CN111152335A

CN111152335A - Building cement brick former based on raw materials reprocessing linkage is exerted pressure

Info

Publication number: CN111152335A
Application number: CN202010035951.8A
Authority: CN
Inventors: 刘书德
Original assignee: Individual
Current assignee: Nantong Hengda Unburned Brick Mechanical Engineering Co ltd
Priority date: 2020-01-14
Filing date: 2020-01-14
Publication date: 2020-05-15
Anticipated expiration: 2040-01-14
Also published as: CN112959464A; CN111152335B

Abstract

The invention discloses building cement brick molding equipment based on raw material reprocessing linkage pressure application, which structurally comprises a material feeding frame, a molding machine, an underframe, a supporting frame, a feeding frame and a motor, wherein the material feeding frame is connected with the molding machine in an installing mode, the molding machine is locked with the underframe, the supporting frame is connected with the feeding frame in a shaft mode, the feeding frame is installed on the underframe, the molding machine is connected with the feeding frame in an assembling mode, the motor is locked on the underframe, and the molding machine consists of a mixer, a molding frame and a material pressing structure. The spiral shaft collar adopts spiral drive plate shaft rotatory lift when going up and down, and is more stable during the pressurization transmission, and the machining precision is high.

Description

Building cement brick former based on raw materials reprocessing linkage is exerted pressure

Technical Field

The invention relates to the field of cement processing equipment, in particular to building cement brick molding equipment based on raw material reprocessing linkage pressing.

Background

The cement brick is formed by taking cement as a coagulant and mixing and processing raw materials such as fly ash, coal cinder, coal gangue and the like, the longer the material mixing time is, the better the mixing effect is, the higher the forming pressure is, the higher the compactness of a brick blank is, and the larger the volume density is, the better the product quality is.

In the prior art, the raw material particles are larger or smaller, the mixing effect is poor when the muddy water is mixed, and longer time is consumed for mixing so as to improve the mixing quality; when the brick blank is pressurized, repeated pressurization is needed for ensuring the density and the quality, the processing time is long, the repeated lifting during pressurization transmission can cause the pressure application degree to have deviation, and the processing precision can not be ensured.

Disclosure of Invention

The invention mainly aims to overcome the defects of the prior art and provides building cement brick molding equipment based on raw material reprocessing linkage pressing, so as to solve the problems that the raw material particles are larger or smaller, the mixing effect is poor when muddy water is mixed, and longer time is consumed for mixing so as to improve the mixing quality; when the brick blank is pressurized, repeated pressurization is needed for ensuring the density and the quality, the processing time is long, the repeated lifting during the pressurization transmission can cause the pressure application degree to have deviation, and the processing precision can not be ensured.

The invention is realized by adopting the following technical scheme: the building cement brick forming equipment comprises a feeding frame, a forming machine, a bottom frame, a supporting frame, a feeding frame and a motor, wherein the feeding frame is installed and connected with the upper end of the forming machine, the bottom end of the forming machine is locked with the bottom frame, the upper end of the supporting frame is connected with the feeding frame through a shaft, the right end of the feeding frame is installed on the bottom frame, the forming machine is connected with the right end of the feeding frame in an assembling mode, the bottom of the motor is locked on the bottom frame, the forming machine is composed of a mixer, a forming rack and a pressing structure, the mixer is connected with the forming rack in an embedded mode, and the pressing structure is installed at the left end of the forming rack.

Further preferably, the mixer comprises a mixing rotating ring, a distributing stirring blade and a polishing disc, wherein the distributing stirring blade is arranged in the middle of the mixing rotating ring, and the mixing rotating ring is fastened with the rear end of the polishing disc.

Preferably, the distributing and stirring blade comprises an installation lath, a leakage hole and distributing groove strips, the installation lath is provided with the middle part of the leakage hole, and the distributing groove strips are installed at the left end and the right end of the installation lath.

Further preferably, the polishing disc comprises a disc frame, a distributing pipe and a feeding cylinder, the middle of the disc frame is locked with the distributing pipe, and the distributing pipe is in threaded connection with the annular side of the feeding cylinder.

Further preferably, the feeding cylinder comprises a material pushing cylinder, a spiral frame and a distributing short pipe, the material pushing cylinder is connected with the upper end of the spiral frame in an installing mode, and the bottom of the spiral frame is embedded with the distributing short pipe.

Further preferably, the pressing structure comprises a cover frame, a bottom frame and a pressing device, the bottom end of the cover frame is locked with the bottom frame, and the pressing device is installed inside the bottom frame.

Further preferably, the pressing device comprises a forming square device, a pressing cover, a pushing device, a pressing aid device and a linking column, a square opening is formed in the left end of the forming square device, the forming square device is connected with the left end of the pushing device through the pressing cover in an installing mode, the pressing aid device is installed inside the pushing device, and the pushing device is buckled with the left end of the linking column.

Further preferably, the booster comprises a booster ring, a booster rod, a spiral shaft collar, a plate shaft and an installation top disc, the booster ring is attached to the side of the spiral shaft collar, the right end of the booster rod penetrates through the spiral shaft collar, the booster rod and the spiral shaft collar are connected with the middle shaft of the plate shaft, and the right end of the plate shaft is connected with the installation top disc in an installation mode.

Further preferably, the spiral shaft collar comprises an inner spiral ring and an outer shaft ring, and the inner spiral ring is arranged on the inner ring side of the outer shaft ring.

Advantageous effects

The feeding frame is driven to operate, materials are fed into the forming machine from the feeding frame, the mixer mixes the materials, the materials are formed through the material pressing structure and then are fed into the feeding frame to be discharged, when the mixer operates, the materials enter the polishing disc, namely enter the feeding cylinder and then fall to the distributing stirring blades along four sides of the distributing pipe, the distributing stirring blades sieve the materials, particles with standard specifications fall into the mixing rotating ring from the leakage hole, the particles with smaller specifications can slide to the distributing groove strips and are fed to the middle of the mixing rotating ring together with the particles with larger specifications, a later worker collects the particles, the particles with standard specifications enter the mixing rotating ring to be stirred and mixed under the rotation of the distributing stirring blades, when the feeding cylinder operates, the materials are intensively put into the material pushing cylinder and are fed to the distributing short pipes through the spiral frame in a spiral mode, the materials are conveyed orderly, and material blocking is avoided; after material mixing is completed, material is pressed and formed through the cover frame, the pressing device is used for pressing and forming, the pushing device pushes the forming square device, namely, pressure is applied to the material to form the material, in the process, the pressing cover plays a role in reinforcing transmission, the pressing aid plays a role in linkage pressing, the pressing aid rod is matched with the spiral shaft collar to stretch and retract when pushed through the installation top disc, the plate shaft rotates, in the process, the installation top disc plays a role in main force pressing, the spiral shaft collar plays an auxiliary pressing role in stretching, the plate shaft drives the pressing aid ring to rotate when rotating, pressing is achieved when rotating, triple linkage pressing is achieved, time consumed for repeatedly pressing and lifting is saved, the spiral shaft collar adopts a spiral mode to drive the plate shaft to rotate and lift when lifting, the spiral shaft can be in frequency transmission with the pressing aid rod and the plate shaft all the time, transmission is stable.

Compared with the prior art, the invention has the beneficial effects that: divide material stirring leaf to divide the sieve to the material, the granule of standard specification falls into compounding rotating ring internal mixing from the small opening, and the material quality improves, mixes more evenly, has reduced the compounding time, and press device's trigeminy is exerted pressure, has shortened processing consuming time, and the spiral axle collar adopts spiral drive plate axle rotatory lift when going up and down, and is more stable during the pressurization transmission, and the machining precision is high.

Drawings

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

fig. 1 shows a schematic structural diagram of a building cement brick molding device based on raw material reprocessing linkage pressing.

Fig. 2 shows a schematic structural view of the mixer according to the invention from above.

Fig. 3 shows a schematic structural diagram of a of fig. 2 of the present invention.

Fig. 4 shows a structural schematic diagram of the grinding disc of the present invention in a plan view.

Fig. 5 shows a schematic structural view of the front view of the feed cylinder of the invention.

Fig. 6 shows a schematic structural view of the swaging structure of the present invention.

Fig. 7 shows a schematic structural diagram of the pressing device of the present invention.

Fig. 8 shows a schematic structural diagram of the pressure aid of the present invention.

Fig. 9 shows a schematic top view of the screw collar of the present invention.

FIG. 10 shows a front cut-away schematic view of the helical collar of the present invention.

In the figure: the device comprises a feeding frame 1, a forming machine 2, a bottom frame 3, a supporting frame 4, a feeding frame 5, a motor 6, a mixer 20, a forming frame 21, a material pressing structure 22, a material mixing rotating ring 200, a material separating stirring blade 201, a grinding disc 202, a mounting plate strip 2010, a leakage hole 2011, a distribution groove strip 2012, a disc frame 2020, a distribution pipe 2021, a feeding cylinder 2022, a top material cylinder 700, a spiral frame 701, a distribution short pipe 702, a cover frame 220, a bottom frame 221, a material pressing device 222, a forming square machine 2220, a pressing cover 2221, a pusher 2222, a pressure booster 3, an engaging column 2224, a square opening 90, a booster ring 80, a booster rod 81, a spiral collar 82, a plate shaft 83, a mounting top disc 84, an inner spiral ring 820 and an outer collar 821.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Embodiment 1 please refer to fig. 1-5, the invention provides a technical scheme of building cement brick molding equipment based on raw material reprocessing linkage pressing, which comprises the following steps: the structure of the device comprises a feeding frame 1, a forming machine 2, a bottom frame 3, a supporting frame 4, a feeding frame 5 and a motor 6, wherein the feeding frame 1 is installed and connected with the forming machine 2, the forming machine 2 is locked with the bottom frame 3, the supporting frame 4 is connected with a shaft of the feeding frame 5, the feeding frame 5 is installed on the bottom frame 3, the forming machine 2 is assembled and connected with the feeding frame 5, the motor 6 is locked on the bottom frame 3, the forming machine 2 consists of a mixer 20, a forming rack 21 and a pressing structure 22, the mixer 20 is embedded and connected with the forming rack 21, the pressing structure 22 is installed on the forming rack 21, the mixer 20 comprises a mixing rotating ring 200, a distributing stirring blade 201 and a polishing disc 202, and particles with standard specifications enter the mixing rotating ring 200 to be stirred and mixed under the rotation of the distributing stirring blade 201, so that the material quality is improved, and the mixing is more, The material mixing time is reduced, the material distributing stirring blade 201 is installed on the material mixing rotating ring 200, the material mixing rotating ring 200 is fastened with the grinding disc 202, the material distributing stirring blade 201 comprises an installation lath 2010, a leakage hole 2011 and a distribution groove strip 2012, the installation lath 2010 is provided with a leakage hole 2011, the distribution groove strip 2012 is installed on the installation lath 2010, the material distributing stirring blade 201 is used for distributing materials, particles with standard specifications fall into the material mixing rotating ring 200 from the leakage hole 2011, the particles with small specifications can slide to the distribution groove strip 2012 and are sent to the middle of the material mixing rotating ring 200 together with the particles with large specifications, later-stage workers collect the materials to realize reasonable classification, the grinding disc 202 comprises a disc frame 2020, a distribution pipe 2021 and a feeding cylinder 2022, the disc frame 2020 is locked with the distribution pipe 2021, the distribution pipe 2021 is in threaded connection with the feeding cylinder 2022, the materials enter the feeding cylinder 2022 and then fall to the material distributing stirring blade 201 through the four sides of the distribution pipe 2021, the feeding cylinder 2022 comprises a top cylinder 700, a spiral rack 701 and a distributing short pipe 702, the top cylinder 700 is connected with the spiral rack 701 in an installing manner, the spiral rack 701 is embedded with the distributing short pipe 702, the materials are intensively thrown into the top cylinder 700 and are spirally conveyed to the distributing short pipe 702 through the spiral rack 701, the materials are conveyed orderly, and material blockage is further avoided.

The feeding frame 1 is driven to operate, materials are fed into the forming machine 2 from the feeding frame 1, the mixer 20 is used for mixing materials, the materials are formed through the material pressing structure 22 and are fed into the feeding frame 5 for discharging, when the mixer 20 operates, the materials enter the polishing disc 202, namely, the materials enter the feeding cylinder 2022 and then are distributed to the four sides of the distribution pipe 2021 and fall to the distribution stirring blades 201, the distribution stirring blades 201 are used for screening the materials, particles with standard specifications fall into the mixing rotating ring 200 from the leakage holes 2011, the particles with small specifications can slide to the distribution groove strips 2012 and are sent to the middle of the mixing rotating ring 200 together with the particles with large specifications, a later worker collects the particles, the particles with standard specifications enter the mixing rotating ring 200 and are stirred and distributed through the distribution stirring blades 201, when the feeding cylinder 2022 operates, the materials are intensively fed into the top material cylinder 700 and are sent to the short pipe 702 through the spiral frame 701, the materials are conveyed, avoiding the material blockage.

Embodiment 2 please refer to fig. 6-10, the invention provides a technical scheme of building cement brick molding equipment based on raw material reprocessing linkage pressing, which comprises the following steps: the pressing structure 22 comprises a cover frame 220, a bottom frame 221 and a pressing device 222, the cover frame 220 is locked with the bottom frame 221, the pressing device 222 is installed on the bottom frame 221, the pressing device 222 comprises a square former 2220, a pressing cover 2221, a pusher 2222, a pressure booster 2223 and a connecting column 2224, the pressure booster 2223 plays a role in linkage pressing and shortens processing time, the square former 2220 is provided with a square opening 90 for discharging, the square former 2220 is installed and connected with the pusher 2222 through the pressing cover 2221, the pressure booster 2223 is installed on the pusher 2222, the pusher 2222 is buckled with the connecting column 2224, the pusher 2222 pushes the square former 2220, namely, the material is formed by applying pressure on the material, transmission is simple and flexible, the pressure booster 2223 comprises a pressure boosting ring 22280, a pressure boosting rod collar 81, a spiral pressure boosting rod collar 82, a plate shaft 83 and an installation top plate 84, when the installation top plate 84 is pushed, the pressure boosting rod collar is matched with the spiral pressure boosting collar 82, the booster ring 80 is attached to the spiral shaft collar 82, the booster rod 81 penetrates through the spiral shaft collar 82, the compression-aid rod 81 and the spiral shaft collar 82 are connected with a plate shaft 83 through a shaft, the plate shaft 83 is connected with a mounting top disk 84 through a mounting, the plate shaft 83 rotates, the top disc 84 is installed to exert pressure by main force in the process, the spiral shaft collar 82 stretches to exert pressure by assistance, the plate shaft 83 drives the pressure-assisting ring 80 to rotate when rotating, pressure is exerted when rotating, triple linkage pressure application is realized, time consumption for repeatedly lifting and pressing is saved, the screw collar 82 comprises an inner screw ring 820, an outer collar 821, the outer collar 821 is provided with an inner screw ring 820, the spiral shaft collar 82 drives the plate shaft 83 to rotate and lift in a spiral mode when lifting, the plate shaft 83 can be always in one-frequency transmission with the compression-assisting rod 81 and the plate shaft 83, transmission is stable, and machining precision is high.

After material mixing is completed, the material is pressed and formed through the cover frame 220 and the pressing device 222, the pushing device 2222 pushes the forming square device 2220, namely, pressure is applied to the material to form the material, in the process, the pressing cover 2221 plays a role in reinforcing transmission, the pressing aid 2223 plays a role in linkage pressing, the pressing aid 81 and the spiral shaft collar 82 are matched and stretched when pushed through the mounting top disc 84, the plate shaft 83 rotates, in the process, the mounting top disc 84 plays a role in main force pressing, the spiral shaft collar 82 plays an auxiliary pressing role in stretching, the plate shaft 83 drives the pressing aid ring 80 to rotate when rotating, pressing is achieved during rotating, triple linkage pressing is achieved, time consumed for repeated lifting and pressing is saved, the spiral shaft collar 82 adopts a spiral mode to drive the plate shaft 83 to rotate and lift when lifting, the pressing aid 81 and the plate shaft 83 can be always kept in a frequency transmission mode, transmission is stable, and processing precision is high.

Compared with the prior art, the invention has the technical progress that: divide material stirring leaf 201 to divide the sieve to the material, the granule of standard specification falls into compounding in the compounding rotating ring 200 from the small opening 2011, and the material quality improves, mixes more evenly, has reduced the compounding time, and press device 222's triple action is exerted pressure, has shortened processing consuming time, and spiral axle collar 82 adopts spiral drive plate axle 83 rotatory lift when going up and down, and is more stable during the pressurization transmission, and the machining precision is high.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a building cement brick former based on raw materials reprocessing linkage is exerted pressure, its structure is including going into work or material rest (1), make-up machine (2), chassis (3), support frame (4), pay-off frame (5), motor (6), it is connected with make-up machine (2) erection to go into work or material rest (1), make-up machine (2) and chassis (3) locking, support frame (4) and pay-off frame (5) hub connection, pay-off frame (5) are installed on chassis (3), make-up machine (2) are assembled with pay-off frame (5) and are connected, motor (6) locking is on chassis (3), its characterized in that:

the forming machine (2) is composed of a mixer (20), a forming rack (21) and a pressing structure (22), the mixer (20) is embedded and connected with the forming rack (21), and the pressing structure (22) is installed on the forming rack (21).

2. The building cement brick molding equipment based on raw material reprocessing linkage pressure application according to claim 1, wherein: the blender mixer (20) comprises a mixing rotating ring (200), a distributing stirring blade (201) and a polishing disc (202), wherein the distributing stirring blade (201) is installed on the mixing rotating ring (200), and the mixing rotating ring (200) is buckled with the polishing disc (202).

3. The building cement brick molding equipment based on raw material reprocessing linkage pressure application according to claim 2, wherein: the material distributing and stirring blade (201) comprises an installation lath (2010), a leakage hole (2011) and a distributing groove strip (2012), wherein the installation lath (2010) is provided with the leakage hole (2011), and the distributing groove strip (2012) is installed on the installation lath (2010).

4. The building cement brick molding equipment based on raw material reprocessing linkage pressure application according to claim 2, wherein: the polishing disc (202) comprises a disc frame (2020), a distribution pipe (2021) and a feeding cylinder (2022), wherein the disc frame (2020) is locked with the distribution pipe (2021), and the distribution pipe (2021) is in threaded connection with the feeding cylinder (2022).

5. The building cement brick molding equipment based on raw material reprocessing linkage pressure application according to claim 4, wherein: the feeding cylinder (2022) comprises a top cylinder (700), a spiral frame (701) and a distributing short pipe (702), wherein the top cylinder (700) is connected with the spiral frame (701) in an installing mode, and the spiral frame (701) is embedded with the distributing short pipe (702).

6. The building cement brick molding equipment based on raw material reprocessing linkage pressure application according to claim 1, wherein: the pressing structure (22) comprises a cover frame (220), a bottom frame (221) and a pressing device (222), the cover frame (220) and the bottom frame (221) are locked, and the pressing device (222) is installed on the bottom frame (221).

7. The building cement brick molding equipment based on raw material reprocessing linkage pressure application according to claim 6, wherein: the pressing device (222) comprises a forming square device (2220), a pressing cover (2221), a pushing device (2222), a pressure aid device (2223) and a connecting column (2224), wherein the forming square device (2220) is provided with a square opening (90), the forming square device (2220) is connected with the pushing device (2222) through the pressing cover (2221), the pressure aid device (2223) is installed on the pushing device (2222), and the pushing device (2222) is buckled with the connecting column (2224).

8. The building cement brick molding equipment based on raw material reprocessing linkage pressing as claimed in claim 7, wherein: the booster (2223) comprises a booster ring (80), a booster rod (81), a spiral shaft collar (82), a plate shaft (83) and an installation top disc (84), the booster ring (80) is attached to the spiral shaft collar (82), the booster rod (81) penetrates through the spiral shaft collar (82), the booster rod (81), the spiral shaft collar (82) are connected with the plate shaft (83) shaft, and the plate shaft (83) is connected with the installation top disc (84) in an installation mode.

9. The building cement brick molding equipment based on raw material reprocessing linkage pressing as claimed in claim 8, wherein: the helical collar (82) comprises an inner helical ring (820), an outer collar (821), the outer collar (821) being provided with the inner helical ring (820).