CN217457952U - Building waste residue regeneration brick pile up neatly device - Google Patents

Abstract

The utility model relates to a building waste residue regeneration brick pile up neatly device, including storing the frame, place store the board of placing on the frame, store the left and right sides both ends symmetry of frame and seted up the lift groove, it is provided with the lifter plate to slide in the lift groove, the rear end of storing the frame is provided with control mechanism, the lifter plate is connected control mechanism is last. The stacking device can solve the problems that a placing plate for stacking the regenerated bricks is of a flat plate structure, stacking is needed when the regenerated bricks are taken out of a production line, the regenerated bricks need to be transported to a specified position for stacking after stacking is completed, the flat plate structure does not have a protective effect on the stacked regenerated bricks and is easy to incline in conveying operation, stacking of the regenerated bricks is complicated and repeated, a line of operator needs repeated bow operation in the process of stacking the regenerated bricks on the flat plate, and the repeated bow operation easily causes waist damage.

Description

Building waste residue regeneration brick pile up neatly device

Technical Field

The utility model relates to a regeneration brick production technical field, in particular to building waste residue regeneration brick pile up neatly device.

Background

The recycled brick is formed by carrying out secondary processing on waste building garbage, not only can the resource be recycled through recycling the waste building garbage, but also the problem of environmental pollution caused by the waste building garbage is reduced, the economic benefit is realized by changing waste into valuables through secondary utilization of the building garbage, and the production efficiency of the recycled brick is influenced by the stacking of the recycled bricks after production and manufacturing are completed.

However, current regeneration brick has following problem in pile up neatly process, one, the board of placing of pile up neatly regeneration brick is dull and stereotyped structure, and regeneration brick need carry out the pile up neatly promptly when taking out from the production line, need transport to appointed position department and carry out the pile up neatly after the regeneration brick pile up neatly is accomplished, dull and stereotyped structure does not have the effect of protection to the regeneration brick of range upon range of pile up neatly, the slope takes place in carrying the operation easily, two, pile up neatly to regeneration brick is loaded down with trivial details repetitive operation, the process of putting the regeneration brick pile up on the flat board needs a line of operation personnel's repeated bow waist operation, the easy waist damage that causes of repeated bow operation.

SUMMERY OF THE UTILITY MODEL

Technical scheme (I)

In order to achieve the above purpose, the utility model adopts the following technical scheme: a stacking device for building waste residue regenerated bricks comprises a storage frame and a placing plate, wherein the placing plate is placed on the storage frame and used for placing regenerated bricks, lifting grooves are symmetrically formed in the left end and the right end of the storage frame, lifting plates are slidably arranged in the lifting grooves, a control mechanism used for controlling the lifting plates to adjust is arranged at the rear end of the storage frame, and the lifting plates are connected to the control mechanism;

the control mechanism comprises a fixed plate arranged at the rear end of the storage frame, a lifting cylinder is arranged at the lower end of the fixed plate, a lifting execution frame is arranged at the lower end of the lifting cylinder, the lifting execution frame is connected with the storage frame in a sliding fit mode, an adjusting branched chain is arranged in the lifting execution frame, the adjusting branched chain is connected with the lifting plate, and the working position of the lifting plate is adjusted by controlling the adjusting branched chain;

the locking groove has been seted up to the inside symmetry in the left and right sides upper end of storage frame, be located the storage frame between two lift grooves and set up the rectangular channel that communicates with the locking groove, and evenly set up the locking hole of intercommunication locking groove and rectangular channel on the storage frame, be provided with the locking branch chain in the rectangular channel, the locking inslot is provided with the control branch chain, the last terminal surface of storage frame set up with the control groove of locking groove UNICOM, the control branch chain runs through the control groove, control cylinder is installed to the upper end of fixed plate, install the control frame on the control cylinder, the control frame links to each other with the control branch chain.

Preferably, the adjusting branch chain comprises a bidirectional motor installed on the lifting execution frame through a motor base, screw rods are symmetrically installed on output shafts of the bidirectional motor, the screw rods are connected with the lifting execution frame through bearings, threaded moving blocks are arranged on the screw rods in a threaded engagement mode, the threaded moving blocks are provided with execution moving frames, and the lifting plate is connected to the execution moving frames.

Preferably, the lower end of the storage rack is uniformly provided with moving wheels.

Preferably, the left and right sides symmetry of lifter plate has seted up the fixed orifices, is located to have seted up on the lifter plate on storage frame left to the slot, is located to have seted up on the lifter plate on storage frame right side with to the slot complex to the inserted block.

Preferably, the control branch chain comprises a control rod arranged in the control groove in a sliding mode, the upper end of the control rod is connected with the control frame, the lower end of the control rod is provided with a control plate, a control spring is arranged between the control plate and the inner wall of the control groove, the lower end of the control plate is evenly provided with control blocks, and the control blocks are located in the rectangular groove.

Preferably, the locking branched chain comprises a locking spring arranged on the inner wall of the rectangular groove, a locking plate is arranged on the locking spring, locking rods are evenly arranged on the locking plate and are arranged in the locking holes in a sliding mode, and abutting rods are evenly arranged on the end face, away from the locking rods, of the locking plate and abut against the control block.

Preferably, the control block consists of a straight plate and a plurality of trapezoidal plates, and the trapezoidal plates are symmetrically arranged on the front side and the rear side of the straight plate.

(II) advantageous effects

The utility model discloses the whole U type structure that is of storage frame of well design can play the askew effect of falling that prevents the good regeneration brick of pile up neatly and take place the slope when carrying regeneration brick, when pile up neatly to regeneration brick, can control the lifter plate through control mechanism and follow the height that changes adjustment adaptation of regeneration brick pile up neatly number of piles to can accomplish the separation at two lifter plates of appointed position department control, need not secondary transport pile up neatly regeneration brick.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic view of the present invention after removing the placement board;

fig. 3 is a schematic structural diagram of the storage rack (behind the end plate), the fixing plate, the locking branch chain, the control cylinder and the control rack according to the present invention;

FIG. 4 is a schematic structural view (from back to front) of the present invention;

fig. 5 is an enlarged view of a portion a of fig. 3 according to the present invention;

fig. 6 is a partial enlarged view of fig. 3B according to the present invention;

FIG. 7 is a schematic structural view of two lifting plates of the present invention;

fig. 8 is a cross-sectional view of the fit between two lifting plates of the present invention.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings. In this process, the widths of lines or the sizes of components in the drawings may be exaggerated for clarity and convenience of description.

In addition, the following terms are defined based on the functions of the present invention, and may be different according to the intention of the user or the operator or the convention. Therefore, these terms are defined based on the entire contents of the present specification.

As shown in fig. 1 to 8, a building waste residue regeneration brick pile up neatly device, including storing frame 1, place the board 2 of placing that is used for placing the regeneration brick on storing frame 1, store frame 1's left and right sides both ends symmetry and seted up the lift groove, it is provided with lifter plate 3 to slide in the lift groove, and the rear end of storing frame 1 is provided with and is used for controlling lifter plate 3 to carry out the control mechanism 4 who adjusts, and lifter plate 3 connects on control mechanism 4.

The placing plate 2 for placing the regenerated bricks is placed on the lifting plate 3, when the regenerated bricks are stacked, the lifting plate 3 is driven by the control mechanism 4 to carry out height adjustment, the operation of keeping the height of the stacked regenerated bricks at a uniform height is ensured, when the regenerated bricks are stacked by a line operator, the position suitable for the operation of the line operator can be adjusted along with the height of the stacked regenerated bricks, so that the lumbar of a human body is prevented from being damaged due to long-time repeated stoop stacking operation, even if the regenerated bricks are clamped by the existing machine to be stacked, the moving dimension of the machine in the operation can be reduced by the arrangement of the stacking operation for ensuring a uniform plane, the moving distance of the clamping machine is shortened, the clamping machine can complete the stacking operation of the regenerated bricks only in one operation plane, and after the stacking operation is completed, the stacking machine is moved to a specified position, the working state of the lifting plate 3 is adjusted through the control mechanism 4 to enable the lifting plate to be separated from the placing plate 2, and then the stacking operation of the regenerated bricks can be completed by moving the stacking device to a proper position, so that the stacking device is simple and convenient to operate.

In order to facilitate the movement of the present invention, the lower end of the storage rack 1 is uniformly provided with moving wheels 11, and the present invention can be moved on the working ground by the moving wheels 11.

The control mechanism 4 comprises a fixing plate 41 arranged at the rear end of the storage rack 1, a lifting cylinder 42 is arranged at the lower end of the fixing plate 41, a lifting execution frame 43 is arranged at the lower end of the lifting cylinder 42, the lifting execution frame 43 is connected with the storage rack 1 in a sliding fit manner, an adjusting branched chain 44 is arranged in the lifting execution frame 43, the adjusting branched chain 44 is connected with the lifting plate 3, and the working position of the lifting plate 3 is adjusted by controlling the adjusting branched chain 44;

the fixed orifices have been seted up to lifter plate 3's left and right sides symmetry, have been located to have seted up on the lifter plate 3 on storage frame 1 left to the slot, be located to offer on the lifter plate 3 on storage frame 1 right side with to slot complex to the inserted block 31.

Before preparing to carry out the pile up neatly operation to the regeneration brick after accomplishing the manufacturing, at first drive through adjusting branch chain 44 and accomplish the butt joint between two lifter plates 3 for insert block 31 and insert in to the slot, then start there is lift cylinder 42, lift cylinder 42 drives lift execution frame 43 according to the actual work needs and carries out appropriate adjustment in the operation, thereby makes the board 2 of placing placed on the lifter plate 3 move to suitable operating position department.

With the increase of the number of the layers of the recycled brick stacking, the gravity borne by the lifting plate 3 is also increased continuously, and the following improvement is made in order to relieve the pressure borne by the adjusting branched chain 44 in the operation; the locking groove has been seted up to the inside symmetry in left and right sides upper end of storage frame 1, the rectangular channel who communicates with the locking groove is seted up on the storage frame 1 that is located between two lift grooves, and evenly set up the locking hole of intercommunication locking groove and rectangular channel on the storage frame 1, be provided with locking branch chain 5 in the rectangular channel, be provided with control branch chain 6 in the locking groove, the control groove with locking groove UNICOM is seted up to the up end of storage frame 1, control branch chain 6 runs through the control groove, control cylinder 7 is installed to the upper end of fixed plate 41, install control frame 8 on the control cylinder 7, control frame 8 links to each other with control branch chain 6, both ends are provided with the tip shrouding through the bolt about the storage frame 1, be convenient for after the tip shrouding demolishs the installation of control branch chain 6 and locking branch chain 5 part.

The control branch chain 6 comprises a control rod 61 which is arranged in a control groove in a sliding mode, the upper end of the control rod 61 is connected with the control frame 8, a control plate 62 is installed at the lower end of the control rod 61, a control spring 63 is arranged between the control plate 62 and the inner wall of the control groove, control blocks 64 are evenly arranged at the lower end of the control plate 62, and the control blocks 64 are located in the rectangular groove.

Locking branch chain 5 is including setting up the locking spring 51 on the rectangular channel inner wall, installs locking plate 52 on the locking spring 51, evenly is provided with the check lock lever 53 on the locking plate 52, and the check lock lever 53 slides and sets up in the locking hole, evenly is provided with on the locking plate 52 deviates from the terminal surface of check lock lever 53 and supports and lean on pole 54, supports and leans on control block 64 by pole 54.

The control block 64 is composed of a straight plate and a plurality of trapezoidal plates symmetrically arranged on the front and rear sides of the straight plate.

After the height of the lifting plate 3 is adjusted to a proper position, the control cylinder 7 is started to drive the control frame 8 to adjust the height, the control frame 8 drives the control block 64 to move from top to bottom in the movement, the control block 64 extrudes the abutting rod 54 in the upward movement process, the locking plate 52 is driven to move towards the inner wall of the rectangular groove integrally along with the change of the position between the control block 54 and the abutting rod 54, so that the locking rod 53 is driven to penetrate through the locking hole to be inserted into the fixing hole, the pressure born by the adjusting branched chain 44 can be transferred to the locking rod through the matching between the locking rod 53 and the fixing hole, and the stability of the lifting plate 3 in the work at the specified position can be ensured.

In addition, before the second layer of work is prepared to be stacked after the first layer of regenerative bricks are stacked, the control cylinder 7 is reset, and the lifting cylinder 42 drives the lifting execution frame 43 to move downwards, so that the stacking plane of the second layer of regenerative bricks and the plane of the first layer of regenerative bricks in the stacking operation are kept uniform.

The adjusting branched chain 44 comprises a bidirectional motor 441 installed on the lifting executing frame 43 through a motor base, a lead screw 442 is symmetrically installed on an output shaft of the bidirectional motor 441, the lead screw 442 is connected with the lifting executing frame 43 through a bearing, a thread moving block 443 is arranged on the lead screw 442 in a thread engagement mode, an executing moving frame 444 is installed on the thread moving block 443, and the lifting plate 3 is connected to the executing moving frame 444.

When the piled regenerated bricks need to be removed from the invention, the lifting air cylinder 42 works to drive the lifting execution frame 43 to be adjusted downwards, so that the lower end face of the placing plate 2 is attached to the appointed ground, at the moment, the bidirectional motor 441 is started to drive the two synchronous lead screws 442 to rotate, the two lead screws 442 synchronously control the two thread moving blocks 443 to be adjusted in opposite directions in the rotating process, the execution moving frame 444 is driven to be adjusted synchronously through the movement of the thread moving blocks 443, the two lifting plates 3 are separated, the placing plate 2 is directly contacted with the ground, and when the lifting plates 3 are adjusted at a position where the movement of the invention is not obstructed, the invention is dragged to be pulled away, so that the piling operation of the regenerated bricks is completed, and the operation is simple and convenient.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. The stacking device for the building waste residue regenerated bricks comprises a storage frame (1) and placing plates (2) placed on the storage frame (1) and used for placing the regenerated bricks, and is characterized in that lifting grooves are symmetrically formed in the left end and the right end of the storage frame (1), lifting plates (3) are arranged in the lifting grooves in a sliding mode, a control mechanism (4) used for controlling the lifting plates (3) to adjust is arranged at the rear end of the storage frame (1), and the lifting plates (3) are connected to the control mechanism (4);

the control mechanism (4) comprises a fixing plate (41) arranged at the rear end of the storage frame (1), a lifting cylinder (42) is arranged at the lower end of the fixing plate (41), a lifting execution frame (43) is arranged at the lower end of the lifting cylinder (42), the lifting execution frame (43) is connected with the storage frame (1) in a sliding fit mode, an adjusting branched chain (44) is arranged in the lifting execution frame (43), the adjusting branched chain (44) is connected with the lifting plate (3), and the lifting plate (3) is controlled by the adjusting branched chain (44) to adjust the working position;

the inner symmetry of the upper ends of the left side and the right side of the storage rack (1) is provided with locking grooves, the locking grooves are located between the two lifting grooves, rectangular grooves communicated with the locking grooves are formed in the storage rack (1), the storage rack (1) is uniformly communicated with the locking grooves of the locking grooves, locking branched chains (5) are arranged in the rectangular grooves, control branched chains (6) are arranged in the locking grooves, control grooves communicated with the locking grooves are formed in the upper end face of the storage rack (1), the control branched chains (6) run through the control grooves, control cylinders (7) are installed at the upper ends of the fixing plates (41), control racks (8) are installed on the control cylinders (7), and the control racks (8) are connected with the control branched chains (6).

2. The building waste residue regeneration brick stacking device as claimed in claim 1, wherein the adjusting branched chain (44) comprises a bidirectional motor (441) mounted on the lifting execution frame (43) through a motor base, a lead screw (442) is symmetrically mounted on an output shaft of the bidirectional motor (441), the lead screw (442) is connected with the lifting execution frame (43) through a bearing, a threaded moving block (443) is arranged on the lead screw (442) in a threaded engagement manner, an execution moving frame (444) is mounted on the threaded moving block (443), and the lifting plate (3) is connected to the execution moving frame (444).

3. The stacking device for recycled building waste bricks according to claim 1, characterized in that the lower end of the storage rack (1) is uniformly provided with moving wheels (11).

4. The stacking device for recycled building waste residues and bricks as claimed in claim 1, wherein the left and right sides of the lifting plate (3) are symmetrically provided with fixing holes, the lifting plate (3) on the left side of the storage rack (1) is provided with opposite slots, and the lifting plate (3) on the right side of the storage rack (1) is provided with opposite insertion blocks (31) matched with the opposite slots.

5. The stacking device for building waste residue regeneration bricks, as claimed in claim 1, wherein the control branch chain (6) comprises a control rod (61) slidably arranged in the control groove, the upper end of the control rod (61) is connected with the control frame (8), the lower end of the control rod (61) is provided with a control plate (62), a control spring (63) is arranged between the control plate (62) and the inner wall of the control groove, the lower end of the control plate (62) is uniformly provided with control blocks (64), and the control blocks (64) are located in the rectangular groove.

6. The building waste residue regeneration brick stacking device according to claim 5, wherein the locking branch chain (5) comprises a locking spring (51) arranged on the inner wall of the rectangular groove, a locking plate (52) is mounted on the locking spring (51), locking rods (53) are uniformly arranged on the locking plate (52), the locking rods (53) are slidably arranged in the locking holes, abutting rods (54) are uniformly arranged on the end face, deviating from the locking rods (53), of the locking plate (52), and the abutting rods (54) abut against the control block (64).

7. The stacking device for recycled building waste bricks, as claimed in claim 6, wherein the control block (64) is composed of a straight plate and a plurality of trapezoidal plates symmetrically arranged at the front and rear sides of the straight plate.

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