CN211517932U - Production line of homogeneous heat-insulation fireproof plate for building wall - Google Patents

Abstract

The utility model discloses a production line of a building wall homogeneous heat-insulation fireproof plate, which mainly solves the problem of the production line of the building wall homogeneous heat-insulation fireproof plate, and comprises a mixed feeding mechanism for feeding and stirring raw materials, a plurality of mould boxes for receiving mixed blanking of the mixed feeding mechanism in a flow mode, and a model material pressing machine for compressing the mixed blanking in the mould boxes and performing molding, wherein the mixed feeding mechanism comprises a feeding part and a mixed material part; the pressing machine comprises a vibration compacting finished product and a compression finished product. By the proposal, the utility model discloses reach quick production, safe and reliable purpose, had very high practical value and spreading value in the mechanical equipment field.

Description

Production line of homogeneous heat-insulation fireproof plate for building wall

Technical Field

The utility model belongs to the technical field of mechanical equipment and specifically relates to a production line of building wall homogeneous heat preservation PLASTIC LAMINATED.

Background

The building heat-insulating fireproof plate is a novel material which is used for being arranged on a building wall body and has the functions of heat insulation; the traditional heat insulation layer is manually coated and bonded, is a thin layer, has poor heat insulation effect and is installed well or not depending on the skill of technical workers; meanwhile, the installation efficiency of the existing heat insulation layer is extremely low; therefore, the applicant especially provides a heat-insulating fireproof plate for a building wall, which mainly comprises the following components of redispersible latex powder, an effective water reducing agent, methyl cellulose ether, a coagulant, calcium formate, a reinforcing agent, silica fume, cement and water; however, the prior art does not have mechanical equipment for injection molding, so that a production line for a homogeneous heat-insulating fireproof plate of a building wall is urgently needed.

SUMMERY OF THE UTILITY MODEL

To the above problem, an object of the utility model is to provide a production line of building wall homogeneous heat preservation PLASTIC LAMINATED, the utility model discloses a technical scheme as follows:

a production line of a homogeneous heat-insulation fireproof plate for a building wall comprises a mixing and feeding mechanism for feeding and stirring raw materials, a plurality of mould boxes for receiving mixed blanking of the mixing and feeding mechanism in a flowing water mode, and a model material pressing machine for compressing the mixed blanking in the mould boxes and performing moulding;

the mixed feeding mechanism comprises a lifter mounting frame, a lifter fixed on the lifter mounting frame along the longitudinal direction, a charging hopper connected with the lifter and driven by the lifter to move up and down, a bulk cement bin and a small material bin arranged at the top of the lifter mounting frame, a three-layer structure, a mixer mounting frame arranged in parallel with the lifter mounting frame, a particle material metering bin and a powder weighing hopper which are all arranged at the top of the mixer mounting frame, a particle net box fixed on the ground and communicated with the particle material metering bin, a first batching auger and a second batching auger respectively arranged between the lifter mounting frame and the mixer mounting frame, a particle material temporary storage bin arranged on the upper layer of the mixer mounting frame and communicated with the particle material metering bin, a slurry mixer arranged on the upper layer of the mixer mounting frame and communicated with the powder weighing hopper, a slurry mixer fixed on the ground, The water tank is communicated with the slurry mixer, the special homogenizing plate mixer is arranged in the middle layer of the mixer mounting frame and is respectively connected with the particle material temporary storage bin and the slurry mixer, and the finished product bin is arranged at the bottom of the special homogenizing plate mixer, is arranged at the lower layer of the mixer mounting frame and is used for outputting the mixed materials; the outlet size of the finished product bin is the same as the size of an upper opening of the mold box;

the model press comprises a frame, a hydraulic cylinder and a hydraulic cylinder, wherein the frame is rectangular, the hydraulic cylinder is vertically arranged at the center of the top of the frame, the hydraulic cylinder clamping ring is arranged at the center of the plane of the top of the frame and used for fixing the hydraulic cylinder, a pressing plate is arranged at the end part of a hydraulic push rod of the hydraulic cylinder, two ends of the hydraulic cylinder are embedded into a chute of a stand column of the frame, the upper end of the hydraulic cylinder is hung at the edge of the pressing plate, the cross section of the hydraulic cylinder is a baffle in an inverted L shape, the hydraulic cylinder is arranged on a nearly.

Further, the bulk cement silo also comprises a feeding pipe for feeding the bulk cement.

Further, the particle net cage also comprises a fan for conveying particles.

Further, a discharge gate is arranged at the bottom of the finished product bin.

Further, the frame still includes spout, apron, stand, bottom plate and supporting leg, the below four corners department of bottom plate is provided with four supporting legs, the top of bottom plate, be provided with four stands along four corners, the spout has been seted up on the stand, the apron sets up in four stand upper ends, and corresponds the setting with the bottom plate, apron centre position seted up with the circular through-hole of pneumatic cylinder complex.

Furthermore, the pressure plate is rectangular, is provided with a plurality of vent holes and is in clearance fit with the opening of the mold box.

Further, the hydraulic cylinder also comprises an A port and a B port.

Compared with the prior art, the utility model discloses following beneficial effect has:

(1) the utility model is skillfully provided with the hoister, thus improving the efficiency of material warehousing;

(2) the utility model is skillfully provided with the burdening auger, so that the materials are delivered efficiently and uniformly;

(3) the utility model is skillfully provided with the particle material measuring bin, thereby ensuring the accuracy of the content of the particles in the production process of the product;

(4) the novel and ingenious arrangement of the powder weighing hopper ensures the accuracy of the powder content in the production process of the product;

(5) the utility model is skillfully provided with the special mixer for the homogeneous plate, which ensures that all components of the product are mixed uniformly;

(6) the utility model is skillfully provided with the vibrating device, and the tightness of the gap in the building wall heat-insulating fireproof plate material in the mould box is increased by vibrating the building wall heat-insulating fireproof plate material;

(7) the utility model is skillfully provided with the baffle, thereby ensuring that the position of the mould box can not move relative to the frame in the vibration process;

(8) the utility model discloses ingenious setting up the length of ingenious setting spout, guaranteed that the baffle can effectual spacing moulding box, guarantee simultaneously that the clamp plate has not been embedded into the moulding box yet, damage the pneumatic cylinder when having prevented the model vibration;

(9) the utility model skillfully hangs the upper end of the baffle on the edge of the pressing plate and drives the baffle to move up and down through the hydraulic push rod;

(10) the utility model skillfully arranges a plurality of exhaust holes on the pressure plate, further enhancing the tightness of the heat-insulating fireproof plate material of the building wall body in the extrusion process;

(11) the utility model skillfully arranges the tire at the bottom of the mould box, thereby promoting the transportation mobility of the material on the basis of ensuring the material forming;

the utility model discloses simple structure, good reliability and efficient have very high practical value and spreading value in the mechanical equipment field.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as a limitation of the scope of protection, and for those skilled in the art, other related drawings may be obtained from these drawings without inventive effort.

Fig. 1 is a front view of the structure of the present invention.

Fig. 2 is a left side view of the structure of the present invention.

Fig. 3 is a top view of the present invention.

Fig. 4 is the schematic structural diagram of the material pressing machine of the present invention.

Fig. 5 is a schematic view of the chute structure of the material pressing machine of the present invention.

Fig. 6 is a main view of the material pressing machine of the present invention.

In the drawings, the names of the parts corresponding to the reference numerals are as follows:

1-a loading hopper, 2-a hoisting machine, 3-a feeding pipe, 4-a bulk cement bin, 5-a small storage bin, 6-a water tank, 7-a granular net cage, 8-a fan, 91-a first proportioning auger, 92-a second proportioning auger, 10-a granular material metering bin, 11-a powder weighing hopper, 12-a granular material temporary storage bin, 13-a slurry mixer, 14-a homogenizing plate transfer mixer, 15-a finished product bin, 16-a discharge gate, 17-a mould box, 18-a material pressing machine, 181-a rack, 182-a hydraulic cylinder, 183-a hydraulic cylinder clamp ring, 184-a baffle plate, 185-a pressing plate, 186-a vibrating device, 187-a clamp ring, 1811-a chute, 1812-a cover plate, 1813-an upright post, 1814-a bottom plate and 1815-a supporting leg, 1821-A port, 1822-B port.

Detailed Description

To make the objectives, technical solutions and advantages of the present application more clear, the present invention will be further described with reference to the accompanying drawings and examples, and embodiments of the present invention include, but are not limited to, the following examples. 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 application.

Examples

As shown in fig. 1 to 6, in the present embodiment, a production line of a homogeneous thermal insulation fire-proof plate for a building wall is disclosed, and it should be noted that, in the present embodiment, the terms of "first", "second", and the like are only used for distinguishing similar components, and cannot be understood as a specific limitation to the protection scope. In the present embodiment, the terms of orientation such as "bottom", "top", "peripheral edge", "center", and the like are explained based on the drawings.

Specifically, the production line of the building wall homogeneous heat-insulation fireproof plate comprises a mixing and feeding mechanism for feeding and stirring raw materials, a plurality of mould boxes 17 for receiving mixed blanking of the mixing and feeding mechanism in a flowing water mode, and a model material pressing machine 18 for compressing the mixed blanking in the mould boxes and performing moulding;

the mixing and feeding mechanism comprises a lifter mounting frame, a lifter 2 fixed on the lifter mounting frame along the longitudinal direction, a charging hopper 1 connected with the lifter 2 and driven by the lifter 2 to move up and down, a bulk cement bin 4 and a small bin 5 arranged at the top of the lifter mounting frame, a mixer mounting frame adopting a three-layer structure and arranged in parallel with the lifter mounting frame, a granular material metering bin 10 and a powder weighing hopper 11 both arranged at the top of the mixer mounting frame, a granular net cage 7 fixed on the ground and communicated with the granular material metering bin 10, a first batching auger 91 and a second batching auger 92 respectively arranged between the lifter mounting frame and the mixer mounting frame, a granular material temporary storage bin 12 arranged at the upper layer of the mixer mounting frame and communicated with the granular material metering bin 10, and a slurry mixer 13 arranged at the upper layer of the mixer mounting frame and communicated with the powder weighing hopper 11, the device comprises a water tank 6 fixed on the ground and communicated with a slurry mixer 13, a special homogenizing plate mixer 14 arranged in the middle layer of a mixer mounting frame and respectively connected with a particle material temporary storage bin 12 and the slurry mixer 13, and a finished product bin 15 arranged at the bottom of the special homogenizing plate mixer 14, arranged at the lower layer of the mixer mounting frame and used for outputting mixed materials; the outlet size of the finished product bin 15 is the same as the size of an upper opening of the mold box 17;

the model material pressing machine 18 comprises a frame 181 which is rectangular in shape, a hydraulic cylinder 182 which is installed at the center of the top of the frame 181 and is vertically placed, a hydraulic cylinder clamping ring 183 which is installed at the center of the top plane of the frame 181 and is used for fixing the hydraulic cylinder 182, a pressing plate 185 which is arranged at the end part of a hydraulic push rod of the hydraulic cylinder 182, a baffle 184 which is embedded into a vertical column chute of the frame 181 at two ends, hung at the edge of the pressing plate 185 at the upper end and has an inverted L-shaped section, two clamping rings 187 which are installed on the nearly horizontal plane of the bottom of the frame 181 and are symmetrically arranged along the center of an.

The bulk cement bin 4 further comprises a feeding pipe 3 for feeding bulk cement, the particle net cage 7 further comprises a fan 8 for conveying particulate matters, the bottom of the finished product bin 15 is provided with a discharge gate 16, the frame 181 further comprises a chute 1811, a cover plate 1812, upright posts 1813, a bottom plate 1814 and supporting legs 1815, four supporting legs 1815 are arranged at four corners below the bottom plate 1814, four upright posts 1813 are arranged above the bottom plate 1814 and along four corners, the upright posts 1813 are provided with the chute 1811, the cover plate 1812 is arranged at the upper ends of the four upright posts 1813 and corresponds to the bottom plate 1814, a circular through hole matched with the hydraulic cylinder 182 is formed in the center of the cover plate 1812, the pressing plate 185 is rectangular, a plurality of vent holes are formed in the pressing plate and are in clearance fit with an opening of the mold box 17, and the hydraulic cylinder 182 further comprises an A port 1821 and a B port.

The working principle of the device is as follows:

the first step is as follows: when production starts, materials are conveyed to each material bin synchronously, small materials are loaded into a charging hopper 1, the charging hopper 1 is driven to move upwards by a lifting machine 2 until the small materials are poured into an opening at the upper end of a small material bin 5; the feeding pipe 3 conveys bulk cement to the bulk cement bin 4; adding particulate matter to the particle cage 7; delivering tap water to the water tank 6.

The second step is that: the first batching auger 91 conveys the small materials to the powder weighing hopper 11, and the second batching auger 92 conveys the bulk cement to the powder weighing hopper 11; meanwhile, the granular materials are blown into the granular material metering bin 10 by the fan 8;

the third step: after the particle material is measured by the particle material measuring bin 10, the particle material is fed into the particle material temporary storage bin 12, a certain amount of powder is input into the powder material weighing hopper 11, and water is fed into the slurry mixer 13 by the water tank 6 through the pressure pump to generate slurry;

the fourth step: the slurry mixer 13 and the particle material temporary storage bin 12 simultaneously convey two materials to the homogenizing plate transfer mixer 14 to start to prepare products;

the fifth step: after the uniform board is produced by the mixer 14, the product is poured into a finished product bin 15, the finished product is controlled by a discharge gate 16 to be poured into a mould box 17, and the finished product is conveyed to a material pressing machine 18;

and a sixth step: after the die box 17 reaches the positive position of the bottom plate 1814 of the material pressing machine 18, the front and the back of the die box 17 are limited by the front and the back of the four upright posts 1813 of the material pressing machine 18, the hydraulic cylinder 182 is started, the hydraulic pump starts to pump liquid to the opening A1821, the hydraulic push rod is pushed downwards, the baffle 184 slides downwards to the bottom of the chute 1811 under the action of gravity, at the moment, the pressing plate 185 below the hydraulic cylinder 182 does not enter the die box 17, and meanwhile, the baffle 184 blocks the left and the right limits of the die box 17;

the seventh step: the vibrating device 186 begins to vibrate according to the machining process requirements;

eighth step: after the vibration is finished, the hydraulic cylinder 182 is started again, the hydraulic pump starts to pump liquid to the port A1821, the hydraulic push rod is pushed downwards, and the finished product material in the die box 17 is extruded downwards according to the processing technology;

the ninth step: after extrusion is finished, the hydraulic cylinder 182 is started again, the hydraulic pump starts to pump liquid to the port B1822, the hydraulic push rod is pushed upwards, the hydraulic push rod moves to the bottom end of the chute 1811 to drive the baffle 184 to move upwards together until the left and right limits of the baffle 184 are removed, and the die box 17 is conveyed out of the material pressing machine 18;

the above-mentioned embodiments are merely preferred embodiments of the present invention, and are not limitations on the protection scope of the present invention, but all the changes made by adopting the design principle of the present invention and performing non-creative work on this basis shall fall within the protection scope of the present invention.

Claims (7)

1. A production line of a building wall homogeneous heat-insulation fireproof plate is characterized by comprising a mixed feeding mechanism for feeding and stirring raw materials, a plurality of mould boxes (17) for receiving mixed blanking of the mixed feeding mechanism in a flow mode, and a model material pressing machine (18) for compressing the mixed blanking in the mould boxes and performing moulding;

the mixed feeding mechanism comprises a lifter mounting frame, a lifter (2) fixed on the lifter mounting frame along the longitudinal direction, a charging hopper (1) connected with the lifter (2) and driven by the lifter (2) to move up and down, a bulk cement bin (4) and a small bin (5) arranged at the top of the lifter mounting frame, a mixer mounting frame adopting a three-layer structure and arranged in parallel with the lifter mounting frame, a granular material metering bin (10) and a powder weighing hopper (11) which are arranged at the top of the mixer mounting frame, a granular net box (7) fixed on the ground and communicated with the granular material metering bin (10), a first batching auger (91) and a second batching auger (92) respectively arranged between the lifter mounting frame and the mixer mounting frame, a granular material temporary storage bin (12) arranged at the upper layer of the mixer mounting frame and communicated with the granular material metering bin (10), the mixing device comprises a slurry mixer (13) which is arranged on the upper layer of a mixer mounting frame and is communicated with a powder weighing hopper (11), a water tank (6) which is fixed on the ground and is communicated with the slurry mixer (13), a special homogenizing plate mixer (14) which is arranged on the middle layer of the mixer mounting frame and is respectively connected with a particle material temporary storage bin (12) and the slurry mixer (13), and a finished product bin (15) which is arranged at the bottom of the special homogenizing plate mixer (14), is arranged on the lower layer of the mixer mounting frame and is used for outputting the mixed materials; the outlet size of the finished product bin (15) is the same as the size of the upper opening of the mold box (17);

model swager (18) are frame (181) of cuboid including the appearance, install in frame (181) top center, and vertical pneumatic cylinder (182) of placing, install in frame (181) top plane central point, and be used for pneumatic cylinder rand (183) of fixed pneumatic cylinder (182), set up clamp plate (185) at the hydraulic push rod tip of pneumatic cylinder (182), both ends embedding frame (181) stand spout in, the upper end is hung at clamp plate (185) edge, and the cross-section is baffle (184) of falling L shape, install on frame (181) bottom nearly ground plane, and along two snap rings (187) that axis centrosymmetric set up, install vibrating device (186) on snap ring (187).

2. A production line for building wall homogeneous thermal insulation fire-proof plates according to claim 1, wherein the bulk cement silo (4) further comprises a feeding pipe (3) for feeding bulk cement.

3. A production line for building wall homogeneous thermal insulation fire-proof boards according to claim 1, wherein the particle net cage (7) further comprises a fan (8) for conveying particles.

4. The production line of the building wall homogeneous heat-insulation fireproof plate according to claim 1, wherein the bottom of the finished product bin (15) is provided with a discharge gate (16).

5. The production line of the building wall homogeneous heat-insulating fireproof plate according to claim 1, wherein the rack (181) further comprises a chute (1811), a cover plate (1812), upright posts (1813), a bottom plate (1814) and supporting legs (1815), four supporting legs (1815) are arranged at four corners below the bottom plate (1814), four upright posts (1813) are arranged above the bottom plate (1814) along four corners, the chute (1811) is formed in the upright post (1813), the cover plate (1812) is arranged at the upper ends of the four upright posts (1813) and corresponds to the bottom plate (1814), and a circular through hole matched with the hydraulic cylinder (182) is formed in the center of the cover plate (1812).

6. The production line of the homogeneous heat-insulating fireproof plate for the building wall according to claim 1, wherein the pressing plate (185) is rectangular, has a plurality of vent holes formed thereon, and is in clearance fit with the opening of the mold box (17).

7. The production line of the homogeneous heat-insulating fire-proof plate for the building wall body as claimed in claim 1, wherein the hydraulic cylinder (182) further comprises an A port (1821) and a B port (1822).

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