CN219006571U - Transverse cutting brick splitting machine - Google Patents

Abstract

The application provides a brick machine is split in transection is applied to fragment of brick production facility field, through setting up two sets of cutting dies around the pay-off platform, the cooperation is used and is split the brick, can promote and split brick efficiency, strengthens the quality of splitting the brick. The first group of cutting dies are transversely arranged on the left side and the right side of the feeding table, the second group of cutting dies are longitudinally arranged at the front and the rear positions of the feeding table respectively, the lifting device comprises a first lifting unit and a second lifting unit, the two lifting units drive the two groups of cutting dies to operate to cut brick blanks respectively, cutting die cutting power is provided, the two lifting units are arranged in a staggered mode, mutual interference is avoided, and the situation that the cutting dies damage the brick blanks when the brick blanks are cut is avoided. Therefore, the transverse cutting brick splitting machine has the beneficial effects of simple structure and high brick splitting quality.

Description

Transverse cutting brick splitting machine

Technical Field

The application relates to the field of brick production equipment, in particular to a transverse cutting brick splitting machine.

Background

In the existing brick making equipment, a frame, a brick jacking device and a cutter splitting device are generally included, a platform is arranged on the frame, a cutter hole is formed in the platform in a penetrating mode, the cutter hole direction is longitudinal, a lower fixed cutter and an upper movable cutter are arranged on the brick splitting device, the lower fixed cutter and the upper movable cutter are arranged oppositely in the vertical direction, bricks are placed on the platform, the lower fixed cutter is tightly propped against the bricks, the upper movable cutter moves downwards, and the bricks arranged in the upper movable cutter and the lower movable cutter are longitudinally split into left half and right half in a matched mode. For example, patent number CN 103481355B-a brick splitting machine structure disclosed in a brick splitting machine, but the brick splitting device can only be applied to bricks with wider transverse direction and narrower longitudinal direction, and cannot be applied to the device to split bricks with wider transverse direction and vertical direction, so as to meet the process requirements of brick production.

In view of the above, there is a need in the art for improvements.

Disclosure of Invention

The utility model aims at providing a transverse cutting brick splitting machine has simple structure, splits the high beneficial effect of brick quality.

In a first aspect, the present application provides a transverse cutting brick splitting machine, and the technical scheme is as follows:

the transverse cutting brick splitting machine comprises a frame, a lifting device and a brick splitting device, wherein the lifting device is connected with the brick splitting device and is arranged on the frame, a feeding table is further arranged on the frame, the brick splitting device comprises a first group of cutting dies and a second group of cutting dies, the feeding direction of the feeding table is taken as the longitudinal direction, the first group of cutting dies are respectively arranged at the left side and the right side of the feeding table along the transverse direction, and the second group of cutting dies are respectively arranged at the front position and the rear position of the feeding table along the longitudinal direction;

the lifting device comprises a first lifting unit and a second lifting unit, the first lifting unit comprises a first cylinder and a transmission device, the first cylinder is connected with the transmission device, and the transmission device is connected with the first group of cutting dies; the second lifting unit comprises a second air cylinder, the second lifting unit is connected with the second group of cutting dies, and the second air cylinder drives the second group of cutting dies to move up and down.

Through setting up two sets of cutting dies around the pay-off platform, the cooperation uses and split the brick, can promote split brick efficiency, strengthen the quality of splitting the brick. The first group of cutting dies are transversely arranged at the left side and the right side of the feeding table along the direction, after the brick blanks enter the feeding table, the cutting operation is performed on the brick blanks by transversely extending under the drive of the first air cylinder, the second group of cutting dies are longitudinally arranged at the front and the rear positions of the feeding table respectively, the brick blanks are supported by the position, which is required to be cut, of the brick blanks after being driven by the second air cylinder to move up and down, the brick blanks are completely cut by being matched with the first group of cutting dies, and the situation that the whole brick blanks cannot be completely cut off at one time by the first group of cutting dies is avoided. The lifting device comprises a first lifting unit and a second lifting unit, the two lifting units respectively drive the two groups of cutting dies to operate so as to cut the brick blanks, power for cutting the cutting dies is provided, the two lifting units are arranged in a staggered manner and are not mutually interfered, and the situation that the cutting dies damage the brick blanks when the brick blanks are cut is avoided. Therefore, the transverse cutting brick splitting machine has the beneficial effects of simple structure and high brick splitting quality.

Further, in the present application, the first lifting unit further includes a first lifting rod, and a first fixing plate laterally disposed on the first lifting rod; the first fixing plate is connected with the transmission device.

Through setting up first lifter on first elevating unit, increase first elevating unit and split the brick device contact site, the operation of driving split the brick device that can be better sets up first fixed plate on first lifter, and first fixed plate will transversely set up on first lifter, the both ends of first fixed plate are fixed with first lifter respectively promptly, because first fixed plate needs to be connected with transmission, in order to guarantee the efficiency of splitting the brick, transmission often the interval sets up a plurality ofly, consequently, first fixed plate needs transversely to set up on first lifter to have a plurality of transmission of sufficient spatial connection.

Further, in this application, transmission includes extrusion piece, sliding block and spring unit, and extrusion piece is the inclined plane with the contact surface of sliding block, and the sliding block is connected with spring unit, sets up in the pay-off platform both sides jointly.

The transmission device comprises an extrusion block and a sliding block, the contact surfaces of the extrusion block and the sliding block are inclined surfaces, the extrusion block and the sliding block form a wedge structure, and when the extrusion block applies force in the vertical direction of the sliding block, the sliding block converts the force in the vertical direction into the horizontal direction and moves along the horizontal direction. The transmission device further comprises a spring unit, the spring unit is used for being connected with the sliding block, when the extrusion block is pressed downwards in the vertical direction, the sliding block is driven to horizontally displace, the spring unit is compressed, when the extrusion block rises in the vertical direction, the spring unit is deformed in a recovery mode, and the sliding block is pushed to reset. The transmission device is connected with the first group of cutting dies, and can drive the first group of cutting dies to stretch in the transverse direction to cut the brick blanks on the feeding table.

Further, in the present application, a groove is provided on the first fixing plate, the groove being used for fixing the extrusion block.

Through set up the recess on first fixed plate, the recess is used for fixed extrusion piece, increases the area of contact of first fixed plate and extrusion piece, makes the stability after the two are fixed higher.

Further, in the present application, the sliding block is connected to a first set of cutting dies, which are disposed on a side of the sliding block near the feeding table.

Further, in the application, the left and right sides of the feeding table are respectively provided with a first positioning block, and the first positioning block is transversely provided with a cutter hole which penetrates through the first positioning block and is used for placing a first group of cutter dies.

Further, in the present application, one end of the spring unit is connected with the slider, and the other end is connected with the first positioning block.

Further, in the application, the first group of cutting dies and the second group of cutting dies are all provided with a plurality of at intervals, and the positions of the plurality of first group of cutting dies are equal in height, and the positions of the plurality of second group of cutting dies are equal in height.

Further, in the present application, the second elevating unit further includes a second elevating rod and a second fixing plate laterally disposed on the second elevating rod.

Further, in the application, one side of the second fixing plate, which is close to the feeding table, is provided with a second positioning block, an embedding port is formed in the second positioning block, and the opening direction of the embedding port faces the feeding or discharging direction of the feeding table and is used for fixing the second group of cutting dies.

From the above, the application provides a brick machine is split in transection, through setting up two sets of cutting dies around the pay-off platform, the cooperation is used and is split the brick, can promote and split brick efficiency, strengthens the quality of splitting the brick. The first group of cutting dies are transversely arranged at the left side and the right side of the feeding table along the direction, after the brick blanks enter the feeding table, the cutting operation is performed on the brick blanks by transversely extending under the drive of the first air cylinder, the second group of cutting dies are longitudinally arranged at the front and the rear positions of the feeding table respectively, the brick blanks are supported by the position, which is required to be cut, of the brick blanks after being driven by the second air cylinder to move up and down, the brick blanks are completely cut by being matched with the first group of cutting dies, and the situation that the whole brick blanks cannot be completely cut off at one time by the first group of cutting dies is avoided. The lifting device comprises a first lifting unit and a second lifting unit, the two lifting units respectively drive the two groups of cutting dies to operate so as to cut the brick blanks, power for cutting the cutting dies is provided, the two lifting units are arranged in a staggered manner and are not mutually interfered, and the situation that the cutting dies damage the brick blanks when the brick blanks are cut is avoided. Therefore, the transverse cutting brick splitting machine has the beneficial effects of simple structure and high brick splitting quality.

Drawings

Fig. 1 is a schematic structural diagram of a transverse brick splitting machine provided in the present application.

Fig. 2 is a top view of the first and second sets of dies provided in the present application when they are operating.

Fig. 3 is a schematic diagram of an elevational cross-section structure of a transverse brick splitting machine provided in the present application.

Fig. 4 is a schematic structural diagram of a transmission device of a transverse cutting brick splitting machine.

Fig. 5 is a schematic diagram of a left-hand cross section structure of a transverse brick splitting machine provided in the present application.

In the figure: 100. a frame; 200. a lifting device; 300. a brick splitting device; 400. a feeding table; 310. a first set of cutting dies; 320. a second set of cutting dies; 210. a first lifting unit; 220. a second lifting unit; 212. A transmission device; 213. A first lifting rod; 214. a first fixing plate; 2121. extruding a block; 2122. a sliding block; 2123. a spring unit; 2141. a groove; 410. a first positioning block; 411. a knife hole; 222. a second lifting rod; 223. a second fixing plate; 224. and a second positioning block.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. The components of the embodiments of the present application, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present application, as provided in the accompanying drawings, is not intended to limit the scope of the application, as claimed, but is merely representative of selected embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present application without making any inventive effort, are intended to be within the scope of the present application.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures. Meanwhile, in the description of the present application, the terms "first, second, third, etc. are used only for distinguishing the description, and are not to be construed as indicating or implying relative importance.

In the existing brick splitting equipment, an upper cutting die and a lower cutting die are arranged on a brick splitting machine, brick blanks in a feeding table are cut up and down, cut bricks are fed from the left side and the right side of a feeding channel, devices such as a fence are required to be arranged for protecting the bricks from being broken when the bricks are fed, the structure is complex, when the bricks are cut, if the bricks are wider in the vertical direction and the bricks are required to be split transversely, the upper cutting die and the lower cutting die cannot split the bricks transversely, the process requirements of users cannot be met, and when the width of the bricks in the vertical direction is larger than the length of the upper cutting die and the lower cutting die extending into the bricks, the upper cutting die and the lower cutting die cannot split the bricks completely, the situation that the cutting dies are clamped into the bricks is easy to occur, and adverse effects are caused.

In this regard, referring to fig. 1 to 5, the present embodiment discloses a transverse cutting brick splitting machine, which has the following technical scheme:

the transverse cutting brick splitting machine comprises a frame 100, a lifting device 200 and a brick splitting device 300, wherein the lifting device 200 is connected with the brick splitting device 300 and is arranged on the frame 100, a feeding table 400 is further arranged on the frame 100, the brick splitting device 300 comprises a first group of cutting dies 310 and a second group of cutting dies 320, the first group of cutting dies 310 are respectively arranged at the left side and the right side of the feeding table 400 along the transverse direction, and the second group of cutting dies 320 are respectively arranged at the front and the rear of the feeding table 400 along the longitudinal direction;

the lifting device 200 comprises a first lifting unit 210 and a second lifting unit 220, wherein the first lifting unit 210 comprises a first cylinder and a transmission device 212, the first cylinder is connected with the transmission device 212, and the transmission device 212 is connected with a first group of cutting dies 310; the second lifting unit 220 includes a second cylinder, and the second lifting unit 220 is connected to the second set of cutting dies 320, and the second cylinder drives the second set of cutting dies 320 to move up and down.

Wherein, the feeding table 400 can be horizontally arranged on the frame 100 at intervals, so that the transverse cutting brick splitting machine can simultaneously operate at multiple stations to ensure the brick splitting efficiency. The first group of cutting dies 310 are respectively arranged at the left side and the right side of the feeding table 400 along the transverse direction, and because the feeding table 400 can be horizontally arranged at intervals, two first group of cutting dies 310 are arranged in parallel in the middle of two adjacent feeding tables 400, namely, the left side of one feeding table 400 and the first group of cutting dies 310 at the right side of the adjacent feeding table 400 are arranged side by side, the first group of cutting dies 310 are driven by the first lifting unit 210 to cut brick blanks, the two first group of cutting dies 310 are arranged side by side, the first lifting unit 210 is favorable for simultaneously driving the two first group of cutting dies 310 to operate, resources are saved, the production cost is reduced, the second group of cutting dies 320 are respectively arranged at the front and the rear of the feeding table 400 along the longitudinal direction, the feeding table 400 can be both fed or discharged, the bilateral station operation is realized, if the brick blanks transported from front and rear directions are adjusted, the brick blanks are transported forward from rear to the other side and are not required to be split to the feeding end of the other side, and the brick carrying efficiency is greatly improved.

The lifting device 200 includes a first lifting unit 210 and a second lifting unit 220, where the first lifting unit 210 is used to drive the first group of cutting dies 310 to run, and the second lifting unit 220 drives the second group of cutting dies 320 to run, and the two lifting units are staggered, mutually matched and non-interfering, so as to be beneficial to improving the quality of splitting bricks of the transverse brick splitting machine.

In practical application, a user sends a brick blank to be cut to a feeding table, then operates the lifting device 200, so that the second lifting unit 210 drives the second group of cutting dies 320 to descend, the second group of cutting dies 220 in the feeding direction of the feeding table 400 props against the position where the brick blank needs to be cut, then, the first lifting unit 210 drives the first group of cutting dies 310 to extend out from the left side and the right side of the brick blank, after the two groups of cutting dies cooperate to transversely cut the brick blank into an upper block and a lower block, the feeding table 400 conveys the cut brick blank for blanking, and the transverse cutting brick splitting machine is simple in structure and convenient to operate, and the two groups of cutting dies cooperate to cut, so that the quality of cutting the brick blank is ensured.

By arranging two groups of cutting dies on the front, back, left and right of the feeding table 400 and matching with the split bricks, the split brick efficiency can be improved, and the split brick quality can be enhanced. The first group of cutting dies 310 are transversely arranged at the left side and the right side of the feeding table, after the brick blanks enter the feeding table, the brick blanks transversely extend out to be cut under the driving of the first air cylinder, the second group of cutting dies 320 are longitudinally arranged at the front and the rear positions of the feeding table 400 respectively, the brick blanks are pushed against the positions, which need to be cut, of the brick blanks under the driving of the second air cylinder, the first group of cutting dies 310 are matched, the brick blanks are completely cut, and the situation that the first group of cutting dies 310 cannot completely cut off the whole brick blanks at one time is avoided. The lifting device 200 comprises a first lifting unit 210 and a second lifting unit 220, wherein the two lifting units respectively drive two groups of cutting dies to operate to cut the brick blanks, power for cutting the cutting dies is provided, the two lifting units are arranged in a staggered manner and are not mutually interfered, and the situation that the cutting dies damage the brick blanks when the brick blanks are cut is avoided. Therefore, the transverse cutting brick splitting machine has the beneficial effects of simple structure and high brick splitting quality.

Further, in some of the embodiments, the first elevating unit 210 further includes a first elevating bar 213, and a first fixing plate 214 laterally disposed on the first elevating bar 213; the first stationary plate 214 is coupled to the transmission 212.

In some preferred manners, the transmission device 212 is connected to the first fixing plate 214 on the first lifting unit 210, and since the feeding tables 400 may be horizontally arranged in plurality, in order to ensure that the first group of cutting dies 310 are arranged on two sides of each feeding table 400 to cut the tile blanks on the feeding table 400, the transmission device 212 is also arranged in plurality corresponding to the feeding tables 400.

In practical application, through setting up first lifter 213 to transversely set up first fixed plate 214 on first lifter 213, the both ends of first fixed plate 214 are connected with first lifter 213 respectively, and first cylinder drives first fixed plate 214 and reciprocates along first lifter 213, because first fixed plate 214 transversely sets up on first lifter 213, therefore, first fixed plate 214 has sufficient area in the lateral direction and is used for fixed a plurality of transmission 212, and a plurality of transmission 212 correspond a plurality of pay-off platforms 400, and the multistation is simultaneously operated, is favorable to improving split brick efficiency.

Further, in some embodiments, the transmission device 212 includes a pressing block 2121, a sliding block 2122, and a spring unit 2123, where a contact surface between the pressing block 2121 and the sliding block 2122 is an inclined surface, and the sliding block 2122 is connected to the spring unit 2123 and disposed on two sides of the feeding table 400.

The transmission device 212 includes a pressing block 2121, in order to ensure that the contact surface between the pressing block 2121 and the sliding block 2122 is an inclined surface, in some preferred manners, the lower end of the pressing block 2121 may be provided with a gathering-shaped bump, that is, two sides of the lower end of the pressing block 2121 are inclined, in some preferred manners, the cross section of the sliding block 2122 is provided with a triangle, the inclined surface of the triangle is in contact with the inclined surface of the lower end of the pressing block 2121, and the two sides together form a wedge structure, when the pressing block 2121 applies pressure to the sliding block vertically, the sliding block 2122 converts the pressure in the vertical direction into a force in the horizontal direction (the wedge structure is a prior art and is not described herein). Specifically, referring to fig. 2 and 3, when a plurality of feeding tables 400 are provided, in order to make the structure more compact, the pressing blocks 2121 of the transmission device 212 between two adjacent feeding tables 400 may be integrated, that is, two sliding blocks 2122 are simultaneously pushed to move away from each other by one pressing block 2121 between two adjacent feeding tables 400.

In practical application, the transmission device 212 is connected to the first fixing plate 214, the first fixing plate 214 drives the transmission device 212 to move, and the specific movement mode is that the cam mechanism converts the force in the vertical direction of the descent of the first fixing plate 214 into the force in the horizontal direction, so that the sliding block 2122 horizontally displaces and compresses the spring unit 2123, thereby driving the first group of cutting dies 310 connected to the transmission device 212 to horizontally extend, cutting the brick blank on the feeding table 400, and when the first fixing plate 214 ascends, the spring unit 2123 is deformed in a recovery manner, the sliding block 2122 is pushed to reset, the first group of cutting dies 310 is driven to retract, and unnecessary cutting of the brick blank caused by the fact that the first group of cutting dies 310 keep the extending state is avoided, and the cutting quality of the brick blank is affected.

Further, in some of these embodiments, a groove 2141 is provided on the first fixing plate 214, and the groove 2141 is used to fix the pressing block 2121.

In practical applications, in order to apply a force in a direction perpendicular to the wedge structure to the first lifting unit 210, the pressing block may be fixed on the first fixing plate 214, in order to ensure stability of fixing the pressing block 2121 on the first fixing plate 214, a groove 2141 may be provided on the first fixing plate 214, the pressing block 2121 is embedded into the groove 2141, and a contact area between the pressing block 2121 and the first fixing plate 214 is increased, so that the two are connected more firmly, and in some preferred manners, bolts may be used to penetrate through the pressing block 2121 and the first fixing plate 214, so as to connect and fix the two together.

Further, in some of these embodiments, the sliding block 2122 is connected to the first set of dies 310, and the first set of dies 310 is disposed on a side of the sliding block 2122 near the feeding stage 400.

In practical application, the sliding block 2122 is connected with the first group of cutting dies 310, in order to ensure that the first group of cutting dies 310 can transversely cut the tile blanks on the feeding table 400, the first group of cutting dies 310 are horizontally fixed on one side of the sliding block 2122 close to the feeding table, and because the sliding block 2122 is also connected with the spring unit 2123, when the sliding block 2122 is subjected to horizontal displacement, the spring unit 2123 is compressed to drive the first group of cutting dies 310 to extend out from two sides of the feeding table 400 to cut the tile blanks on the feeding table 400, when the pressure on the sliding block 2122 disappears, the spring unit 2123 is restored to deform, the sliding block 2122 is pushed to reset, and the first group of cutting dies 310 fixed on the sliding block 2122 are retracted to two sides of the feeding table 400, so that the first group of cutting dies 310 are prevented from extending to damage the tile blanks.

Further, in some embodiments, the left and right sides of the feeding table 400 are respectively provided with a first positioning block 410, and the first positioning block 410 is transversely provided with a through cutter hole 411, where the cutter hole 411 is used for placing the first group of cutter dies 310.

In practical application, after the brick blank is sent to the feeding table 400 by a user, the brick blank is inevitably subjected to position offset, in order to eliminate negative effects on splitting bricks caused by the position offset, first positioning blocks 410 may be arranged at two sides of the feeding table 400, the first positioning blocks 410 may be rectangular solids fixedly arranged along two sides of the feeding table 400 and used for limiting the displacement of the brick blank, in order to ensure that the first positioning blocks 410 cannot interfere the cutting of the brick blank by the first group of cutting dies 310, the first positioning blocks 410 are provided with transversely penetrating cutting holes 411, the shape and structure of the cutting holes 411 are consistent with those of the first group of cutting dies 310, the first group of cutting dies 310 are stretched out from the cutting holes 411 in use, and in non-use, the first group of cutting dies 310 are retracted into the cutting holes 411, so that the first group of cutting dies 310 cannot damage the brick blank due to continuous stretching, and the first group of cutting dies 310 can be protected from the influence of external environment (such as air humidity, etc.), and the service life of the first group of cutting dies 310 is prolonged.

Further, in some of these embodiments, one end of the spring unit 2123 is connected to the sliding block 2122 and the other end is connected to the first positioning block 410.

In practical applications, in order to ensure that the spring unit 2123 is economical and practical, an alloy steel material may be used to make the spring unit 2123, one end of the spring unit 2123 is connected to the sliding block 2122, and the other end is connected to the first positioning block 410, that is, the spring unit 2123 is disposed between the sliding block 2122 and the first positioning block 410, and since the spring unit 2123 and the first set of dies 310 are disposed on the same side of the sliding block 2122, when the sliding block 2122 is compressed by horizontal displacement of the sliding block 2122, the first set of dies 310 can extend out of the holes of the first positioning block 410, the spring unit 2123 recovers to deform, and when the sliding block 2122 is pushed to return, the first set of dies 310 retract into the holes 411, in some preferred embodiments, the spring unit 2123 and the first set of dies 310 are disposed up and down at one side of the sliding block 2122, so as to avoid damage to the first set of dies 310 when the spring unit 2123 is deformed.

Further, in some embodiments, the first set of cutting dies 310 and the second set of cutting dies 320 are disposed at intervals, and the positions of the plurality of first set of cutting dies 310 are equal in height, and the positions of the plurality of second set of cutting dies 320 are equal in height.

In practical application, in order to realize multi-station splitting simultaneously and improve splitting efficiency, a plurality of feeding tables 400 and a plurality of transmission devices 212 can be arranged, and corresponding to the feeding tables, a plurality of first group of cutting dies 310 and a plurality of second group of cutting dies 320 are also arranged, the heights of the first group of cutting dies 310 are equal, the heights of the second group of cutting dies 320 are equal, the situation that the heights are unequal, the splitting thickness is unequal, and the splitting quality is not in accordance with requirements is avoided.

Further, in some of the embodiments, the second elevating unit 220 further includes a second elevating rod 222 and a second fixing plate 223 laterally disposed on the second elevating rod 222.

In practical application, the second lifting unit 220 is connected to and fixes the second group of cutting dies 320, the second cylinder drives the second group of cutting dies 320 to move up and down, and since the second group of cutting dies 320 are disposed at the front and back positions of the feeding table 400, that is, the positions close to the feeding port and the blanking port, and the feeding table 400 is horizontally disposed at intervals on the frame 100, in order to ensure that each feeding table 400 is provided with the second group of cutting dies 320, the second lifting unit 220 further includes a second lifting rod 222 and a second fixing plate 223 transversely fixed on the second lifting rod 222, and the second fixing plate 223 is used for fixing a plurality of horizontally disposed second group of cutting dies 320. After the brick blanks are transported to the feeding table 400, the second air cylinder drives the second fixing plate 223 on the second lifting rod 222 to move downwards, the second group of cutting dies 320 on the second fixing plate 223 props against the position where the brick blanks need to be cut, and the first group of cutting dies 310 are matched to cut the brick blanks from the left side and the right side of the brick blanks, so that the purpose of transversely cutting the brick blanks is achieved.

Further, in some embodiments, a second positioning block 224 is disposed on a side of the second fixing plate 223 near the feeding table 400, and an insert opening is disposed on the second positioning block 224, and an opening direction of the insert opening faces to a feeding or discharging direction of the feeding table 400 for fixing the second set of cutting dies 320.

In practical application, in order to ensure that the second group of cutting dies 320 can support against the brick on the feeding table 400, the second positioning block 224 for fixing the second group of cutting dies 320 is arranged on one side of the second fixing plate 223 close to the feeding table 400, an embedding port is further formed in the second positioning block 224, and the second group of cutting dies 320 are embedded into the second positioning block 224 from the embedding port to be fixedly connected with the second positioning block 224, so that the stability of the second group of cutting dies 320 is ensured. Because the opening direction of the insert opening faces the feeding or discharging direction of the feeding table 400, the opening directions of the insert openings on the front and rear second positioning blocks 224 are opposite, and after the second group of cutting dies 320 are inserted and fixed, the second group of cutting dies 320 at the front end of the brick embryo conveying direction at the opposite position can support the brick embryo no matter the feeding direction of the brick embryo is from front to back or from back to front, so that the first group of cutting dies 310 at the left and right sides can completely split the brick embryo.

The foregoing is merely exemplary embodiments of the present application and is not intended to limit the scope of the present application, and various modifications and variations may be suggested to one skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principles of the present application should be included in the protection scope of the present application.

Claims (10)

1. The transverse cutting brick splitting machine comprises a frame, a lifting device and a brick splitting device, wherein the lifting device is connected with the brick splitting device and is arranged on the frame, and a feeding table is further arranged on the frame;

the lifting device comprises a first lifting unit and a second lifting unit, the first lifting unit comprises a first cylinder and a transmission device, the first cylinder is connected with the transmission device, and the transmission device is connected with the first group of cutting dies; the second lifting unit comprises a second air cylinder, the second lifting unit is connected with the second group of cutting dies, and the second air cylinder drives the second group of cutting dies to move up and down.

2. The crosscut brick machine of claim 1 wherein the first lifting unit further comprises a first lifting bar and a first fixed plate disposed transversely on the first lifting bar; the first fixing plate is connected with the transmission device.

3. The transverse cutting brick splitting machine according to claim 2, wherein the transmission device comprises an extrusion block, a sliding block and a spring unit, the contact surface of the extrusion block and the sliding block is an inclined surface, the sliding block and the spring unit are connected, and the sliding block and the spring unit are jointly arranged on two sides of the feeding table.

4. A transverse cutting brick machine according to claim 3 wherein the first fixing plate is provided with grooves for fixing the extruded blocks.

5. A transverse cutting brick machine according to claim 3 wherein the slide block is connected to the first set of cutting dies, the first set of cutting dies being disposed on a side of the slide block adjacent the feed table.

6. The transverse cutting brick splitting machine according to claim 5, wherein first positioning blocks are respectively arranged on the left side and the right side of the feeding table, and a cutter hole is transversely formed in the first positioning blocks and used for placing the first group of cutter dies.

7. The machine of claim 6, wherein one end of the spring unit is connected to the slide block and the other end is connected to the first positioning block.

8. The transverse cutting brick splitting machine according to claim 1, wherein a plurality of first group cutting dies and a plurality of second group cutting dies are arranged at intervals, the heights of the positions of the first group cutting dies are equal, and the heights of the positions of the second group cutting dies are equal.

9. The transverse cutting brick machine according to claim 1 wherein the second lifting unit further comprises a second lifting bar and a second fixed plate laterally disposed on the second lifting bar.

10. The transverse cutting brick splitting machine according to claim 9, wherein a second positioning block is arranged on one side, close to the feeding table, of the second fixing plate, an embedding opening is formed in the second positioning block, and the opening direction of the embedding opening faces to the feeding or discharging direction of the feeding table and is used for fixing the second group of cutting dies.

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