CN213111573U

CN213111573U - Green brick slicing device

Info

Publication number: CN213111573U
Application number: CN202021403359.0U
Authority: CN
Inventors: 傅锦强; 唐硕度
Original assignee: Guangxi Xingaosheng Thin Building Ceramics Co ltd
Current assignee: Guangxi Xingaosheng Thin Building Ceramics Co ltd
Priority date: 2020-07-16
Filing date: 2020-07-16
Publication date: 2021-05-04
Anticipated expiration: 2030-07-16

Abstract

The utility model discloses a green brick slicing device, which comprises a slicing conveying component and a slicing component, wherein the slicing component is detachably erected at the top of the slicing conveying component, and is positioned in the middle of the slicing conveying component; the slicing assembly comprises a slicing seat and a slicing mechanism, the slicing mechanism is arranged on the slicing seat in a liftable mode, and the slicing mechanism is located on one side, facing the feeding end of the slicing device, of the slicing seat. The green brick slicing device provided by the technical scheme is beneficial to improving the feeding speed of green bricks, so that the production efficiency of the green bricks can be effectively improved, the structure is simple and reasonable, and the defects in the prior art are overcome.

Description

Green brick slicing device

Technical Field

The utility model relates to a building ceramic production facility technical field especially relates to a burst device of adobe.

Background

The green brick is obtained by a polishing process after a finished green brick product is fired by a kiln system. However, since the polishing process is complicated and time-consuming, the polishing speed is far faster than the firing speed of the kiln system, and the low polishing speed directly affects the production efficiency of the green bricks.

The common practice of the current green brick manufacturers is to store the fired green brick finished products by using a brick rack and temporarily store the green brick finished products in a special workshop by using a forklift; when the brick needs to be polished, the brick pile is conveyed to the side of a polishing production line by a forklift, and then the finished brick products are put on the polishing production line one by one for polishing operation.

The existing operation method not only consumes a large amount of workshop space and wastes a large amount of labor cost, but also has low operation efficiency, high operation energy consumption and high labor intensity of workers, thereby causing the high or low production cost of enterprises. In light of these shortcomings, a more scientific, low-carbon, efficient and low-cost green brick feeding operation mode is highly expected to appear in the industry.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a burst device of adobe is favorable to improving the material loading speed of adobe to can effectively improve the production efficiency of adobe, simple structure is reasonable, in order to overcome the weak point among the prior art.

To achieve the purpose, the utility model adopts the following technical proposal:

a green brick slicing device comprises a slicing conveying component and a slicing component, wherein the slicing component is detachably erected at the top of the slicing conveying component, and the slicing component is positioned in the middle of the slicing conveying component;

the slicing assembly comprises a slicing seat and a slicing mechanism, the slicing mechanism is arranged on the slicing seat in a liftable mode, and the slicing mechanism is located on one side, facing the feeding end of the slicing device, of the slicing seat.

Preferably, the slicing mechanism comprises a guide seat and a baffle, the guide seat is fixedly mounted on the slicing seat, and the guide seat is positioned on one side of the slicing seat, which faces the feeding end of the slicing device; the baffle passes through the guide seat, and the baffle can slide along the guide seat in a lifting manner.

Preferably, the slicing assembly further comprises a driving mechanism, the driving mechanism is mounted at the top of the slicing seat 221, and is connected with the baffle plate, and the driving mechanism is used for driving the baffle plate to slide in the guide seat.

Preferably, the slicing assembly further comprises a locking mechanism, the locking mechanism is mounted on the outer side of the guide seat, and the locking mechanism is used for locking the baffle to slide in the guide seat.

Preferably, at least two groups of slicing mechanisms are arranged.

Preferably, the slicing and conveying assembly comprises a conveying frame, a conveying mechanism and an adjusting mechanism;

the conveying mechanism and the adjusting mechanism are both arranged at the top of the conveying frame, the conveying mechanism is used for conveying green bricks, and the adjusting mechanism is used for adjusting the distance between the conveying mechanisms.

Preferably, the conveying mechanism comprises an adjusting motor, a conveying shaft and a conveying belt, the output end of the adjusting motor is connected with the conveying shaft, the adjusting motor is used for driving the conveying shaft to roll and adjusting the rolling speed of the conveying shaft, the conveying belt surrounds the side wall of the conveying shaft, and the conveying belt is used for conveying green bricks.

Preferably, the conveying mechanism further comprises a tensioning mechanism, and the tensioning mechanism is used for adjusting the tightness degree of the conveying belt.

Preferably, two groups of conveying mechanisms are arranged;

the adjusting mechanism comprises an adjusting seat and an adjusting rod, the adjusting seat is installed on any one side of the conveying frame, the adjusting rod is connected between the adjusting seat and any one group of conveying mechanisms, the adjusting rod is connected with one end, connected with the adjusting seat, of the adjusting seat and penetrates through the adjusting seat, and the adjusting rod is used for adjusting the distance between the conveying mechanisms.

Preferably, the slicing and conveying assembly further comprises an in-place detection mechanism, the in-place detection mechanism is installed on two sides of the conveying frame, and the in-place detection mechanism is located on one side, facing the blanking end of the slicing device, of the slicing assembly.

The utility model has the advantages that: the green brick slicing device provided by the technical scheme is beneficial to improving the feeding speed of green bricks, so that the production efficiency of the green bricks can be effectively improved, the structure is simple and reasonable, and the defects in the prior art are overcome.

Drawings

The accompanying drawings are provided to further illustrate the present invention, but the content in the accompanying drawings does not constitute any limitation to the present invention.

Fig. 1 is a side view of the green brick slicing device of the present invention.

Fig. 2 is a schematic structural view of a green brick slicing device of the present invention.

Fig. 3 is a usage status diagram of the green brick slicing device of the present invention.

Wherein: the green brick separating and conveying device comprises a separating and conveying assembly 21, a conveying frame 211, a conveying mechanism 212, a conveying shaft 2121, a conveying belt 2122, an adjusting mechanism 213, an adjusting seat 2131, an adjusting rod 2132, a in-position detecting mechanism 214, a separating assembly 22, a separating seat 221, a separating mechanism 222, a guide seat 2221, a baffle 2222, a driving mechanism 223 and a green brick 4.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

A green brick slicing device comprises a slicing conveying assembly 21 and a slicing assembly 22, wherein the slicing assembly 22 is detachably erected at the top of the slicing conveying assembly 21, and the slicing assembly 22 is positioned in the middle of the slicing conveying assembly 21;

the slicing assembly 22 comprises a slicing seat 221 and a slicing mechanism 222, the slicing mechanism 222 is arranged on the slicing seat 221 in a lifting manner, and the slicing mechanism 222 is positioned on one side of the slicing seat 221, which faces the feeding end of the slicing device.

Because the polishing process is more complicated and time-consuming, the polishing speed is far faster than the firing speed of a kiln system, and the low polishing speed directly influences the production efficiency of the green bricks 4.

The common practice of the current green brick 4 manufacturers is to store the fired green brick finished products by using a brick rack and temporarily store the green brick finished products in a special workshop by using a forklift; when the brick needs to be polished, the brick pile is conveyed to the side of a polishing production line by a forklift, and then the finished brick products are put on the polishing production line one by one for polishing operation. The existing operation method not only consumes a large amount of workshop space and wastes a large amount of labor cost, but also has low operation efficiency, high operation energy consumption and high labor intensity of workers, thereby causing the high or low production cost of enterprises.

In light of these deficiencies, the technical scheme provides a green brick slicing device, which includes a slicing conveying assembly 21 and a slicing assembly 22, wherein the slicing assembly 22 is detachably erected on the top of the slicing conveying assembly 21, and the slicing assembly 22 is located in the middle of the slicing conveying assembly 21. The slicing conveyor assembly 21 is adapted to receive a stack of bricks and transport it to a side of the slicing assembly 22 adjacent the loading end of the slicing apparatus. When the green brick pile needs to be subjected to slicing processing, the slicing assembly 22 allows one green brick 4 to be conveyed to one side of the slicing assembly 22 close to the blanking end of the slicing device along with the slicing conveying assembly 21, and the rest green brick pile is blocked at one side close to the feeding end of the slicing device by the slicing assembly 22; when the previous green brick 4 is completely separated from the green brick pile, the next green brick 4 is allowed to be conveyed to one side of the slicing assembly 22 close to the discharging end of the slicing device along with the slicing conveying assembly 21, the rest green brick pile is blocked at one side close to the feeding end of the slicing device by the slicing assembly 22, and the like, so that the slicing processing of the green brick pile is completed. Further, because the slicing assembly 22 is detachably erected at the top of the slicing conveying assembly 21, slicing processing can be performed on any one existing conveying structure, and only the slicing assembly 22 needs to be installed on the existing conveying structure, so that the slicing processing can be completed, and the slicing processing device is reliable in performance, convenient and fast.

The existing feeding device generally puts the green bricks 4 on a production line one by workers and then carries out subsequent processing, so that the feeding speed of a green brick pile is greatly influenced by the way of feeding the green bricks one by one, the technical scheme provides the green brick slicing device, when the green bricks 4 are fed to a slicing mechanism, the green brick pile formed by stacking one green brick 4 can be put at the feeding end of the slicing mechanism, and then the green bricks 4 of the green brick pile are divided into one green brick pile by the matching of the slicing conveying assembly 21 and the slicing assembly 22 to carry out the subsequent processing, thereby being beneficial to replacing the way of feeding the green bricks 4 one by one and effectively improving the feeding efficiency of the green bricks 4.

More specifically, the slicing assembly 22 includes a slicing seat 221 and a slicing mechanism 222, the slicing mechanism 222 is liftably mounted on the slicing seat 221, and the slicing mechanism 222 is located on a side of the slicing seat 221 facing the feeding end of the slicing device. When the green brick pile fed to the slicing device needs to be sliced, the slicing mechanism 222 descends until only a height allowing one green brick 4 to pass through is left between the slicing assembly 22 and the slicing conveying assembly 21, at the moment, one green brick 4 at the bottom of the green brick pile is driven by the slicing conveying assembly 22 to be conveyed to the discharging end of the slicing device, and the rest green brick pile is blocked at the feeding end of the slicing device; and when the previous green brick 4 is completely separated from the bottom of the green brick pile, the green brick pile integrally moves downwards, so that the green brick 4 positioned at the bottom of the green brick pile is contacted with the slicing conveying assembly 1, then the next green brick 4 is conveyed to the blanking end of the slicing device along with the slicing conveying assembly 21, the rest green brick pile is blocked at the feeding end of the slicing device by the slicing assembly 22, and the like, and the slicing processing of the green brick pile is completed.

According to the technical scheme, the lifting slicing mechanism 222 is used for completely slicing the green brick pile, the structure is simple, convenience and rapidness are realized, the mode of feeding green bricks 4 piece by piece is favorably replaced, and the feeding efficiency of the green bricks 4 is effectively improved.

More specifically, the slicing mechanism 222 includes a guide seat 2221 and a baffle 2222, the guide seat 2221 is fixedly mounted on the slicing seat 221, and the guide seat 2221 is located on a side of the slicing seat 221 facing the feeding end of the slicing device; the baffle 2222 passes through the guide holder 2221, and the baffle 2222 can slide along the guide holder 2221 in a liftable manner.

Further, the slicing mechanism 222 of the present technical solution includes a guide holder 2221 and a baffle 2222, the baffle 2222 passes through the guide holder 2221, and the baffle 2222 slides along the guide holder 2221 with being able to lift, which is beneficial to improving the stability of the lifting of the baffle 2222, thereby further improving the slicing effectiveness of the slicing mechanism 222.

More specifically, the slicing assembly 22 further includes a driving mechanism 223, the driving mechanism 223 is mounted on the top of the slicing seat 221, the driving mechanism 223 is connected to the blocking plate 2222, and the driving mechanism 223 is configured to drive the blocking plate 2222 to slide in the guide seat 2221.

In an embodiment of the present technical solution, the slicing assembly 22 further includes a driving mechanism 223, the driving mechanism 223 is installed on the top of the slicing seat 221, the driving mechanism 223 is connected with the baffle 2222, the driving mechanism 223 is used for driving the baffle 2222 to ascend and descend, and the slicing assembly 22 is compact in structure, which is beneficial to saving the occupied space of the slicing device.

Preferably, the driving mechanism 223 may be any one of a driving cylinder and a driving motor.

More specifically, the slicing assembly 22 further comprises a locking mechanism, which is installed on the outer side of the guiding seat 2221, and the locking mechanism is used for locking the sliding of the baffle 2222 in the guiding seat 2221.

In another embodiment of the present invention, the slicing assembly 22 further comprises a locking mechanism (not shown) installed outside the guiding seat 2221, and the locking mechanism can be used to lock the sliding of the stop plate 2222 in the guiding seat 2221. The baffle 2222 in this technical scheme can also descend the height through manual control, when descending to suitable height, utilize locking mechanism to lock baffle 2222 to ensure the validity that baffle 2222 blockked, be favorable to guaranteeing the normal clear of burst processing.

Preferably, the locking mechanism can be a locking collar, a locking bolt, and the like.

More specifically, at least two sets of the slicing mechanisms 222 are provided.

The slicing mechanism 222 in the technical scheme is provided with at least two groups, which is beneficial to further improving the slicing effectiveness.

To explain further, the slice conveying assembly 21 includes a conveying frame 211, a conveying mechanism 212 and an adjusting mechanism 213;

the conveying mechanism 212 and the adjusting mechanism 213 are both mounted at the top of the conveying frame 211, the conveying mechanism 212 is used for conveying green bricks 4, and the adjusting mechanism 213 is used for adjusting the distance between the conveying mechanisms 212.

The slicing conveying assembly 21 in the technical scheme comprises a conveying frame 211, a conveying mechanism 212 and an adjusting mechanism 213, wherein the conveying mechanism 212 and the adjusting mechanism 213 are both installed at the top of the conveying frame 211, the conveying mechanism 212 is used for conveying green bricks 4, and the adjusting mechanism 213 is used for adjusting the distance between the conveying mechanisms 212, so that the distance between the conveying mechanisms 212 can be adjusted according to the size of the green bricks 4, and the green bricks 4 can be stably conveyed on the conveying mechanism 212.

Preferably, the conveying mechanism 212 may be any one of a conveying belt and a conveying roller.

More specifically, the conveying mechanism 212 includes an adjusting motor, a conveying shaft 2121 and a conveying belt 2122, an output end of the adjusting motor is connected to the conveying shaft 2121, the adjusting motor is used for driving the conveying shaft 2121 to roll and adjusting a rolling speed of the conveying shaft 2121, the conveying belt 2122 surrounds a side wall of the conveying shaft 2121, and the conveying belt 2122 is used for conveying the green bricks 4.

Because the slicing mechanism of the slicing device in the technical scheme allows one green brick 4 to be conveyed to one side of the slicing assembly 22 close to the blanking end of the slicing device along with the slicing conveying assembly 21, the rest green brick pile is blocked at one side close to the feeding end of the slicing device by the slicing assembly 22, and the slicing speed and the slicing effect can be influenced without green bricks 4 with different sizes and weights.

In order to ensure that the brick stack is sliced effectively and avoid the damage of the brick stack, the conveying mechanism 212 in the present technical solution includes an adjusting motor (not shown), a conveying shaft 2121 and a conveying belt 2122, and the adjusting motor can adjust the rolling speed of the conveying shaft 2121, so as to adjust the brick moving speed of the conveying belt 2122, thereby ensuring that the brick 4 is smoothly and effectively sliced on the conveying mechanism 212.

More specifically, the conveying mechanism 212 further includes a tensioning mechanism for adjusting the tightness of the conveying belt 2122.

This technical scheme's conveying mechanism 212 still includes straining device (not shown in the figure), straining device is used for adjusting the elasticity degree of conveyer belt 2122, ensures that conveyer belt 2122 can play the antiskid to adobe 4 bottom, is favorable to guaranteeing on the one hand that adobe 4 carries according to certain interval, and on the other hand when the piecemeal device allows a piece of adobe 4 to carry to the one side that piece subassembly 22 is close to piece device unloading end along with piece conveying component 21, is favorable to ensuring that adobe 4 with conveyer belt 2122 contact transports forward and breaks away from the brick pile along with piece conveying component 21.

More specifically, the conveying mechanisms 212 are provided in two groups;

the adjusting mechanism 213 comprises an adjusting seat 2131 and an adjusting rod 2132, the adjusting seat 2131 is installed on any side of the conveying frame 211, the adjusting rod 2132 is connected between the adjusting seat 2131 and any group of the conveying mechanisms 212, one end of the adjusting rod 2132 connected with the adjusting seat 2131 penetrates through the adjusting seat 2131, and the adjusting rod 2132 is used for adjusting the distance between two groups of the conveying mechanisms 212.

The adjusting mechanism in the technical scheme comprises an adjusting seat 2131 and an adjusting rod 2132, wherein the adjusting rod 2132 is connected between the adjusting seat 2131 and the conveying mechanisms 212, and the adjusting rod 2132 is used for adjusting the distance between the two groups of conveying mechanisms 212. When the slicing device needs to slice green bricks 4 with different sizes, the distance between the two groups of conveying mechanisms 212 can be adjusted according to the sizes of the green bricks, so that the green bricks 4 can stably run on the conveying mechanisms 212.

Because the end of the adjusting rod 2132 connected with the adjusting seat 2131 penetrates through the adjusting seat 2131, when the gap of the conveying mechanism 212 of the adjusting seat 2131 needs to be adjusted, the distance between the conveying mechanisms 212 can be adjusted through the end of the adjusting rod 2132 penetrating through the adjusting seat 2131, and the adjusting mechanism is convenient and quick.

More specifically, the slicing conveying assembly 21 further includes an in-position detecting mechanism 214, the in-position detecting mechanism 214 is installed at two sides of the conveying frame 211, and the in-position detecting mechanism 214 is located at a side of the slicing assembly 22 facing the feeding end of the slicing apparatus.

In an embodiment of the present disclosure, the slicing conveying assembly 21 further includes an in-position detecting mechanism 214, the in-position detecting mechanism 214 is installed at two sides of the conveying frame 211, and the in-position detecting mechanism 224 is located at a discharging end of the slicing apparatus. The in-place detection mechanism 214 in the present technical solution can be used for detecting whether the green bricks 4 are in place or detecting whether the green bricks 4 are normally sliced. When the in-position detection mechanism 214 detects an anomaly, the worker may be notified to make adjustments to the tile assembly 22 to ensure the effectiveness of the green tile 4 splitting.

Preferably, the in-position detection mechanism 214 may be an infrared detector.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.

Claims

1. The utility model provides a burst device of adobe which characterized in that: the slicing device comprises a slicing conveying component and a slicing component, wherein the slicing component is detachably erected at the top of the slicing conveying component and is positioned in the middle of the slicing conveying component;

2. The green brick slicing device according to claim 1, wherein: the slicing mechanism comprises a guide seat and a baffle, the guide seat is fixedly arranged on the slicing seat, and the guide seat is positioned on one side of the slicing seat, which faces the feeding end of the slicing device; the baffle passes through the guide seat, and the baffle can slide along the guide seat in a lifting manner.

3. The green brick slicing device according to claim 2, wherein: the slicing assembly further comprises a driving mechanism, the driving mechanism is installed at the top of the slicing seat and connected with the baffle, and the driving mechanism is used for driving the baffle to slide in the guide seat.

4. The green brick slicing device according to claim 2, wherein: the slicing assembly further comprises a locking mechanism, the locking mechanism is installed on the outer side of the guide seat, and the locking mechanism is used for locking the baffle to slide in the guide seat.

5. The green brick slicing device according to claim 2, wherein: the slicing mechanism is at least provided with two groups.

6. The green brick slicing device according to claim 1, wherein: the slicing conveying assembly comprises a conveying frame, a conveying mechanism and an adjusting mechanism;

7. The green brick slicing device according to claim 6, wherein: the conveying mechanism comprises an adjusting motor, a conveying shaft and a conveying belt, the output end of the adjusting motor is connected with the conveying shaft, the adjusting motor is used for driving the conveying shaft to roll and adjusting the rolling speed of the conveying shaft, the conveying belt surrounds the side wall of the conveying shaft, and the conveying belt is used for conveying green bricks.

8. The green brick slicing device according to claim 7, wherein: the conveying mechanism further comprises a tensioning mechanism, and the tensioning mechanism is used for adjusting the tightness degree of the conveying belt.

9. The green brick slicing device according to claim 7, wherein: two groups of conveying mechanisms are arranged;

10. The green brick slicing device according to claim 7, wherein: the slicing and conveying assembly further comprises in-place detection mechanisms, the in-place detection mechanisms are installed on two sides of the conveying frame, and the in-place detection mechanisms are located on one side, facing the blanking end of the slicing device, of the slicing assembly.