged at the front end of the feeding groove 401, supporting plate rotating shafts 403 are symmetrically arranged on the left side and the right side of the feeding groove 401, an extending supporting plate 404 is connected to the outer side of each supporting plate rotating shaft 403, a stepping groove 405 is arranged on the outer side of each extending supporting plate 404, and a reset spring rope 406 is connected to the side face of the front end of each extending supporting plate 404; the chain type feeding conveyor belt 5 is arranged in the middle of the feeding groove 401, and a connecting roller sleeve 501 is arranged in the middle; the horizontal supporting plate 6 is arranged in the middle of the front side door frame 2, an L-shaped lateral baffle 601 is arranged on the outer side of the front side door frame 2, horizontal roll shafts 602 are uniformly and parallelly arranged on the upper surface of the horizontal supporting plate, an inclined top block 603 is arranged at the outer end of the horizontal supporting plate 6, a horizontal support 604 is arranged on the rear side of the horizontal supporting plate 6, and vertical screw sleeves 605 are symmetrically arranged on the left side and the right side of the horizontal support 604; the X-shaped connecting frame 7 is arranged on the rear side of the horizontal support 604, vertical screws 701 are symmetrically arranged on the left side and the right side of the horizontal support, the shaft end of each vertical screw 701 is connected with a vertical motor 702, a transverse threaded sleeve 703 is arranged at the lower end of the X-shaped connecting frame 7, and a transverse sliding sleeve 704 is arranged at the upper end of the X-shaped connecting frame 7; the material retaining baffle 8 is arranged in the middle of the rear side door frame 1, a one-way rotating shaft 801 is arranged below the material retaining baffle 8, a movable baffle 802 is connected below the one-way rotating shaft 801, vertical sliding blocks 803 are symmetrically arranged on the left side and the right side of the material retaining baffle 8, an embedding groove 804 is arranged in the middle of each vertical sliding block 803, a horizontal locking tooth 805 is arranged in the middle of each embedding groove 804 in an embedding and sliding mode, and a locking spring 806 is arranged on the rear side of each horizontal locking tooth 805.

Referring to fig. 2 to 7, optionally, the apparatus conveys the hollow bricks through the chain type feeding conveyor belt 5, the width of the chain type feeding conveyor belt 5 is matched with the width of the hollow bricks, and a connecting roller sleeve 501 is arranged between each chain of the chain type feeding conveyor belt 5, the connecting roller sleeve 501 can rotate, so that the hollow bricks can translate on the chain type feeding conveyor belt 5 through the connecting roller sleeve 501, the stacking structure of the apparatus is arranged on the supporting base frame 104, the supporting base frame 104 is erected on the horizontal rail 106 through the translation roller 105, so that the whole stacking structure can translate integrally through the horizontal rail 106 to realize continuous stacking, the translation roller 105 is matched with the horizontal rail 106 in size, the chain type feeding conveyor belt 5 and the horizontal rail 106 are arranged continuously, the horizontal center line of the horizontal rail 106 is parallel to the horizontal center line of the chain type feeding conveyor belt 5, the main stacking structure of the device is divided into a middle translational conveying structure and a side three-dimensional conveying structure, the translational conveying structure is mainly arranged on the embedded connecting frame 3, the size of the embedded connecting frame 3 is matched with that of the embedded connecting groove 201, so the embedded connecting frame 3 can be arranged on the front side door type frame 2 of the three-dimensional conveying structure through embedded connection, the installation and the disassembly adjustment of the front side door type frame are convenient, the material collecting plate 4 of the translational conveying structure is arranged on the chain type feeding conveying belt 5 and is embedded above the chain type feeding conveying belt 5 through the middle feeding groove 401, hollow bricks are conveyed into the feeding groove 401 through the chain type feeding conveying belt 5, as the other end of the feeding groove 401 is sealed by the trapezoid baffle plate 402, the hollow bricks can be sequentially blocked by the trapezoid baffle plate 402, thereby the hollow bricks are arranged in a row, and the orderly arranged hollow bricks are pushed to translate through the frame type horizontal material pushing plate 303, the frame-shaped horizontal material pushing plate 303 is connected with the horizontal sliding block 301 in a sliding mode through the horizontal sliding groove 302, meanwhile, the frame-shaped horizontal material pushing plate 303 is driven by the horizontal rack 304 and the driving gear 305, the horizontal rack 304 and the driving gear 305 are meshed with each other to form a transmission structure, the driving gears 305 are symmetrically arranged with respect to the vertical central line of the horizontal rack 304, the frame-shaped horizontal material pushing plate 303 can be driven to move in parallel in the horizontal direction through rotation of the driving gear 305, and therefore the frame-shaped horizontal material pushing plate 303 can continuously push orderly-arranged hollow bricks to a side three-dimensional conveying structure through two parallel side faces to enable subsequent stacking work.

Referring to fig. 2 to 8, optionally, extension supporting plates 404 are symmetrically arranged on two sides of a feeding chute 401 of the device, the extension supporting plates 404 are rotatably connected with the aggregate plate 4 through supporting plate rotating shafts 403, when the extension supporting plates 404 are rotated outwards to the limit through the supporting plate rotating shafts 403, the upper surfaces of the extension supporting plates 404 and the upper surfaces of the chain type feeding conveyor belts 5 are located on the same horizontal plane, the horizontal central line of the feeding chute 401 and the horizontal central line of the chain type feeding conveyor belts 5 are parallel to each other, and the feeding chute 401 and the chain type feeding conveyor belts 5 are matched in size, so that when the frame type horizontal pushing plate 303 pushes the orderly hollow bricks on the chain type feeding conveyor belts 5, the other sides of the hollow bricks naturally push the extension supporting plates 404, so that the extension supporting plates 404 are rotated outwards to the horizontal state through the supporting plate rotating shafts 403 to fill gaps between the chain type feeding conveyor belts 5 and the horizontal supporting plates 6, and the upper surface of the horizontal supporting plate 6 is parallel to the upper surface of the chain type feeding conveyor belt 5, so that the hollow bricks are pushed by the frame type horizontal material pushing plate 303 to be pushed into the horizontal supporting plate 6 by the horizontal extension supporting plate 404, the front side and the outer side of the horizontal supporting plate 6 are provided with L-shaped lateral baffles 601, the upper surface of the horizontal supporting plate 6 is parallel to the top surfaces of the L-shaped lateral baffles 601, the side surfaces at the two sides of the L-shaped lateral baffles 601 are vertical to each other, the hollow bricks can be limited by the L-shaped lateral baffles 601 to move in parallel, the frame-shaped horizontal material pushing plate 303 continuously pushes a plurality of rows of hollow bricks to enter the horizontal supporting plate 6, and a row of hollow bricks pushed backwards can push a row of hollow bricks entering the horizontal supporting plate 6 last time until the row of hollow bricks entering at the beginning is attached to the opposite side L-shaped lateral baffle 601 to fill the horizontal supporting plate 6, so that a whole layer of hollow bricks is arranged on the horizontal supporting plate 6.

Referring to fig. 8 to 12, alternatively, after the horizontal support plate 6 of the device is installed with a whole layer of hollow bricks through the frame-shaped horizontal pusher plate 303, the horizontal support plate 6 can move through the two-way moving structure formed by the horizontal screw 203 and the vertical screw 701, the horizontal support plate 6 is connected with the vertical screw 701 on the X-shaped connecting frame 7 through the horizontal bracket 604 and the vertical screw 605, the horizontal support plate 6 is driven to open by rotating the vertical screw 701 to drive the horizontal support plate 6 to move in the vertical direction, the X-shaped connecting frame 7 is connected with the horizontal screw 203 and the horizontal sliding rod 202 through the horizontal screw 703 and the horizontal sliding sleeve 704, the X-shaped connecting frame 7 and the horizontal support plate 6 can be driven to move in the horizontal direction by rotating the horizontal screw 203, and the device lays bricks at the rear side of the rear side door frame 1, i.e. in the middle of the supporting base frame 104, so that the horizontal support plate 6 is installed with a whole layer of hollow bricks, can move the rear side of back side door type frame 1 and be the centre of bearing chassis 104, first layer fragment of brick often places on the backing plate, so the bottom surface of horizontal layer board 6 needs be a little higher than the top surface of backing plate, and hollow brick uninstallation then goes on through reserving material baffle 8, and it is connected with vertical spout 101 sliding connection to reserve material baffle 8 through vertical slider 803, it is mutually perpendicular between the vertical central line of vertical spout 101 and the horizontal central line of reserving material baffle 8, and it is general mutually supporting with horizontal layer board 6 and brick pillar height to reserve the height of material baffle 8, so horizontal layer board 6 moves when moving to the rear side the slope kicking block 603 of its front end can promote the vertical slider 803 of reserving material baffle 8 one side, make the whole upward movement of reserving material baffle 8, and the top surface of slope kicking block 603 is parallel and level with the top surface of L type lateral baffle 601, the size is mutually supporting between slope kicking block 603 and the vertical slider 803, so it can be promoted to reserve material baffle 8 to its bottom surface and be the bottom surface of adjustable fender 802 and the top surface of L type lateral baffle 601 The height of the horizontal plane is equal, because the vertical sliding blocks 803 on both sides of the material retaining baffle plate 8 are fixed by the horizontal locking teeth 805, the horizontal locking teeth 805 are matched with the one-way rack 102 in size, when the material retaining baffle plate 8 moves upwards, the inclined planes between the horizontal locking teeth 805 and the one-way rack 102 are contacted with each other, so that the one-way rack 102 pushes the horizontal locking teeth 805 to slide inwards along the embedding grooves 804, the horizontal locking teeth 805 are staggered with the one-way rack 102, the vertical sliding blocks 803 and the material retaining baffle plate 8 can move smoothly, when the vertical sliding blocks 803 and the material retaining baffle plate 8 stop moving upwards, the horizontal locking teeth 805 are pushed by the locking springs 806 to be embedded with the one-way rack 102 again, so as to lock the positions of the vertical sliding blocks 803 and the material retaining baffle plate 8, and when the horizontal supporting plate 6 continues moving backwards, because the height of bricks placed on the upper surface is higher than the height of the L-shaped lateral baffle plate 601, the bricks in the last row push the movable baffle plate 802, the movable baffle 802 is rotatably connected with the material retaining baffle 8 through the one-way rotating shaft 801, the bottom surface of the movable baffle 802 and the top surface of the L-shaped lateral baffle 601 are parallel to each other, so that the movable baffle 802 is not blocked when being pushed in from the front surface, the horizontal supporting plate 6 and the bricks thereon can continuously move to the rear side to fixed positions, the movable baffle 802 has already crossed the bricks in the front row and rotated to restore the original positions, the horizontal supporting plate 6 can return forwards, the movable baffle 802 can block the bricks in the front row, so that all the bricks can not move along with the horizontal supporting plate 6, the bricks in the last side row sequentially fall from the rear end of the movable baffle 802 and are arranged on the backing plate below until the horizontal supporting plate 6 completely crosses the movable baffle 802, the whole layer of hollow bricks on the movable baffle 802 are unloaded and kept orderly, and a brick stack can be formed by sequentially adding up a layer of hollow bricks, and finishing the stacking work.

When in use, firstly, a chain type feeding conveyor belt 5 is horizontally laid in the middle of a stacking yard, then horizontal rails 106 are symmetrically laid on two sides of the chain type feeding conveyor belt 5 in parallel, backing plates for stacking bricks are uniformly arranged between the horizontal rails 106, the height of the backing plates needs to be higher than the lowest vertical movement height of a horizontal supporting plate 6 of the device, then the whole device can be erected on the horizontal rails 106 through a supporting underframe 104 and a translation roller 105, when in stacking work, an embedded connecting frame 3 is arranged on front side door type frames 2 on two sides of the embedded connecting frame through an embedded connecting groove 201, a horizontal conveying mechanism arranged on the embedded connecting frame 3 can be simultaneously supplied to three-dimensional conveying mechanisms on two sides of the embedded connecting frame, at the moment, the chain type feeding conveyor belt 5 can be driven through an additional motor, the feeding conveying direction of the chain type feeding conveyor belt 5 needs to be kept consistent with the orientation of the device, then the whole device moves on the horizontal rail 106 through the translation roller 105, so that the device is matched with the position of the base plate, bricks can be placed on the chain type feeding conveyor 5 from one end of the chain type feeding conveyor 5 at the moment, two sides of the bricks are kept approximately flush with the side surfaces of the chain type feeding conveyor 5, then the chain type feeding conveyor 5 conveys the bricks to a feeding groove 401 in the middle of the device, hollow bricks are sequentially blocked by a trapezoidal baffle 402 because the other end of the feeding groove 401 is sealed by the trapezoidal baffle 402, so that the hollow bricks are connected end to be arranged in a row, subsequent bricks are continuously blocked, but as a rotatable connecting roller sleeve 501 is arranged on the chain type feeding conveyor 5, the bricks cannot influence the movement of the chain type feeding conveyor 5, then a driving motor 306 drives a driving gear 305 to rotate, and the driving gear 305 drives a frame type horizontal pushing material to move to one side in parallel through a horizontal rack 304, the frame-shaped horizontal pushing material pushes the orderly arranged bricks to move to one side, the other side of the hollow brick naturally pushes the extension supporting plate 404, the extension supporting plate 404 is enabled to rotate outwards to a horizontal state through the supporting plate rotating shaft 403 to fill up a gap between the chain type feeding conveying belt 5 and the horizontal supporting plate 6, then the hollow brick is pushed to be pushed into the horizontal supporting plate 6 through the horizontal extension supporting plate 404 by the frame-shaped horizontal pushing plate 303, at the moment, the other side surface of the frame-shaped horizontal pushing plate 303 already passes over the feeding groove 401, so the bricks can smoothly enter the feeding groove 401 to be orderly arranged without being blocked by the horizontal pushing plate 303, then the driving motor 306 drives the driving gear 305 to rotate reversely, the driving gear 305 drives the frame-shaped horizontal pushing material to move to the other side in parallel through the horizontal rack 304, the frame-shaped horizontal pushing material pushes the orderly arranged bricks to move to the other side to push the hollow, then the frame-shaped horizontal material pushing plate 303 continuously pushes a plurality of rows of hollow bricks to enter the horizontal supporting plate 6, the row of hollow bricks pushed later can push a row of hollow bricks entering last time until the row of hollow bricks entering at first are attached to the opposite L-shaped lateral baffle 601 to fill the horizontal supporting plate 6, so that a whole layer of hollow bricks are arranged on the horizontal supporting plate 6, at the moment, the frame-shaped horizontal material pushing plate 303 moves to the other side, the extending supporting plate 404 is pulled by the reset spring rope 406 to be folded and reset so as to avoid blocking the movement of the horizontal supporting plate 6, firstly, the vertical motor 702 drives the vertical screw 701 to rotate, the vertical screw 701 drives the horizontal bracket 604 and the horizontal supporting plate 6 to vertically move through the vertical screw sleeve 605 to adjust the height, so that the bottom surface of the horizontal supporting plate 6 is slightly higher than the upper surface of the backing plate or the previous layer of bricks, then, the horizontal motor 204 drives the horizontal screw 203 to rotate, the horizontal screw 203 drives the X-shaped connecting frame 7 and the horizontal supporting plate 6 to horizontally move through the horizontal screw sleeve 703, at this time, the height of the material retaining baffle 8 is generally matched with the height of the horizontal supporting plate 6 and the brick pile, so that when the horizontal supporting plate 6 moves to the rear side, the inclined top block 603 at the front end of the horizontal supporting plate can push the vertical slide block 803 at one side of the material retaining baffle 8, so that the whole material retaining baffle 8 moves upwards, the top surface of the inclined top block 603 is flush with the top surface of the L-shaped lateral baffle 601, the inclined top block 603 and the vertical slide block 803 are matched in size, so that the material retaining baffle 8 is pushed to the height that the bottom surface of the material retaining baffle 8, namely the bottom surface of the movable baffle 802 is flush with the top surface of the L-shaped lateral baffle 601, because the vertical slide blocks 803 at the two sides of the material retaining baffle 8 are fixed through the horizontal locking teeth 805, the horizontal locking teeth 805 are matched with the one-way rack 102 in size, when the material retaining baffle 8 moves upwards, the inclined surfaces between the horizontal locking teeth 805 and the one-way rack 102 are contacted with each other, so that the one-way rack 102 pushes the horizontal locking teeth 805 to slide inwards along the grooves 804, the horizontal locking teeth 805 are staggered with the unidirectional rack 102, the vertical sliding blocks 803 and the material retaining baffle 8 can move smoothly, when the vertical sliding blocks 803 and the material retaining baffle 8 stop moving upwards, the horizontal locking teeth 805 are pushed by the locking springs 806 to be embedded with the unidirectional rack 102 again, so that the positions of the vertical sliding blocks 803 and the material retaining baffle 8 are locked, when the horizontal supporting plate 6 continues to move towards the rear side, because the height of the bricks placed on the horizontal supporting plate is higher than that of the L-shaped lateral baffle 601, the bricks in the last row push the movable baffle 802, the movable baffle 802 is rotatably connected with the material retaining baffle 8 through the unidirectional rotating shaft 801, the bottom surface of the movable baffle 802 is parallel to the top surface of the L-shaped lateral baffle 601, so that the bricks are not blocked when being pushed into the front side by the movable baffle 802, the horizontal supporting plate 6 and the bricks on the horizontal supporting plate can continue to move towards the rear side to a fixed position, at this time, the movable baffle 802 already crosses the bricks in the foremost row to rotate and recover the original position, horizontal support plate 6 alright with the return forward, and adjustable fender 802 can block the fragment of brick of foremost row this moment, thereby all fragments of brick can't follow horizontal support plate 6 and move, fall by adjustable fender 802 rear end in proper order by the fragment of brick of rearmost side row, arrange on the backing plate of below, movable fender 802 is crossed completely until horizontal support plate 6, a whole layer of hollow brick on it just accomplishes and unloads and keeps neat, horizontal support plate 6 moves the state filling position again afterwards, be parallel and level each other with chain material loading conveyer belt 5, through in proper order upwards add up one layer of hollow brick alright form the brick pillar, accomplish the pile up work, after a pair of brick pillar accomplished the pile up, the device is whole alright remove one section distance through translation gyro wheel 105 and horizontal track 106, in order to carry out pile up work in succession.

According to the continuous stacking device for producing the hollow bricks, the hollow bricks are conveyed through the chain type feeding conveyor belt 5, the hollow bricks are blocked in the feeding groove 401 by the trapezoid baffles 402 to form a row of hollow bricks in an end-to-end mode, the row of hollow bricks are pushed to horizontally move to the horizontal supporting plate 6 on one side of the row of hollow bricks through the frame type horizontal material pushing plate 303, a layer of hollow bricks can be formed by pushing a plurality of rows of hollow bricks, the layer of hollow bricks can be moved and conveyed to the corresponding positions through the horizontal supporting plate 6 and are unloaded and stacked through the relative movement of the horizontal supporting plate 6 and the material retaining baffle plate 8, the plurality of layers of hollow bricks can be stacked into a complete brick pile from bottom to top, so that the stacking work from point to line to surface is completed, and finally the stacking work of a finished product is more standard and the stacking efficiency is higher.

Those of ordinary skill in the art will understand that: the discussion of any embodiment above is meant to be exemplary only, and is not intended to intimate that the scope of the disclosure, including the claims, is limited to these examples; within the spirit of the present disclosure, features from the above embodiments or from different embodiments may also be combined, steps may be implemented in any order, and there are many other variations of the different aspects of one or more embodiments of the present description as above, which are not provided in detail for the sake of brevity.

While the present disclosure has been described in conjunction with specific embodiments thereof, many alternatives, modifications, and variations of these embodiments will be apparent to those of ordinary skill in the art in light of the foregoing description.

It is intended that the one or more embodiments of the present specification embrace all such alternatives, modifications and variations as fall within the broad scope of the appended claims. Therefore, any omissions, modifications, substitutions, improvements, and the like that may be made without departing from the spirit and principles of one or more embodiments of the present disclosure are intended to be included within the scope of the present disclosure.

Claims (10)

1. The utility model provides a continuous pile up neatly device is used in hollow brick production which characterized in that includes:

the inner side of the rear side door frame is provided with a vertical sliding groove, a one-way rack is arranged in the middle of the vertical sliding groove, a side baffle is arranged at the rear side of the rear side door frame, a bearing underframe is arranged below the rear side door frame, translation rollers are symmetrically arranged on the left side and the right side of the bearing underframe, and a horizontal rail is arranged below the translation rollers;

the front side door frame is arranged on the front side of the rear side door frame, a tabling connecting groove is arranged on the inner side of the front side door frame, a transverse sliding rod is arranged at the top end of the front side door frame, a transverse screw rod is arranged at the bottom end of the front side door frame, and a transverse motor is arranged at the shaft end of the transverse screw rod;

the jogged connecting frame is arranged in the middle of the jogged connecting groove, horizontal sliding blocks are symmetrically arranged on the front side and the rear side of the jogged connecting frame, a horizontal sliding groove is formed below the horizontal sliding blocks, a frame-shaped horizontal pushing plate is arranged below the horizontal sliding groove, a horizontal rack is arranged in the middle of the frame-shaped horizontal pushing plate, a driving gear is arranged above the horizontal rack, and a driving motor is arranged at the shaft end of the driving gear;

the material collecting plate is arranged below the frame-shaped horizontal pushing plate, a feeding groove is formed in the middle of the material collecting plate, a trapezoidal baffle is arranged at the front end of the feeding groove, supporting plate rotating shafts are symmetrically arranged on the left side and the right side of the feeding groove, an extending supporting plate is connected to the outer side of each supporting plate rotating shaft, a abdicating groove is formed in the outer side of each extending supporting plate, and a reset spring rope is connected to the side face of the front end of each extending supporting plate;

the chain type feeding conveyor belt is arranged in the middle of the feeding groove, and a connecting roller sleeve is arranged in the middle of the feeding groove;

the horizontal supporting plate is arranged in the middle of the front side door frame, an L-shaped lateral baffle is arranged on the outer side of the front side door frame, horizontal roll shafts are uniformly and parallelly arranged on the upper surface of the horizontal supporting plate, an inclined jacking block is arranged at the outer end of the horizontal supporting plate, a horizontal support is arranged on the rear side of the horizontal supporting plate, and vertical screw sleeves are symmetrically arranged on the left side and the right side of the horizontal support;

the X-shaped connecting frame is arranged at the rear side of the horizontal support, vertical screw rods are symmetrically arranged on the left side and the right side of the horizontal support, the shaft end of each vertical screw rod is connected with a vertical motor, a transverse screw sleeve is arranged at the lower end of the X-shaped connecting frame, and a transverse sliding sleeve is arranged at the upper end of the X-shaped connecting frame;

the material retaining baffle is arranged in the middle of the rear side door frame, a one-way rotating shaft is arranged below the material retaining baffle, a movable baffle is connected below the one-way rotating shaft, vertical sliding blocks are symmetrically arranged on the left side and the right side of the material retaining baffle, an embedding groove is formed in the middle of each vertical sliding block, a horizontal locking tooth is slidably arranged in the middle of each embedding groove, and a locking spring is arranged on the rear side of each horizontal locking tooth.

2. A continuous palletizing device for producing hollow bricks as claimed in claim 1, wherein the translation rollers are mutually matched with the horizontal rail in size, and the horizontal center line of the horizontal rail is mutually parallel to the horizontal center line of the chain type feeding conveyor belt.

3. The continuous stacking device for hollow brick production as claimed in claim 1, wherein the size of the jogged connecting frame is matched with that of the jogged connecting groove, and the frame-shaped horizontal material pushing plate is connected with the horizontal sliding block in a sliding mode through the horizontal sliding groove.

4. A continuous stacking device for hollow brick production as claimed in claim 1 wherein the horizontal rack and the driving gears are engaged with each other to form a transmission structure, and the driving gears are symmetrically arranged with respect to a vertical center line of the horizontal rack.

5. The continuous stacking device for hollow brick production as claimed in claim 1, wherein the extension supporting plate is rotatably connected with the material collecting plate through the supporting plate rotating shaft, and when the extension supporting plate is rotated outwards to the limit through the supporting plate rotating shaft, the upper surface of the extension supporting plate and the upper surface of the chain type feeding conveyor belt are positioned on the same horizontal plane.

6. A continuous palletizing device for producing hollow bricks as claimed in claim 1, wherein the horizontal center line of the feeding chute and the horizontal center line of the chain type feeding conveyor belt are parallel to each other, and the feeding chute and the chain type feeding conveyor belt are matched in size.

7. The continuous stacking device for hollow brick production as claimed in claim 1, wherein the upper surface of the horizontal supporting plate and the upper surface of the chain type feeding conveyor belt are parallel to each other, the upper surface of the horizontal supporting plate and the top surface of the L-shaped lateral baffle are parallel to each other, and the side surfaces of the two sides of the L-shaped lateral baffle are perpendicular to each other.

8. The continuous stacking device for hollow brick production as claimed in claim 1, wherein the material retaining baffle is connected with the vertical chute in a sliding manner through the vertical sliding block, and a horizontal center line of the material retaining baffle is perpendicular to a vertical center line of the vertical chute.

9. The continuous stacking device for hollow brick production as claimed in claim 1, wherein the movable baffle is rotatably connected with the material retaining baffle through the one-way rotating shaft, and the bottom surface of the movable baffle is parallel to the top surface of the L-shaped lateral baffle.

10. A continuous palletizing device for producing hollow bricks according to claim 1, wherein the inclined top block and the vertical sliding block are mutually matched in size, and the horizontal locking teeth are mutually matched in size with the one-way rack.

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