CN212374298U - Man-machine cooperation type brick unloading marshalling device for baked bricks - Google Patents

Abstract

The utility model discloses a baked brick man-machine cooperation type brick unloading marshalling device, which comprises a lifting function component and a conveying marshalling function component, wherein the lifting function component is arranged below the conveying marshalling function component and is used for controlling the conveying marshalling function component to lift; the conveying and grouping function component comprises a conveying and grouping device and a brick unloading platform which is fixed at the side part of the conveying and grouping device and can be used for standing and unloading brick workers, wherein an indicating area for arranging bricks in a standard mode is arranged on the surface of the conveying and grouping device, and a whole layer of green bricks to be stacked are just formed after finished sintered bricks are stacked in the indicating area according to requirements. The utility model discloses can make and unload that brick workman is high-efficient, comfortable unloads the brick operation, simplify the marshalling process simultaneously, improve production efficiency.

Description

Man-machine cooperation type brick unloading marshalling device for baked bricks

Technical Field

The utility model belongs to the technical field of the semi-automatic brick of unloading of baked brick, specific baked brick man-machine collaborative unloads brick marshalling device that says so.

Background

The sintered brick is used as a wall material with wide application, has huge consumption, has wide market in China, and keeps vigorous demand on package of the sintered brick after brick unloading along with the increase of the demand of a sintered brick factory on the package and transportation of brick piles. The common brick unloading method in the current market comprises the following steps: the brick unloading machine has the advantages that manual brick unloading, semi-automatic brick unloading and full-automatic mechanical brick unloading are adopted, the semi-automatic brick unloading technology combining manual operation and machines is adopted, the adaptability is good, the labor efficiency of brick unloading workers can be properly improved, and the cost is relatively low, so that the brick unloading machine occupies a huge market share.

At present, semi-automatic brick unloading technologies adopted in the industry mainly comprise two types: the first is a hanging basket type semi-automatic brick unloading technology, and the second is a chain (plate link chain) type semi-automatic brick unloading technology for conveying, grouping and stacking. The above two semi-automatic brick unloading technologies unload the brick operation through the manual work, when the work operation, because the finished product sintered brick base is put highly and reaches 1.6 meters to 2.0 meters usually after going out the kiln, the brick unloading workman will stand on tiptoe or foot and step on other objects and ascend a height and lift the arm and unload the brick when unloading upper portion finished product sintered brick base usually, the brick unloading action is not conform to the human-computer engineering, cause personnel's fatigue easily and increased the working strength of unloading the brick, thereby the brick unloading efficiency has been seriously influenced. On the other hand, in the grouping process after brick unloading, the above two semi-automatic brick unloading technologies usually adopt corner type grouping conveying or brick dividing type grouping to realize grouping of finished sintered bricks to meet the requirement of stacking, and the whole grouping process is complex and has poor adaptability to broken bricks. Therefore, it is necessary to develop a man-machine cooperation type brick unloading method for semi-automatic brick unloading and quick grouping of the baked bricks.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: the utility model provides a baked brick man-machine cooperation formula brick marshalling device that unloads is provided, can make the brick unloading workman high-efficient, comfortable unload the brick operation, simplifies the marshalling process simultaneously, reduction in production cost improves work efficiency.

In order to realize the purpose, the utility model discloses a technical scheme is:

a man-machine cooperation type baked brick unloading and grouping device comprises a conveying and grouping device for conveying and grouping baked bricks, wherein a brick unloading platform is fixed on the side part of the conveying and grouping device, which is close to a brick placing function area; the brick unloading and grouping steps are as follows:

the first step is as follows: the finished sintered adobes after being taken out of the kiln reach the vicinity of the brick unloading platform, the brick unloading workers stand on the brick unloading platform, and the lifting functional assembly below the conveying and grouping device drives the conveying and grouping device and the brick unloading platform to synchronously ascend first and then descend gradually, so that the brick unloading workers always keep comfortable brick unloading height to clamp the finished sintered adobes after being taken out of the kiln;

the second step is that: a brick unloading worker places the clamped finished sintered bricks in an indication area on the conveying and grouping device in a single layer, and just forms a whole layer of green bricks to be stacked after the finished sintered bricks are stacked in the indication area as required;

the third step: finished product baked bricks in the indication areas are conveyed to the brick alignment function areas along with a conveying body of the conveying grouping device, and the brick alignment device sequentially carries out single joint elimination and alignment synchronous operation on the finished product baked bricks in each indication area;

the fourth step: and orderly finished sintered bricks are transmitted to a brick clamping functional area by the conveying body and are clamped by the stacking clamp, and accordingly the brick unloading and grouping work is completed.

Furthermore, a plurality of strip-shaped barrier strips are fixed on the outer surface of the conveying body of the conveying grouping device at equal intervals along the conveying direction, the length direction of the barrier strips is perpendicular to the conveying direction of the conveying body, and the accommodating space between two adjacent barrier strips on the conveying body is the indicating area.

Furthermore, an auxiliary line parallel to the barrier strips is printed between every two adjacent barrier strips, the distance between every two barrier strips just meets the requirement of placing a green brick of a forklift hole layer to be stacked, and the distance between the auxiliary line and one of the barrier strips just meets the requirement of placing a whole layer of green brick to be stacked.

Furthermore, longitudinal flanges are respectively arranged on the two sides of the conveying body on the rack of the conveying and grouping device, and the heights of the barrier strips and the flanges are set according to the size of the sintered bricks, so that finished sintered bricks can be separated, and the brick aligning device and the stacking clamp can be conveniently operated.

Furthermore, a plurality of parallel indicating lines are printed on the outer surface of the conveying body of the conveying grouping device side by side, two adjacent indicating lines form a group to jointly form an indicating area for arranging bricks in a standard mode, and a gap is reserved between every two adjacent indicating areas.

Furthermore, an auxiliary line parallel to the indicating line is printed in each indicating area, the distance between each group of indicating lines just meets the requirement of placing a green brick of a forklift hole layer to be stacked, and the distance between the auxiliary line in each indicating area and one indicating line just meets the requirement of placing a whole layer of green brick to be stacked.

Furthermore, a plurality of grids are uniformly printed in each indication area, and the size of each grid is the same as that of the placement surface of a single baked brick, so that a brick unloading worker can be guided to place a finished baked brick in the designated area.

Furthermore, the lifting functional components are arranged at two ends or the left side and the right side of the conveying and grouping device in pairs, and after the conveying and grouping device is lifted by the lifting functional components, a smooth space for the finished sintered green bricks to pass through after being discharged from the kiln can be formed below the conveying and grouping device.

Further, the conveying and grouping device is arranged perpendicular to or parallel to the sintering brick kiln lane, and the conveying and grouping device is set into one group or multiple groups arranged in parallel.

Furthermore, when the conveying and weaving devices are arranged into a plurality of groups, the conveying and weaving devices share one set of lifting function components to lift, or the conveying and weaving devices are controlled to lift by the respective independent lifting function components.

Further, the conveying bodies on the conveying marshalling group do stepping circulation movement.

A man-machine cooperation type baked brick unloading and grouping device comprises a conveying and grouping device for conveying and grouping baked bricks, wherein a brick unloading platform capable of standing and unloading brick workers is fixed on the side part of the conveying and grouping device, which is close to a brick placing functional area; a lifting function component is arranged below the conveying and organizing device and drives the conveying and organizing device and the brick unloading platform to synchronously ascend and then descend one by one, so that brick unloading workers always keep comfortable brick unloading height to clamp finished sintered brick blanks discharged from the kiln; a plurality of indicating areas for standardizing brick arrangement are arranged on the conveying grouping device side by side along the conveying direction of the conveying grouping device, and a whole layer of green bricks to be stacked are just formed after finished sintered bricks are stacked in the indicating areas according to requirements; and the middle part of the conveying marshalling device is provided with a brick aligning device which is used for synchronously performing single seam elimination and alignment on the finished sintered bricks in each indication area.

The utility model discloses the beneficial effect who brings does:

(1) the utility model solves the problems of high labor intensity and easy fatigue of personnel in manual brick unloading by reducing the height difference between the brick unloading workers and finished sintered green bricks discharged from the kiln, so that the brick unloading workers can efficiently and comfortably unload bricks, and the single brick unloading time of the brick unloading workers is shortened; the brick unloading method obviously improves the brick unloading efficiency, increases the brick unloading yield and highlights the man-machine cooperation interaction function.

(2) The surface of the conveying marshalling device is provided with a brick placing indication area, and an indication line or a frame can be used as a brick placing reference for a brick unloading worker to guide the brick unloading worker to quickly and normally place a finished sintered brick in a specified area; finished sintered bricks placed in each indication area are directly a whole layer to be stacked, so that a brick dividing link in the original semi-automatic brick unloading technology is omitted, and the process of seam elimination for many times is simplified. The utility model discloses a marshalling method only needs to carry out one time neat brick crack elimination to the finished product baked brick in every instruction zone, can accomplish the marshalling operation of adobe, has simplified whole marshalling process greatly, has realized the swift marshalling of finished product baked brick, has improved work efficiency, has reduced the input and the maintenance cost of carrying marshalling device.

(3) After the conveying and grouping functional components are lifted by the lifting functional components, a smooth space can be formed below the conveying and grouping functional components, so that 1.6-2 m of finished sintered brick blanks after being discharged from a kiln can be conveniently conveyed from the lower part of the whole equipment, and then a plurality of groups or a certain group of conveying and grouping functional components can be conveniently selected to carry out brick unloading and grouping operation as required, the brick unloading equipment is prevented from blocking the operation of the whole production process line, and the problem that the sintered bricks are not smooth when being discharged from the kiln when the production capacity is large is effectively solved; in addition, the method can avoid the time delay of construction period events caused by faults of single conveying and grouping lines. The brick unloading and grouping device is flexible and convenient to operate, high in production efficiency and strong in technological adaptability.

(4) The utility model discloses be applicable to simultaneously there are two kinds of buttress types in fork truck hole and no fork truck hole. Through printing the auxiliary line ingeniously in the instruction zone, be convenient for put the brick workman and accurately put the whole layer adobe on fork truck porose layer and conventional layer, with low costs, the practicality is strong.

(5) The utility model discloses well finished product baked brick is along with carrying marshalling device to be marching type's cyclic motion, is convenient for unload the brick workman and accomplishes required brick work of unloading, carries marshalling device to carry finished product baked brick to the double-layered brick station of follow-up pile up neatly to satisfy finished product baked brick's follow-up pile up neatly function, whole method is simple, high-efficient, the broken brick adaptability is good.

Drawings

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

FIG. 2 is a schematic view of a brick unloading worker at different positions for unloading bricks in a first embodiment of the present invention;

fig. 3 is a top view of a first embodiment of the present invention;

fig. 4 is a schematic structural diagram of a second embodiment of the present invention;

fig. 5 is a plan view of a second embodiment of the present invention;

FIG. 6 is a schematic view of the finished sintered green bricks after being discharged from the kiln of the present invention passing under the conveying and grouping device.

Reference numerals: 1. the device comprises a lifting functional component 101, a lifting power mechanism 102, a lifting device 2, a conveying and grouping functional component 201, a conveying and grouping device 20101, a barrier strip 202, a brick unloading platform 3, a brick unloading worker 4, a finished sintered brick blank after being discharged from a kiln 5 and a finished sintered brick.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Example one

Referring to fig. 1 to 3, a baked brick man-machine cooperation type brick unloading and grouping device comprises a lifting functional assembly 1 and a plurality of groups of conveying and grouping functional assemblies 2. The lifting functional assembly 1 is arranged below the conveying marshalling functional assembly 2 and is used for controlling the conveying marshalling functional assembly 2 to lift. The plurality of groups of conveying and marshalling functional components 2 are arranged in parallel with the sintering brick kiln lane.

The lifting functional assembly 1 comprises a lifting power mechanism 101 and a lifting device 102. The lifting functional assemblies 1 are distributed on the left side and the right side of the conveying direction of the conveying grouping functional assembly 2 in pairs, and two corresponding lifting devices 102 are spanned with supporting parts for supporting the conveying grouping device 201. As shown in fig. 6, after the lifting functional assembly 1 lifts the plurality of groups of conveying and grouping functional assemblies 2, a smooth space is formed below the conveying and grouping functional assemblies 2, so that finished sintered bricks 4 discharged from the kiln can pass through the space, and the finished sintered bricks 4 discharged from the kiln can be conveniently transported on a sintered brick kiln lane for a longer distance, so that a certain group of conveying and grouping functional assemblies 2 can be flexibly selected for brick unloading, and the process adaptability is strong.

The lifting power mechanism 101 can be in lifting modes such as hydraulic lifting, steel wire rope lifting, chain lifting and the like. The multiple groups of conveying and marshalling functional components 2 can share one set of lifting functional component 1 for lifting, and each group of conveying and marshalling functional components 2 can be provided with an independent lifting functional component 1, and each group can independently control the lifting.

The conveying marshalling function assembly 2 comprises a conveying marshalling device 201 and a brick unloading platform 202 which is fixed at the side part of the conveying marshalling device 201 and can be used for a brick unloading worker to stand, wherein the brick unloading platform 202 is close to the brick placing function area, and the brick unloading worker 3 can conveniently unload bricks.

The conveying and grouping device 201 comprises a rack and a conveying body arranged on the rack and used for carrying out closed-loop operation, a plurality of strip-shaped barrier strips 20101 are fixed on the outer surface of the conveying body at equal intervals along the conveying direction, the length direction of the barrier strips 20101 is perpendicular to the conveying direction of the conveying body, the accommodating space between every two adjacent barrier strips on the conveying body is an indication area, and after sintered bricks are placed in the indication area as required, a whole layer of green bricks to be stacked are directly formed. In particular, the distance between the two bars 20101 may be slightly greater than the length of the side of a whole layer of adobes to be shaped into a stack. Through the guide of the indication area, the brick placing device is more beneficial to the brick unloading worker to quickly and normally place bricks.

Preferably, an auxiliary line parallel to the barrier strip can be printed between every two adjacent barrier strips 20101, and at this time, the distance between every two adjacent barrier strips 20101 needs to meet the requirement of placing a brick blank of a forklift hole layer to be subjected to stacking; the distance of the auxiliary line from one of the bars 20101 is just sufficient for placing the entire layer of adobes that will make up the regular layer of the shape of the pile. The mode is convenient for quickly marshalling the adobes of the hole layers of the forklift and meets the market demand.

In addition, the machine frame of the conveying and grouping device 201 is positioned on two sides of the conveying body and is respectively provided with longitudinal flanges, the flanges and the plurality of barrier strips 20101 jointly enclose a square frame, the square frame is an indication area, and a brick unloading worker can conveniently and quickly stack single-layer green bricks with required sizes. The heights of the barrier strips 20101 and the barriers are set according to the size of the sintered brick, so that finished sintered bricks 5 can be separated, and a brick aligning device and a stacking clamp can be conveniently operated.

The transmission body can be selected from flexible transmission bodies such as belts, plate chains, chains and the like, the transmission body is driven by a stepping motor to do stepping type circular motion, and the barrier strips 20101 also do stepping type circular motion. The conveying grouping device 201 conveys the finished baked bricks 5 to a brick clamping station for subsequent stacking so as to meet the subsequent stacking function of the finished baked bricks 5.

The middle part of the conveying marshalling device 201 is a brick aligning function area, the brick aligning function area is provided with a brick aligning device, the brick aligning device is provided with a brick aligning frame, a baffle which moves under the driving of an air cylinder is arranged on the brick aligning frame, and the baffle arranges the finished sintered bricks 5 according to an appointed track to complete seam elimination and alignment operations. The ordered finished baked bricks 5 are then transported to a brick clamping function area and clamped by a palletizing jig for subsequent palletizing operations. What differs from the existing semi-automatic brick-unloading marshalling technology is that the utility model discloses a neat brick device only needs to once eliminate seam, align the operation to finished product baked brick 5, neat brick process convenient and fast has simplified whole marshalling technology.

The utility model discloses in a baked brick man-machine cooperation formula brick marshalling method of unloading, concrete step is as follows:

the first step is as follows: the finished sintered adobe 4 after leaving the kiln reaches near the brick unloading platform 202, the brick unloading worker 3 stands on the brick unloading platform 202, the lifting functional component 1 below the conveying and grouping device drives the conveying and grouping device 201 and the brick unloading platform 202 to synchronously ascend first and then descend gradually, so that the brick unloading worker 3 always keeps a comfortable brick unloading height to clamp the finished sintered adobe 4 after leaving the kiln.

The second step is that: the brick unloading worker 3 places the clamped finished baked bricks 5 in a single layer in the indication area of the conveying and grouping device 201, namely between every two barrier strips 20101, so that the finished baked bricks 5 are placed in each frame, and a whole layer of green bricks to be stacked are formed.

If the stack type non-forklift holes are to be realized, stacking can be directly carried out according to a set indication area; if there is fork truck porose layer in the buttress type that will realize, then the instruction district sets up according to the adobe area of fork truck porose layer, adds the seal auxiliary line in the instruction district as guiding, and the whole layer adobe on conventional layer is put in the great region between auxiliary line and blend stop as required, and fork truck porose adobe is put between two blend stops as required.

The third step: finished product baked bricks 5 in the indication areas are conveyed to the brick alignment function areas along with the conveying body of the conveying grouping device 201, and the brick alignment device sequentially carries out single joint elimination and alignment synchronous operation on the finished product baked bricks 5 in each indication area to finish the arrangement work of the whole layer of green bricks.

The fourth step: the regular finished sintered bricks 5 are transmitted to the brick clamping functional area by the conveying body, and are clamped and stacked into a brick pile by the stacking clamp, so that the brick unloading and grouping work is completed.

The steps are continuous and uninterrupted in the implementation process. Through the whole operation process, a good man-machine cooperation working mode is established for the brick unloading workers 3, the conveying and grouping device assembly 2 and the finished sintered brick blanks 4 after being taken out of the kiln.

Example two

As shown in fig. 4 and 5, a brick unloading and grouping device for the brick sintering machine cooperation type is different from the first embodiment in that: the conveying and grouping device 201 is perpendicular to the sintering brick kiln lane, and the conveying and grouping device 201 is provided as a group. The lifting functional components 1 are arranged at two ends of the conveying marshalling device 201, and after the conveying marshalling functional components 2 are lifted, finished sintered green bricks 4 discharged from the kiln can pass through the lower parts of the conveying marshalling functional components 2.

Of course, the conveying/grouping device 201 may be provided in two or more sets side by side. A space is left between two adjacent groups, and the conveying marshalling device 201 of each group is controlled to lift by the independent lifting functional component 1. When one group of the conveying and grouping devices 201 has faults, the finished sintered brick blanks 4 after being discharged from the kiln can be conveyed to other conveying and grouping devices 201 without influencing brick discharging and grouping work. The method is also suitable for the situation that when the production capacity is large, a plurality of groups of conveying marshalling devices 201 need to work simultaneously.

EXAMPLE III

A brick unloading and grouping device for the man-machine cooperation type of baked bricks is different from the first embodiment and the second embodiment in that: the indication area is realized by an indication line printed on the outer surface of the conveyor. When the stacking type brick arranging device is specifically implemented, a plurality of parallel indicating lines are printed on the outer surface of the conveyor side by side, two adjacent indicating lines form a group and jointly form an indicating area for arranging bricks in a standard mode, the area of each indicating area is the area of a whole layer of green bricks to be stacked, a gap is reserved between every two adjacent indicating areas, and the stacking type brick arranging device and the stacking clamp are convenient to operate. Of course, both sides of the conveying body can also be provided with flanges or longitudinal indicating lines to form a square indicating area for guiding the brick unloading worker 3 to regularly swing bricks.

During specific implementation, a plurality of grids can be uniformly printed in each indication area, and the size of each grid is the same as that of the placement surface of a single baked brick, so that the brick unloading workers 3 can be guided to place the finished baked bricks 5 in the designated areas more conveniently. After the sintered bricks are placed in the indication area, a whole layer of green bricks to be stacked are formed, the placing process is rapid, standard and orderly, and the grouping efficiency is improved.

Preferably, each indicator region may also be printed with an auxiliary line parallel to the indicator line to accommodate the stack type in which the forklift aperture layer is present. At the moment, the distance between each group of indicating lines is set according to the area of the adobe of the forklift hole layer, and the indicating area can just place the adobe of the forklift hole layer to be stacked; the distance between the auxiliary line and one of the indicating lines in each indicating area is just enough for placing the whole layer of green bricks of the conventional layer to realize the stacking shape.

The utility model discloses a thereby lifting unit 1's lifting power unit 101 drive elevating gear 102 makes carry marshalling device subassembly 2 to rise, descending motion, and then carries and reduces and unloads brick workman 3 and go out kiln back finished product sintered brick base 4 and put the difference in height between the height, lets unload brick workman 3 and remain throughout in accord with the ergonomics and more comfortable brick height of unloading. When the finished sintered bricks 4 after being taken out of the kiln reach the working area of the brick unloading workers 3, the conveying marshalling device 201 and the brick unloading workers 3 ascend and then descend gradually, so that the brick unloading workers 3 place and stack the finished sintered bricks 5 after being taken out of the kiln on the upper surface of the conveying marshalling device 201 from high to low.

The surface of the conveying marshalling device is provided with a brick placing indication area for guiding a brick unloading worker to quickly and normally place the finished sintered bricks in a specified area; finished sintered bricks placed in each indication area are directly a whole layer to be stacked, so that marshalling operation of green bricks can be completed only by one-time brick alignment and seam elimination, the whole marshalling procedure is greatly simplified, quick marshalling of the finished sintered bricks is realized, and the working efficiency is improved.

It should be understood that the structure, ratio, size and the like shown in the drawings of the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by those skilled in the art, and are not used for limiting the limit conditions that the present invention can be implemented, so that the present invention has no technical essential meaning, and any modification of the structure, change of the ratio relationship or adjustment of the size should still fall within the scope that the technical content disclosed in the present invention can cover without affecting the efficacy and the achievable purpose of the present invention.

As mentioned above, only the preferred embodiments of the present invention have been shown, and it will be apparent to those skilled in the art that various improvements and modifications can be made without departing from the principles of the present invention, and these improvements and modifications should be considered as the protection scope of the present invention.

Claims (11)

1. The utility model provides a baked brick man-machine cooperation formula unloads brick marshalling device which characterized in that: the brick conveying and grouping device comprises a conveying and grouping device (201) for conveying and grouping the baked bricks, wherein a brick unloading platform (202) capable of standing and unloading a brick worker (3) is fixed on the side part of the conveying and grouping device (201) close to a brick arranging functional area;

a lifting functional component (1) is arranged below the conveying marshalling device (201), the lifting functional component (1) drives the conveying marshalling device (201) and the brick unloading platform (202) to synchronously ascend firstly and then descend gradually, so that brick unloading workers (3) always keep comfortable brick unloading height to clamp finished sintered brick blanks (4) discharged from the kiln;

a plurality of indicating areas for standardizing brick arrangement are arranged on the conveying grouping device (201) side by side along the conveying direction of the conveying grouping device, and a whole layer of green bricks to be stacked are just formed after finished sintered bricks (5) are stacked in the indicating areas according to requirements;

the middle part of the conveying grouping device (201) is provided with a brick aligning device which is used for synchronously performing single seam elimination and alignment on the finished sintered bricks (5) in each indication area.

2. The set of claim 1, wherein the set of bricks comprises: a plurality of strip-shaped barrier strips (20101) are fixed on the outer surface of a conveying body of the conveying grouping device (201) at equal intervals along the conveying direction, the length direction of each barrier strip (20101) is perpendicular to the conveying direction of the conveying body, and the accommodating space between every two adjacent barrier strips on the conveying body is the indicating area.

3. The set of bricks as claimed in claim 2, wherein: an auxiliary line parallel to the barrier strips is printed between every two adjacent barrier strips (20101), the distance between every two barrier strips (20101) just meets the requirement of placing a whole layer of green bricks of a forklift hole layer to be stacked, and the distance between the auxiliary line and one barrier strip (20101) just meets the requirement of placing a whole layer of green bricks to be stacked.

4. A set of bricks to be fired according to claim 3, wherein: longitudinal flanges are respectively arranged on the two sides of the conveying body on the rack of the conveying marshalling device (201), and the heights of the barrier strips (20101) and the flanges are set according to the size of the baked bricks, so that finished baked bricks (5) can be separated, and the operation of a brick aligning device and a stacking clamp is facilitated.

5. The set of claim 1, wherein the set of bricks comprises: a plurality of parallel indicating lines are printed on the outer surface of the conveying body of the conveying grouping device (201) side by side, two adjacent indicating lines form a group to jointly form an indicating area for arranging bricks regularly, and a gap is reserved between every two adjacent indicating areas.

6. A set of bricks for firing bricks man-machine cooperation type as claimed in claim 5, wherein: an auxiliary line parallel to the indicating line is printed in each indicating area, the distance between each group of indicating lines just meets the requirement of placing a whole layer of green bricks of a forklift hole layer to be stacked, and the distance between the auxiliary line and one indicating line in each indicating area just meets the requirement of placing a whole layer of green bricks to be stacked.

7. A set of bricks as set forth in any one of claims 1 to 6, wherein: a plurality of grids are uniformly printed in each indication area, the size of each grid is the same as that of the placement surface of a single baked brick, and the grids are used for guiding a brick unloading worker (3) to place a finished baked brick (5) in a designated area.

8. The set of claim 1, wherein the set of bricks comprises: the lifting functional components (1) are arranged at two ends or the left side and the right side of the conveying and grouping device (201) in pairs, and after the conveying and grouping device (201) is lifted by the lifting functional components (1), a smooth space for finished sintered brick blanks (4) to pass through after the finished sintered brick blanks are discharged from the kiln can be formed below the conveying and grouping device (201).

9. The set of claim 8, wherein the set of bricks comprises: the conveying grouping device (201) is arranged perpendicular to or parallel to a sintering brick kiln lane, and the conveying grouping device (201) is set into one group or multiple groups arranged in parallel.

10. A set of bricks as set forth in claim 9, wherein: when the conveying marshalling device (201) is a plurality of groups, the conveying marshalling device can be lifted by one set of lifting functional assembly (1) or can be lifted by the independent lifting functional assemblies (1).

11. The set of claim 1, wherein the set of bricks comprises: the conveying bodies on the conveying and grouping device (201) do stepping type circular motion.

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