CN117697935A - Cement brick production equipment and working method thereof - Google Patents

Abstract

The invention relates to the field of cement brick production equipment, in particular to cement brick production equipment and a working method thereof, wherein the production equipment comprises a production line, a first slitting device arranged on the production line and a second slitting device arranged on the production line, and the production line comprises a transverse conveying belt, a steering conveying belt and a longitudinal conveying belt; the steering conveyor belt is used for changing the advancing direction of materials on a production line, the transverse conveyor belt passes through the first slitting device, and the longitudinal conveyor belt passes through the second slitting device; solves the technical problem that the quality of the finished cement brick is low because the cement material is easy to adhere when being cut in the existing cement brick production process.

Description

Cement brick production equipment and working method thereof

Technical Field

The invention relates to the field of cement brick production equipment, in particular to cement brick production equipment and a working method thereof.

Background

The cement brick is a novel wall material which is manufactured by taking fly ash, coal cinder, coal gangue, tailing slag, chemical slag or natural sand, sea mud and the like (one or a plurality of the above raw materials) as main raw materials, taking cement as a coagulant and not calcining at high temperature, and is called as the cement brick.

The cement brick has heavier dead weight and higher strength, does not need firing, uses the pollutant fly ash of the power plant as a material, is environment-friendly and has been greatly popularized in China. The only disadvantage of the building blocks is that the building blocks are combined with plastering mortar unlike red bricks, so that cracks are easily generated on the wall surface, and the attractiveness is affected. When in construction, water is fully sprayed, the villa with higher requirements can be considered to be full of wall hanging steel wire nets, and cracks can be effectively prevented.

The cement brick production process needs to be mixed, molded, cut and maintained, and because the cement brick is special in material, the mixed material is more in variety, so when the cement brick is cut into independent bricks, the material is often adhered to a cutting blade due to the self-adhesion characteristic, and the cut edges of the independent bricks after the cutting are uneven.

The invention patent with the Chinese patent application number of 202011179398.1 discloses a building cement brick production and processing device, wherein a die is arranged below a material injection needle cylinder, a material feeding and conveying cylinder is controlled to drive a material feeding and driving telescopic rod to stretch out and draw back, and further a storage tank is driven to move vertically downwards integrally until a material feeding pressing plate positioned at the bottom of the storage tank contacts with the inner side surface of the die, so that the bottom of the material injection needle cylinder stretches into the die, the material feeding and conveying cylinder is controlled to work, and further the material feeding and driving telescopic rod is driven to stretch out and draw back, and further the material feeding pressing plate positioned in the storage tank is driven to slide, so that cement mixture in the storage tank is output into the die through the material injection needle cylinder, and the material feeding pressing plate is driven to slide in the die continuously, and cement bricks are pressed and formed, so that a machine is used for pressing after filling is not needed, and the production efficiency is improved. The technical scheme provided by the invention is characterized in that the cement bricks are segmented by adopting a compression molding mode, the technical problem of cutter adhesion easily existing in the cement brick cutting process is avoided by changing a processing mode, but the contact area with cement mixture is increased by adopting a mold molding mode, the adhesion phenomenon can also occur between the mold and the cement mixture in the molding process, and a large amount of waste materials can exist by adopting the mold molding.

Disclosure of Invention

Therefore, aiming at the problems, the invention provides cement brick production equipment and a working method thereof, which solve the technical problem that the quality of the finished cement brick is low because adhesion is easy to exist when cement materials are cut in the existing cement brick production process.

In order to achieve the above purpose, the present invention adopts the following technical scheme: the cement brick production equipment comprises a production line, a first slitting device arranged on the production line and a second slitting device arranged on the production line, wherein the production line comprises a transverse conveying belt, a steering conveying belt and a longitudinal conveying belt;

the steering conveyor belt is used for changing the advancing direction of materials on a production line, the transverse conveyor belt passes through the first slitting device, and the longitudinal conveyor belt passes through the second slitting device;

the first cutting device comprises a supporting underframe, a supporting vertical frame and a first cement brick cutting device, wherein the supporting underframe and the supporting vertical frame are mutually perpendicular, the first cement brick cutting device comprises an equipment frame, a first rotating shaft and a plurality of first cutting saw blades, the first rotating shaft is driven to rotate by a rotating motor, the first cutting saw blades are uniformly sleeved on the first rotating shaft, the spacing between every two adjacent first cutting saw blades is the same, a first electric telescopic rod and a second electric telescopic rod are arranged on the equipment frame, one end of each first electric telescopic rod is mutually hinged with the equipment frame, the other end of each first electric telescopic rod is mutually hinged with the supporting underframe, one end of each second electric telescopic rod is mutually hinged with the equipment frame, the other end of each second electric telescopic rod is mutually hinged with the supporting vertical frame, and the first cement brick cutting device is controlled to be close to or far away from the transverse conveying belt through the expansion and the expansion of the first electric telescopic rods;

the transverse conveying belt is provided with a plurality of inserting gaps, each inserting gap extends along the conveying direction of the transverse conveying belt and is parallel to the transverse conveying belt, and the position of each inserting gap corresponds to the position of the first slitting saw blade.

Further, a reinforcing beam for connecting the support underframe and the support vertical frame is arranged between the support underframe and the support vertical frame.

Further, a protective net cover is arranged on the equipment frame, and covers the first slitting saw blade, wherein the volume of the first slitting saw blade occupies one half of the total volume of the first slitting saw blade.

Further, be provided with a plurality of rocking mechanism in the transverse conveyor, rocking mechanism quantity corresponds the quantity in grafting gap, rocking mechanism includes first impact bar and second impact bar, first impact bar with the second impact bar is on a parallel with the horizontal plane setting, first impact bar with the second impact bar can be followed self axis direction and pushed forward or retract backward, first impact bar with the second impact bar sets up relatively and misplaces each other on the vertical plane.

Further, the free end terminal of the first impact rod and the free end terminal of the second impact rod are respectively provided with a first sliding ball.

Further, turn to the conveyer belt include braced frame with set up in transfer frame on the braced frame, transfer frame can follow vertical direction oscilaltion, be provided with a plurality of transfer rollers on the transfer frame, adjacent two the interval is the same between the transfer roller, transfer roller with the direction of delivery mutually perpendicular of transverse conveyor belt, keep away from on the transfer frame transverse conveyor belt's one end is provided with the baffle, follow on the transfer frame transverse conveyor belt direction of delivery's both ends are provided with the slide track, two slide the last portal frame that has gone up and down of frame of slide track, the portal frame can be followed slide track round trip movement, fixedly on the portal frame be provided with the push plate.

Further, electric rollers are uniformly distributed on the outer circumferential surface of the transfer roller, and the rolling direction of the electric rollers is mutually perpendicular to that of the transfer roller.

Further, the second slitting device comprises a second rotating shaft and a second slitting saw blade sleeved on the second rotating shaft, the second rotating shaft is driven to rotate through a rotating motor, a vibrating motor is integrally arranged in the second slitting device, the vibrating motor vibrates in a compound mode, and the second slitting saw blade vibrates back and forth in the horizontal direction and the vertical direction under the action of the vibrating motor.

The working method of the cement brick production equipment comprises the following steps:

s1, starting equipment, and transporting the mixture to a transverse conveying belt after preliminary molding;

s2: primarily slitting, namely conveying the formed blanks along the direction of a transverse conveying belt, and primarily slitting the formed blanks by pressing down by a first cement brick slitting device;

s3: reversing the formed blanks, namely converting the transportation direction of the formed blanks through a steering conveyor belt after primary cutting, wherein the conversion direction is 90 DEG reversing, arranging the formed blanks through a pushing plate after the stroke blocking of a baffle plate on the formed blanks, and then starting an electric roller on a transfer roller to convey the formed blanks to a longitudinal conveyor belt;

s4: and (3) secondary cutting, namely, carrying out secondary cutting on the formed blank through a secondary cutting device to form a plurality of independent cement bricks.

Further, in the step S2, when the first slitting saw blade saw the formed blank and then enters the insertion gap, the first impact rod and the second impact rod move towards the first slitting saw blade simultaneously and elastically strike the first slitting saw blade, so that the first slitting saw blade is polarized in the horizontal direction.

By adopting the technical scheme, the invention has the beneficial effects that:

1. compared with the cement brick production equipment in the prior art, the cement brick production equipment has the advantages that materials can not be adhered in the process of cutting the cement bricks, so that the reduction of the service life of a cutter and the reduction of the quality of finished cement bricks are avoided, and the cement brick production equipment is characterized in that: through changing conventional adoption mould to shaping single cement fragment of brick, and adopt and cut the saw bit and cut into independent cement brick to it, avoided the material waste that leads to because of adopting the mould shaping, through being provided with first slitting device and second slitting device, transversely cut and vertically cut two steps of cutting the material and avoid cutting the material and receive too big pressure that leads to the edge to take place deformation in step, through being provided with the stiffening beam between supporting chassis and supporting riser, the stiffening beam can provide better supporting property, has guaranteed to cut the holistic stability of in-process equipment.

2. Through being provided with the protection screen panel, the protection screen panel sets up the material that the probability that aim at can avoid probably existing in the cutting process on the one hand splashes extremely low, and on the other hand can avoid external debris to get into and then influence the cutting saw bit and lead to cutting the precision decline.

3. Through being provided with the wabbler mechanism in the transverse conveyor, wabbler mechanism sets up in grafting gap, the setting purpose in grafting gap is in order to provide the space of placing of a stroke terminal for first saw bit that cuts, so the gap diameter in grafting gap is greater than the saw bit thickness of first saw bit that cuts, and be provided with wabbler mechanism in grafting gap, wabbler mechanism includes first impact bar and second impact bar, when first saw bit that cuts gets into grafting gap in, first impact bar and second impact bar can strike first saw bit simultaneously, and adopt the interval to strike first saw bit that cuts according to predetermineeing the time, produce an impact force to first saw bit that cuts, first impact bar and second impact bar dislocation each other simultaneously, guaranteed promptly can make first saw bit that cuts through minimum impact force produce the biggest polarization degree, and for the polarization of millimeter level, because too big polarization degree can lead to first saw bit and grafting gap to cause interference on the work and can reduce simultaneously and cut the precision, and produce the polarization of little amplitude and then take place simultaneously and cut the interference mode that cuts in the saw bit that cuts easily to produce the material continuous polarization that the time makes the material continuous vibration phenomenon that cuts has avoided the first saw bit to take place simultaneously.

4. Through being provided with first slip ball at the free end of first impact bar and second impact bar, can avoid first impact bar and second impact bar to produce too big frictional force and aggravate the calorific capacity of first cutting saw bit and can prolong the life of first impact bar and second impact bar simultaneously when striking first cutting saw bit.

5. According to the steering conveying belt, the cement bricks after primary cutting can be conveyed to the second cutting device for secondary cutting operation, the electric rollers are arranged on the transfer rollers, when the cement bricks enter the steering conveying belt from the first cutting device, the electric rollers are in a static shutdown state and act as auxiliary transfer rollers for conveying the cement bricks, the contact area of the cement bricks and the transfer rollers can be reduced, the energy consumption increase caused by friction force is reduced, meanwhile, the circular arc-shaped surface of the cement bricks cannot influence conveying operation, and when the cement bricks are completely conveyed to the steering conveying belt and ready to enter the second cutting device, the conveying operation is carried out by the electric rollers, and at the moment, the transfer rollers are kept static.

6. Through being provided with vibrating motor in the second divides cutting device integration, and this vibrating motor is not ordinary single vibrating motor but compound vibrating motor, can bring the vibration of making a round trip on the horizontal plane and the vibration of making a round trip on the vertical face, when the second divides cutting saw bit on the second divides cutting device carries out the secondary to the cement brick and cuts the work, vibrating motor synchronous start, begin the vibration that the second divides cutting saw bit keeps the vertical direction, so can guarantee to cut the in-process subdivision to each section stroke in the second divide cutting saw bit and all have a motion that reciprocates, and when the second divides cutting saw bit with the cement brick after cutting completely, the second divides cutting saw bit and realizes vibration and the vibration of vertical direction simultaneously, can guarantee that the second divides cutting saw bit and the separation of cement brick and avoid the material adhesion of cement brick cutting edge to the maximum limit on the second divides cutting saw bit because through the mode of vibration separation.

7. In the working method of the invention, in the step S3, the cement bricks subjected to primary cutting are arranged through the baffle plate and the pushing plate, the principle is that the peripheral edges and the surfaces of the cement brick raw materials which are formed into blocks in the production process become dry and solidified in the natural environment, but the inside is not completely solidified yet and is easy to generate the adhesion phenomenon in the cutting process, and when the cut surfaces of the cement bricks subjected to primary cutting are transported to the steering conveyer belt, the standard of no adhesion is achieved, so that the arrangement of the cement bricks can ensure that the integrity of the cement bricks is stronger in the secondary cutting process in the secondary cutting device, and meanwhile, the influence on the secondary cutting precision caused by gaps is avoided.

Drawings

Other features, objects and advantages of the present invention will become more apparent upon reading of the detailed description of non-limiting embodiments, given with reference to the accompanying drawings in which:

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic perspective view of a first slitting device according to the invention;

FIG. 3 is a schematic vertical cross-section of a first slitting saw blade and a mating slit according to the present invention;

FIG. 4 is a schematic top view of a mating slit (with a first impact bar and a second impact bar) according to the present invention;

FIG. 5 is a schematic side view of a diverting conveyor belt according to the present invention;

FIG. 6 is a schematic top view of the diverting conveyor belt according to the present invention;

FIG. 7 is an enlarged view of FIG. 6 at A;

fig. 8 is a schematic perspective view of a second parting device in the present invention.

Detailed Description

The invention is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

Referring to fig. 1-8, the invention provides a cement brick production device, which comprises a production line, a first slitting device 4 arranged on the production line and a second slitting device 5 arranged on the production line, wherein the production line comprises a transverse conveying belt 1, a steering conveying belt 2 and a longitudinal conveying belt 3;

the steering conveyor belt 2 is used for changing the travelling direction of materials on a production line, the transverse conveyor belt 1 passes through the first slitting device 4, and the longitudinal conveyor belt 3 passes through the second slitting device 5;

the first slitting device 4 comprises a supporting underframe 41, a supporting vertical frame 42 and a first cement brick slitting device, the supporting underframe 41 and the supporting vertical frame 42 are mutually perpendicular, a reinforcing beam 43 for connecting the supporting underframe 41 and the supporting vertical frame 42 is arranged between the supporting underframe 41 and the supporting vertical frame 42, the first cement brick slitting device comprises a device frame 44, a first rotating shaft 48 and 14 first slitting saw blades 49, the first rotating shaft 48 is driven to rotate by a rotating motor, the first slitting saw blades 49 are uniformly sleeved on the first rotating shaft 48, the distance between two adjacent first slitting saw blades 49 is the same, a first electric telescopic rod 47 and a second electric telescopic rod 46 are arranged on the device frame 44, one end of the first electric telescopic rod 47 is mutually hinged with the device frame 44, the other end of the second electric telescopic rod 46 is mutually hinged with the supporting vertical frame 42, the other end of the second electric telescopic rod 46 is mutually hinged with the device frame 44, the first electric telescopic rod is not mutually far away from the first telescopic rod or the second electric telescopic rod 46 is not mutually far away from the first telescopic rod 1, and the second telescopic rod is not mutually telescopic rod is a telescopic rod 1;

14 insertion gaps 6 are formed in the transverse conveying belt 1, each insertion gap 6 extends along the conveying direction of the transverse conveying belt 1 and is parallel to the transverse conveying belt 1, and the positions of the insertion gaps 6 correspond to the positions of the first slitting saw blades 49 and the number of the insertion gaps corresponds to the positions of the first slitting saw blades 49.

The device comprises a device frame 44, a protective screen 45 is arranged on the device frame 44, the protective screen 45 covers the first slitting saw blade 49, the volume of the first slitting saw blade 49 is half of the total volume of the first slitting saw blade 49, 14 rocking mechanisms are arranged in the transverse conveying belt 1, the number of the rocking mechanisms corresponds to the number of the inserting gaps 6, the rocking mechanisms comprise a first impact rod 61 and a second impact rod 62, the first impact rod 61 and the second impact rod 62 are arranged parallel to a horizontal plane, the first impact rod 61 and the second impact rod 62 can be ejected forwards or retracted backwards along the axial direction of the first impact rod 61 and the second impact rod 62, the first impact rod 61 and the second impact rod 62 are arranged oppositely and are staggered with each other on a vertical plane, and the free end tail ends of the first impact rod 61 and the second impact rod 62 are provided with first sliding balls 611.

The steering conveyer belt 2 comprises a supporting frame 21 and a transferring frame 22 arranged on the supporting frame 21, the transferring frame 22 can be lifted up and down along the vertical direction, the realization mode is that through an air cylinder, meanwhile, the transferring frame 22 can be replaced by an oil cylinder or an electric cylinder, 8 transferring rollers 26 are arranged on the transferring frame 22, the distance between every two adjacent transferring rollers 26 is the same, the transferring rollers 26 are mutually perpendicular to the conveying direction of the transverse conveyer belt 1, a baffle 23 is arranged at one end, far away from the transverse conveyer belt 1, of the transferring frame 22, sliding rails 221 are arranged at two ends, which are arranged on the transferring frame 22, of the conveying direction of the transverse conveyer belt 1, a portal frame 24 capable of lifting up and down is arranged on the sliding rails 221, the portal frame 24 can be moved back and forth along the sliding rails 221, pushing plates 25 are fixedly arranged on the portal frame 24, electric rollers 7 are arranged on the outer circumferential surfaces of the transferring rollers 26, the rolling directions of the electric rollers 7 are mutually perpendicular to the rolling directions of the transferring rollers 26, a second bisecting rotating shaft 5 and a second bisecting motor 53 are arranged in the second vibrating device, and a second vibrating device 53 is arranged in the second vibrating device, and the second vibrating device is a vibrating device 53 and can vibrate in the second vibrating device and is a vibrating device 53 in the horizontal device.

The working method of the invention is also provided in the embodiment, and the working method specifically comprises the following steps: the working method of the cement brick production equipment comprises the following steps:

s1, starting equipment, and transporting the mixture to a transverse conveying belt 1 after preliminary molding;

s2: primarily slitting, namely conveying the formed blanks along the direction of a transverse conveying belt 1, and primarily slitting the formed blanks by pressing down a first cement brick slitting device;

s3: the formed blanks are reversed, the transportation direction of the formed blanks is converted through the steering conveyor belt 2 after the formed blanks are primarily cut, the conversion direction is 90 degrees, the baffle plate 23 is used for carrying out stroke blocking on the formed blanks and then finishing the formed blanks through the pushing plate 25, and then the electric roller 7 on the transfer roller 26 is started to convey the formed blanks to the longitudinal conveyor belt 3;

s4: and (3) secondary cutting, namely, carrying out secondary cutting on the formed blank through a secondary cutting device 5 to form a plurality of independent cement bricks.

In the step S2, when the first slitting saw blade 49 cuts the formed blank and enters the insertion gap, the first impact bar 61 and the second impact bar 62 move towards the first slitting saw blade 49 at the same time and elastically strike the first slitting saw blade 49, so that the first slitting saw blade 49 is polarized in the horizontal direction.

While the fundamental and principal features of the invention and advantages of the invention have been shown and described, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (10)

1. The utility model provides a cement brick production facility, include the production water line, set up in first cutting device on the production water line and set up in second cutting device on the production water line, its characterized in that: the production line comprises a transverse conveying belt, a steering conveying belt and a longitudinal conveying belt;

the steering conveyor belt is used for changing the advancing direction of materials on a production line, the transverse conveyor belt passes through the first slitting device, and the longitudinal conveyor belt passes through the second slitting device;

the first cutting device comprises a supporting underframe, a supporting vertical frame and a first cement brick cutting device, wherein the supporting underframe and the supporting vertical frame are mutually perpendicular, the first cement brick cutting device comprises an equipment frame, a first rotating shaft and a plurality of first cutting saw blades, the first rotating shaft is driven to rotate by a rotating motor, the first cutting saw blades are uniformly sleeved on the first rotating shaft, the spacing between every two adjacent first cutting saw blades is the same, a first electric telescopic rod and a second electric telescopic rod are arranged on the equipment frame, one end of each first electric telescopic rod is mutually hinged with the equipment frame, the other end of each first electric telescopic rod is mutually hinged with the supporting underframe, one end of each second electric telescopic rod is mutually hinged with the equipment frame, the other end of each second electric telescopic rod is mutually hinged with the supporting vertical frame, and the first cement brick cutting device is controlled to be close to or far away from the transverse conveying belt through the expansion and the expansion of the first electric telescopic rods;

the transverse conveying belt is provided with a plurality of inserting gaps, each inserting gap extends along the conveying direction of the transverse conveying belt and is parallel to the transverse conveying belt, and the position of each inserting gap corresponds to the position of the first slitting saw blade.

2. A cement brick production facility according to claim 1, wherein: and a reinforcing beam for connecting the support underframe and the support vertical frame is arranged between the support underframe and the support vertical frame.

3. A cement brick production facility according to claim 2, wherein: the equipment frame is provided with a protective net cover, and the protective net cover covers the first slitting saw blade, wherein the volume of the first slitting saw blade occupies one half of the total volume of the first slitting saw blade.

4. A cement brick production plant according to any one of claims 1-3, wherein: be provided with a plurality of rocking mechanism in the transverse conveyor, rocking mechanism quantity corresponds the quantity in grafting gap, rocking mechanism includes first impact bar and second impact bar, first impact bar with the second impact bar is on a parallel with the horizontal plane setting, first impact bar with the second impact bar can follow self axis direction and push out forward or retract backward, first impact bar with the second impact bar sets up relatively and misplaces each other on the vertical plane.

5. The cement brick production equipment according to claim 4, wherein: the free end ends of the first impact rod and the second impact rod are respectively provided with a first sliding ball.

6. The cement brick production equipment according to claim 5, wherein: the steering conveying belt comprises a supporting frame and a conveying frame arranged on the supporting frame, the conveying frame can be lifted up and down along the vertical direction, a plurality of conveying rollers are arranged on the conveying frame, the distance between every two conveying rollers is the same, the conveying rollers are mutually perpendicular to the conveying direction of the transverse conveying belt, a baffle is arranged at one end of the transverse conveying belt, sliding rails are arranged at two ends of the conveying frame along the conveying direction of the transverse conveying belt, a portal frame capable of lifting up and down is arranged on the sliding rails, the portal frame can move back and forth along the sliding rails, and a pushing plate is fixedly arranged on the portal frame.

7. The cement brick production equipment according to claim 6, wherein: the outer circumferential surface of the transfer roller is uniformly provided with electric rollers, and the rolling direction of the electric rollers is mutually perpendicular to the rolling direction of the transfer roller.

8. The cement brick production equipment according to claim 7, wherein: the second slitting device comprises a second rotating shaft and a second slitting saw blade sleeved on the second rotating shaft, the second rotating shaft is driven to rotate through a rotating motor, a vibrating motor is integrally arranged in the second slitting device, the vibrating motor vibrates in a compound mode, and the second slitting saw blade vibrates back and forth in the horizontal direction and the vertical direction under the action of the vibrating motor.

9. A method of operating the cement brick production facility of claim 8, wherein: the method comprises the following steps:

s1, starting equipment, and transporting the mixture to a transverse conveying belt after preliminary molding;

s2: primarily slitting, namely conveying the formed blanks along the direction of a transverse conveying belt, and primarily slitting the formed blanks by pressing down by a first cement brick slitting device;

s3: reversing the formed blanks, namely converting the transportation direction of the formed blanks through a steering conveyor belt after primary cutting, wherein the conversion direction is 90 DEG reversing, arranging the formed blanks through a pushing plate after the stroke blocking of a baffle plate on the formed blanks, and then starting an electric roller on a transfer roller to convey the formed blanks to a longitudinal conveyor belt;

s4: and (3) secondary cutting, namely, carrying out secondary cutting on the formed blank through a secondary cutting device to form a plurality of independent cement bricks.

10. The method for operating a cement brick production facility according to claim 9, wherein: in the step S2, when the first slitting saw blade saw the formed blank and then enters the inserting gap, the first impact rod and the second impact rod move towards the first slitting saw blade simultaneously and elastically strike the first slitting saw blade, so that the first slitting saw blade is polarized in the horizontal direction.