CN211566463U - Portable multi-use architecture material production facility - Google Patents

Abstract

The utility model discloses a mobile multifunctional building material production device, which comprises a base and a tank body provided with a feeding pipe and a vent pipe; the jar body is adorned on the base, be equipped with material conveyor on the base, the mixer and be equipped with the additive measuring pump device of outer additive export, unloader is equipped with on the discharge gate of jar body lower extreme, two feed inlets have been seted up on the mixer, a feed inlet docks with unloader's discharge gate, a feed inlet docks with material conveyor's discharge gate, still set up the filling opening of an outer additive and water sharing on the mixer, outer additive exit linkage is to on the filling opening on the mixer, all be equipped with the electronic scale on four legs of mixer support and the jar body, be equipped with the control box on the base, the control box is respectively in the mixer electronic scale, jar body electronic scale, the mixer, additive measuring pump device, material conveyor and unloader link. The method is mainly used for non-two-line cities, so that the labor cost and the construction cost are reduced, and the production efficiency is improved.

Description

Portable multi-use architecture material production facility

Technical Field

The utility model belongs to the technical field of the construction, especially, relate to a portable multi-use architecture material production facility.

Background

At present, the development situation of popularization and use of the ready-mixed mortar in China has made certain progress in policy systems and organization management construction, but the ready-mixed mortar is mainly forced by policies, and the coverage utilization rate of the ready-mixed mortar across the country is not high due to the restriction factors of the development of the ready-mixed mortar product. Firstly, regarding the ready-mixed mortar product, the ready-mixed mortar in the domestic first and second-line cities is produced in an industrial manner, the occupied area is large, the investment cost of facilities such as production lines and logistics equipment is high, and in addition, the sand is dried at high temperature by the technical requirement of the production process, so that the cost of the ready-mixed mortar is high, and the problem of segregation is generally existed, so that the popularization work of the ready-mixed mortar is relatively high, and the domestic non-first and second-line cities are difficult to effectively popularize. Secondly, on the market level, the ready-mixed mortar has a high price, low social cognition and high market promotion difficulty.

Especially, the popularization and use rate of the premixed mortar in non-two-line cities in China is not high, and the mortar production still depends on the traditional stirring. Firstly, the traditional stirring is mainly produced by a drum mixer at present, and the problems of metering and proportioning by manual experience, unstable quality of finished mortar batches and the like always exist. Secondly, the traditional stirring links are many, the occupied labor force is many, the labor cost is high, and the labor productivity is low. Finally, the traditional stirring requires the raw materials to be stacked in the open air, and the phenomena of throwing, sprinkling, overflowing, dripping and leaking exist in the transportation process, so that dust pollution is easily caused.

Meanwhile, in the aspect of the use of raw materials, the traditional stirring can only be used for producing bagged cement at present. The bagged cement is piled up for more than three months, and the strength performance is obviously reduced. And the bagged cement needs to be carried for at least 3 times from factory leaving to use, the cement losses such as unpacking residue, packaging damage and the like are at least 5 percent or more, not only manpower and material resources are wasted, but also the health of workers is seriously damaged due to dust pollution, and the construction cost is also increased invisibly.

In the aspect of environmental benefit, if the output of the drum mixer used by the traditional mixing is more than 30 tons, the occupied area for storing raw materials is about 40 square meters, so that the occupied area is large and dust pollution is easily caused. Secondly, bagged cement and sand must be carried for several times from leaving the factory to using, and dust pollution in the processes of loading, transporting, unloading, dismantling and the like causes the health hidden danger of workers to exist all the time. Finally, the whole production link of traditional stirring is accomplished by manpower except stirring, and artifical intensity of labour is big, and operational environment is abominable. At present traditional stirring uses city building rubbish waste material fewly, and is various when retrieving because of the building rubbish waste material, and probably contains the harmful substance that human body can not direct contact, and traditional stirring mainly relies on artifical feed in addition, causes the unable direct use of the raw and other materials traditional stirring of screening out. With the continuous development of cities, the hidden danger of building garbage pollution is witnessed, the resource utilization of the building garbage in China is to be improved urgently, and therefore the design and use of stirring equipment capable of realizing secondary utilization of the building garbage is in the trend.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an above-mentioned technical problem who solves provides a portable multi-use architecture material production facility, mainly to non-two line cities, has reduced human cost and construction cost, has improved production efficiency.

The utility model discloses a realize through following technical scheme:

a mobile multifunctional building material production device comprises a tank body, a base, a material conveying device, a discharging device, a stirrer and an additive metering pump device; the tank body is arranged on the base, the base is provided with a material conveying device, a stirrer and an additive metering pump device, a discharging port at the lower end of the tank body is provided with a discharging device, the stirrer is provided with two feeding ports, one feeding port is butted with a discharging port of the discharging device, the other feeding port is butted with a discharging port of the material conveying device, the stirrer is further provided with a liquid adding port shared by an external additive and water, four legs of a stirrer support are respectively provided with a stirrer electronic scale, the additive metering pump device is provided with an external additive outlet, the external additive outlet is connected to the liquid adding port on the stirrer through a conveying pipe, the four legs of the tank body are respectively provided with a tank body electronic scale, the base is provided with a control box, and the control box is respectively connected with the stirrer, the material conveying device is connected with the blanking device, and the tank body is also provided with a feeding pipe and a vent pipe.

The blanking device comprises a blanking rotating disc valve, a speed reducer, a motor and a discharge hole; the speed reducer is installed to the motor below, and the unloading rotates the dish valve and is connected with the speed reducer, installs unloading rotation dish valve on the discharge gate of jar body lower extreme, and the discharge gate is installed to unloading rotation dish valve lower extreme, and the control box links to each other with the motor, and the discharge gate links to each other with a feed inlet on the mixer.

The blanking rotating disc valve comprises a mandrel, an elastic body, an upper disc shell, an upper rotating body, a seal, a lower disc, a lower rotating body, a seal, a driving device and a lower disc shell; an upper disc shell is installed on a discharge port at the lower end of the tank body, a lower disc shell is fixed below the upper disc shell, a discharge port is fixed below the lower disc shell, a blanking channel is formed after the upper disc shell and the lower disc shell are connected, a mandrel sequentially penetrates through an elastic body, an upper disc, an upper rotating body, a seal, a lower disc, a lower rotating body, a seal and a driving device and then is installed on the driving device, the driving device is connected to a speed reducer, blanking channels are arranged on the upper disc and the lower disc, the blanking channels on the upper disc and the lower disc are arranged in a staggered mode, and a plurality of groups of blades are evenly arranged on the mandrel from top to.

The driving device comprises a large gear, a small gear and a chain meshed with the large gear and the small gear, the large gear is arranged on the mandrel, the small gear is arranged on a bearing of the speed reducer, and the large gear is connected with the small gear through the chain.

The material conveying device comprises a lifter, a hopper, a positive and negative screw conveyor, a batching feed inlet, a positive and negative screw transmission device, a lifter motor and a speed reducer; the base is provided with a lifter and a hopper; the lifting machine upper end is fixed on the jar body, the hopper is located lifting machine the place ahead, be provided with in the hopper and be used for feeding the positive and negative screw conveyer to the lifting machine with the material in the hopper, set up the batching feed inlet that is used for sending into the material to the lifting machine in the hopper, the batching feed inlet docks with the feed inlet of lifting machine, one side of lifting machine is provided with lifting machine motor and speed reducer, the speed reducer is connected to on the inside axle of lifting machine, the other end of lifting machine axle is connected to positive and negative screw drive, positive and negative screw conveyer also is connected to on the positive and negative screw drive.

The positive and negative screw transmission device comprises two gears and a chain, one gear is arranged on a shaft of the hoister, the other gear is arranged on a shaft of the positive and negative screw conveyor, and the two gears are connected through the chain.

The hoister comprises a frame, a speed reducer and a bearing assembly; the frame comprises a conveying hopper and a discharge port of the hoister; conveying hopper one end is fixed on the base, the other end is fixed on the jar body, the conveying hopper upper end is provided with the lifting machine discharge gate, the lifting machine discharge gate links to each other with a feed inlet on the mixer, conveying hopper below is provided with the feed inlet, bearing assembly is all installed at both ends about the conveying hopper, the speed reducer is connected with the hub connection among the lower extreme bearing assembly, the other end of the axle among the lower extreme bearing assembly is connected to positive and negative helical drive device, all install the starter wheel on the bearing assembly at upper and lower both ends, install the flexible band on two starter wheels, the conveying hopper.

The stirrer comprises an upper cover, a stirring hopper, a stirrer motor, a speed reducer and a stirrer support; be provided with mixer motor and the speed reducer that is used for providing the power supply to the stirring bucket on the mixer support, the stirring bucket is fixed on the mixer support, is provided with the mixer discharge gate below the stirring bucket, is provided with the (mixing) shaft in the stirring bucket, and (mixing) shaft one end is the bearing, is connected to on the speed reducer after installing seal assembly on the other end, and the control box links to each other with mixer motor and speed reducer.

The stirring machine motor and the speed reducer in the speed reducer are provided with a chain wheel chain, one end of the stirring shaft is a bearing, and the other end of the stirring shaft is provided with a sealing assembly and then is connected to the chain wheel chain.

The tank body is also provided with a lifting lug, a ladder stand and an artificial opening.

The mobile multifunctional building material production equipment is also provided with a liquid level control water tank; the material conveying device is also provided with a feeding machine.

The additive metering pump device comprises a liquid storage tank, a shell and an external additive pump body; the outer shell is provided with a liquid storage tank, and an external additive pump body is arranged in the outer shell; the external additive pump body comprises a power supply control module, an electric control mechanical expansion device, a fixed frame, a range metering control device, a stroke driving device and a plunger type metering pump with an external additive outlet; the plunger type metering pump is installed on the fixed frame, the plunger type metering pump is communicated with the liquid storage tank through a pipeline, telescopic device supports are installed at two ends of an electric control mechanical telescopic device, one end of the electric control mechanical telescopic device is installed on the fixed frame through the telescopic device supports, the other end of the electric control mechanical telescopic device and the plunger type metering pump are installed on the stroke driving device together, a track support in the stroke driving device is installed on the fixed frame, the range metering control device is connected to the stroke driving device, and the power supply control module is connected with the range metering control device and the electric control mechanical telescopic device respectively.

The stroke driving device comprises a running scale base plate, a stroke driving plate and three groups of sliding assemblies; the stroke drive plate is arranged on the plunger type metering pump and a telescopic device bracket at the other end of the electric control mechanical telescopic device, a running scale base plate is arranged on the stroke drive plate, a track slide block in a first group of sliding assemblies is arranged on the running scale base plate, the first group of sliding assemblies is arranged on one side of the fixed frame, a second group of sliding assemblies is arranged on the other side of the fixed frame, and a third group of sliding assemblies is arranged on the second group of sliding assemblies; each group of sliding assemblies comprises a track sliding block, a track and a track bracket; the rail slider is installed on the track, and the track is installed on the track support, and the track support is installed on fixed frame.

The measuring range metering control device comprises a preset scale stroke plate, a preset scale base plate, a screw rod, a coupler, a motor bracket, a motor, an operating switch and two groups of electromagnetic induction devices; each group of electromagnetic induction devices comprises an electromagnetic sensor and an electromagnetic sensor bracket, and the electromagnetic sensor is arranged on the electromagnetic sensor bracket; an electromagnetic sensor support in a first group of electromagnetic induction devices is fixed on an operation scale substrate, an electromagnetic sensor support in a second group of electromagnetic induction devices is fixed on a track sliding block of a third sliding assembly, a motor is installed on the motor support, a coupler is connected on the motor, a lead screw is connected on the coupler and is positioned between the second sliding assembly and the third sliding assembly, a preset scale substrate is installed on a preset scale stroke plate, the upper end of the preset scale stroke plate is hung on the lead screw, the lower end of the preset scale stroke plate is installed on the track sliding blocks in the second group of sliding assemblies and the third sliding assembly, an operating switch is installed on a shell, and the operating switch is respectively connected with the motor and a power supply control module; the operation scale substrate and the preset scale substrate are both provided with scale marks; the scale mark has a beginning mark of 0 and an end mark of 10.

The power supply control module comprises a working power supply, an execution relay, a circuit element bracket and a computer board; the working power supply, the execution relay and the computer board are arranged on the circuit element support, the circuit element support is arranged on the plunger type metering pump and the fixed frame, the execution relay and the computer board are connected to the working power supply, the computer board is connected to the execution relay, and the execution relay is connected to the electric control mechanical telescopic device.

The plunger type metering pump is provided with a sealable external additive outlet; the electric control mechanical telescopic device comprises an electric control mechanical telescopic rod and a motor for driving the electric control mechanical telescopic rod to stretch; the plunger type metering pump comprises a plunger type metering pump body and a plunger rod which stretches and retracts in the plunger type metering pump body to compress liquid, and the plunger rod is connected with the stroke driving plate.

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

1. in the field of production of construction equipment, on one hand, the equipment improves the structure of the traditional mortar tank, integrates raw material storage and production, is simple and convenient to install and convenient to carry, and can be used after being powered on site. On the other hand, the equipment is improved in aspects of use, transportation, storage and the like of raw materials, and the production flow of building material products such as mortar and concrete is optimized under the condition of ensuring the quality of finished mortar products.

2. The equipment can replace the traditional mortar stirring mode, effectively improve the social productivity and the building material production technology of relevant areas, further improve the coverage rate of the ready-mixed mortar and the bulk cement in the national range, improve the industrial competitiveness of relevant building material products and reduce the environmental pollution caused by building construction.

3. In the aspects of social benefit and economic benefit:

(1) the equipment has small floor area, is convenient to move and high in yield, can replace the original traditional stirring production mode, improves the utilization rate of land resources, and indirectly drives various regions to develop economy.

(2) The mechanical production reduces the labor intensity of personnel, improves the working environment, and reduces the damage to the human health caused by raised dust, noise and the like of the construction site.

(3) The optimization of the production link improves the resource utilization rate of natural resources such as cement, sand and the like and social resources, and promotes the comprehensive utilization of resources.

(4) The accurate weighing system and the high-performance control can effectively improve the quality of the construction engineering in each area and promote the technical progress in the construction field.

(5) Coarse and fine aggregates in the construction waste can be screened, and the production of building material products such as concrete, mortar and the like with corresponding strength grades can be directly carried out, so that the purposes of waste utilization, energy conservation and emission reduction are achieved, and the resource utilization of the construction waste is realized.

(6) The construction site does not need to store bagged cement, the construction site environment is effectively purified, compared with the existing building material product production equipment, the equipment has the advantages that the hidden pollution danger in each link is reduced to the minimum, once the equipment is put into use, the pollution of the building material product production to the environment is effectively improved, and the building construction is more environment-friendly.

(7) Compared with a drum mixer used by the traditional mixing, the equipment has the advantages of comparable investment cost, obvious advantages in the aspects of service life and production efficiency, and favorable conditions for promoting the development of circular economy and building a resource-saving society.

Drawings

Fig. 1 is a schematic structural diagram 1 of a mobile multifunctional building material production device provided by the present invention;

fig. 2 is a schematic structural diagram 2 of the mobile multifunctional building material production equipment provided by the utility model;

FIG. 3 is an enlarged view of a portion A of FIG. 2;

FIG. 4 is a sectional view taken along line B-B of FIG. 3;

FIG. 5 is a cross-sectional view taken along line C-C of FIG. 3;

fig. 6 is a schematic structural diagram 3 of the mobile multifunctional building material production equipment provided by the present invention;

fig. 7 is a schematic structural diagram 4 of the mobile multifunctional building material production equipment provided by the present invention;

fig. 8 is a schematic structural diagram 5 of the mobile multifunctional building material production equipment provided by the present invention;

fig. 9 is a schematic structural diagram 6 of the mobile multifunctional building material production equipment provided by the present invention;

fig. 10 is a schematic structural diagram 7 of the mobile multifunctional building material production equipment provided by the present invention;

fig. 11 is a schematic structural diagram 1 of a hoist in the mobile multifunctional building material production equipment provided by the present invention;

fig. 12 is a schematic structural diagram 2 of a hoist in the mobile multifunctional building material production equipment provided by the present invention;

fig. 13 is a schematic structural diagram 3 of a hoist in the mobile multifunctional building material production equipment provided by the present invention;

FIG. 14 is a sectional view taken along line A-A of FIG. 13;

FIG. 15 is a schematic structural diagram of a blender in the mobile multifunctional building material production equipment of the present invention, which is shown in FIG. 1;

FIG. 16 is the schematic structural diagram of a mixer in the mobile multi-purpose building material production equipment of the present invention shown in FIG. 2

FIG. 17 is a schematic structural diagram of a blender in the mobile multifunctional building material production equipment provided by the present invention, FIG. 3;

fig. 18 is the structure diagram of the dosing pump device in the mobile multifunctional building material production equipment provided by the utility model.

Wherein, 1 is a tank body; 2 is a lifting lug; 3 is a ladder stand; 4 is an additive metering pump device; 5 is a blanking rotating disc valve; 6, a stirrer; 7 is an artificial mouth; 8 is a hoisting machine; 9 is a hopper; 10 is a base; 11 is a feeding pipe; 12 is a vent pipe; 13 is a speed reducer; 14 is a motor; 15 is a mandrel; 16 is an elastomer; 17 is an upper disc; 18 is an upper disc shell; 19, an upper rotating body and sealing; 20 is a lower disc; 21 lower rotor and sealing; 22 is a driving device; 23 is a lower disc shell; 24 is a discharge hole; 25 is a stirrer electronic scale; 26 is a control box; 27 is a positive and negative screw conveyor; 28 is a feed inlet for ingredients; 29 is a positive and negative screw transmission device; 30 is a discharge port of the stirrer; 31 is a stirrer motor and a speed reducer; 32 is a hoist motor; 33 is a conveying pipe; 34 is an upper cover; 35 is a stirring hopper; 36 is a stirrer support; 37 is a bearing; 38 is a seal assembly; 39 is a chain wheel and a chain; 40 is a frame; 41 is a reducer of the hoister; 42 is a bearing assembly; 43 is a discharge port of a hoister; 44 is a feed inlet; 45 is a starting wheel; 46 is a flexible band; 47 is a conveying hopper; 48 is a skin; 49 is a tank body electronic scale; 4-1 is a liquid storage tank; 4-2 is a shell; 4-3 is a working power supply; 4-4 is an execution relay; 4-5 are circuit element supports; 4-6 are computer boards; 4-7 are electromagnetic sensors; 4-8 are electromagnetic sensor supports; 4-9 is a running scale substrate; 4-10 is an electric control mechanical telescopic device; 4-11 is a telescopic device bracket; 4-12 are track sliders; 4-13 are stroke driving plates; 4-14 are tracks; 4-15 are track supports; 4-16 is a plunger type metering pump; 4-17 are fixed frames; 4-18 is a preset scale stroke plate; 4-19 is a preset scale base plate; 4-20 is a screw rod; 4-21 are couplings; 4-22 are motor supports; 4-23 are motors; 4-24 are operation switches.

Detailed Description

The present invention will now be described in further detail with reference to specific examples, which are intended to be illustrative, but not limiting, of the invention.

Referring to fig. 1 to 18, a mobile multifunctional building material production facility comprises a tank body 1, a base 10, a material conveying device, a blanking device, a stirrer 6 and an additive metering pump device 4; the tank body 1 is arranged on a base, a material conveying device, a stirrer 6 and an additive metering pump device 4 are arranged on the base 10, a discharging device is arranged on a discharging port at the lower end of the tank body 1, two feeding ports are formed in the stirrer 6, one feeding port is in butt joint with a discharging port 24 of the discharging device, the other feeding port is in butt joint with a discharging port of the material conveying device, a liquid adding port shared by an external additive and water is further formed in the stirrer 6, an external additive outlet is formed in the additive metering pump device 4 and is connected to a liquid adding port in the stirrer 6 through a conveying pipe 33, stirrer electronic scales 25 are further respectively arranged on four legs of a stirrer support, tank bodies 49 are also respectively arranged on the four legs of the tank body 1, a control box 26 is arranged on the base 10, and the control box 26 is, The tank body electronic scale, the stirrer 6, the additive metering pump device 4, the material conveying device and the blanking device are connected, and the tank body 1 is also provided with a feeding pipe 11 and a vent pipe 12. The mixer is a forced mixer.

The blanking device comprises a blanking rotating disc valve 5, a speed reducer 13, a motor 14 and a discharge hole 24; a speed reducer 13 is arranged below the motor 14, the blanking rotating disc valve 5 is connected with the speed reducer 13, the blanking rotating disc valve 5 is arranged on the discharge port at the lower end of the tank body 1, a discharge port 24 is arranged at the lower end of the blanking rotating disc valve 5, the control box 26 is connected with the motor 14, and the discharge port 24 is connected with a feed port on the stirring machine 6.

It should be noted that the blanking device can also be a screw conveyor to convey the materials in the tank body.

The blanking rotating disc valve 5 comprises a mandrel 15, an elastic body 16, an upper disc 17, an upper disc shell 18, an upper rotating body and seal 19, a lower disc 20, a lower rotating body and seal 21, a driving device 22 and a lower disc shell 23; an upper disc shell 18 is mounted on a discharge port at the lower end of the tank body 1, a lower disc shell 23 is fixed below the upper disc shell 18, a discharge port 24 is fixed below the lower disc shell 23, the upper disc shell 18 and the lower disc shell 23 are connected to form a blanking channel, a mandrel 15 sequentially penetrates through an elastic body 16, an upper disc 17, an upper rotating body, a lower rotating body, a seal 19, a lower disc 20, a lower rotating body, a seal 21 and a driving device 22 and then is mounted on the driving device 22, the driving device 22 is connected to a speed reducer 13, blanking channels are arranged on the upper disc and the lower disc, the blanking channels on the upper disc and the lower disc are arranged in a staggered mode, and a plurality of groups of blades are uniformly arranged on the mandrel; the driving device 22 includes a large gear, a small gear and a chain engaged with the large gear and the small gear, the large gear is mounted on the mandrel 15, the small gear is mounted on the bearing of the speed reducer 13, and the large gear and the small gear are connected through the chain.

It should be noted that the meaning of the staggered arrangement of the blanking channels on the upper disc and the lower disc means that the blanking channels of the upper disc and the lower disc are staggered at a certain position every time, the two channels are not aligned up and down, during blanking, the lower disc is closed first, the material falls from the blanking channel in the upper disc and enters the upper disc shell, then the lower disc opens the material and falls from the blanking channel of the lower disc and enters the lower disc shell, so as to realize blanking of the material, meanwhile, the mandrel rotates all the time, and the blades on the mandrel are used for dredging the material, so that the blocking phenomenon cannot occur during blanking.

The motor drives the speed reducer and the chain, the chain drives the mandrel to rotate, the mandrel rotates to drive the upper disc and the lower disc to rotate, the upper disc and the lower disc are alternately opened, if the upper disc is opened, the lower disc is closed, the state is a material storage state, if the upper disc is closed, the lower disc is opened, and the state is that the material is put down to the stirrer to finish the material putting; wherein, the dabber can make the material of piling up the department fall smoothly.

The material conveying device comprises a lifter 8, a hopper 9, a positive and negative screw conveyor 27, a batching feed inlet 28, a positive and negative screw transmission device 29, a lifter motor 32 and a speed reducer; the base 10 is provided with a lifter 8 and a hopper 9; 8 upper ends of lifting machine are fixed on the jar body, hopper 9 is located 8 the place ahead of lifting machine, be provided with in the hopper 9 and be used for feeding the positive and negative screw conveyer 27 to the lifting machine with the material in the hopper, it is used for sending into the batching feed inlet 28 of material to the lifting machine to have seted up in the hopper 9, the butt joint of the feed inlet of batching feed inlet 28 and lifting machine 8, one side of lifting machine 8 is provided with lifting machine motor 32 and speed reducer, the speed reducer is connected to on the inside axle of lifting machine 8, the other end of lifting machine 8 axle is connected to on positive and negative screw drive 29, positive and negative screw conveyer 27 also is connected to on positive and negative screw drive 29, control.

The forward and reverse screw transmission 29 comprises two gears and a chain, one gear is arranged on the shaft of the elevator 8, the other gear is arranged on the shaft of the forward and reverse screw conveyor 27, and the two gears are connected through the chain.

The hoister 8 comprises a frame 40, a hoister speed reducer 41 and a bearing assembly 42; the frame 40 comprises a conveying hopper 47 and a lifting machine discharge port 43; one end of a conveying hopper 47 is fixed on the base 10, the other end of the conveying hopper is fixed on the tank body, an elevator discharge port 43 is arranged at the upper end of the conveying hopper 47, the elevator discharge port 43 is connected with a feed port on the stirring machine 6, a feed port 44 is arranged below the conveying hopper 47, bearing assemblies 42 are arranged at the upper end and the lower end of the conveying hopper 47, an elevator speed reducer 41 is connected with a shaft in the lower end bearing assembly 42, the other end of the shaft in the lower end bearing assembly 42 is connected to the forward and reverse screw transmission device 29, starting wheels 45 are arranged on the bearing assemblies 42 at the upper end and the lower end, flexible belts 46 are arranged on the two.

The stirrer 6 comprises an upper cover 34, a stirring bucket 35, a stirrer motor and speed reducer 31 and a stirrer support 36; the stirring machine support 36 is provided with a stirring machine motor and a speed reducer 31 used for providing a power source for the stirring bucket, a chain wheel chain 39 is arranged on the speed reducer in the stirring machine motor and the speed reducer 31, the stirring bucket is fixed on the stirring machine support, a stirring machine discharge port 30 is arranged below the stirring bucket, a stirring shaft is arranged in the stirring bucket 35, one end of the stirring shaft is a bearing 37, the other end of the stirring shaft is provided with a sealing component 38 and then is connected to the chain wheel chain 39, and the control box 26 is connected with the stirring machine motor and the speed reducer 31.

It should be noted that the stirring machine may be connected to the stirring shaft of the stirring machine by a chain wheel and chain, or the speed reducer may be directly connected to the stirring shaft of the stirring machine without the chain wheel and chain, and both of them may be used.

The tank body 1 is also provided with a lifting lug 2, a ladder stand 3 and an artificial mouth 7.

Further, the apparatus is also equipped with a level control water tank in which water is stored. The tank body is used for storing cement.

Further, a feeding machine is further arranged on the hopper.

Further, referring to FIG. 18, the admixture metering pump device 4 comprises a liquid storage tank 4-1, a housing 4-2 and an external additive pump body; a liquid storage tank 4-1 is arranged on the shell 4-2, and an external additive pump body is arranged in the shell 4-2; the external additive pump body comprises a power supply control module, an electric control mechanical expansion device 4-10, a fixed frame 4-17, a measuring range metering control device, a stroke driving device and a plunger type metering pump 4-16 with an external additive outlet; the device is characterized in that a plunger type metering pump 4-16 is arranged on a fixed frame 4-17, the plunger type metering pump 4-16 is communicated with a liquid storage tank 4-1 through a pipeline, telescopic device supports 4-11 are arranged at two ends of an electric control mechanical telescopic device 4-10, one end of the electric control mechanical telescopic device 4-10 is arranged on the fixed frame 4-17 through the telescopic device supports 4-11, the other end of the electric control mechanical telescopic device and the plunger type metering pump 4-16 are arranged on a stroke driving device together, a track support 4-15 in the stroke driving device is arranged on the fixed frame 4-17, a range metering control device is connected to the stroke driving device, and a power supply control module is respectively connected with the range metering control device and the electric control mechanical telescopic device 4.

The stroke driving device comprises a running scale base plate 4-9, stroke driving plates 4-13 and three groups of sliding assemblies; a stroke drive plate 4-13 is arranged on a plunger type metering pump 4-16 and a telescopic device bracket 4-11 at the other end of the electric control mechanical telescopic device 4-10, a running scale base plate 4-9 is arranged on the stroke drive plate 4-13, a track sliding block 4-12 in a first group of sliding assemblies is arranged on the running scale base plate 4-9, the first group of sliding assemblies is arranged on one side of a fixed frame 4-17, a second group of sliding assemblies is arranged on the other side of the fixed frame 4-17, and a third group of sliding assemblies is arranged on the second group of sliding assemblies; each group of sliding components comprises a track sliding block 4-12, a track 4-14 and a track bracket 4-15; the track sliders 4-12 are mounted on the tracks 4-14, the tracks 4-14 are mounted on the track supports 4-15, and the track supports 4-15 are mounted on the fixed frames 4-17.

The measuring range metering control device comprises a preset scale stroke plate 4-18, a preset scale base plate 4-19, a screw rod 4-20, a coupler 4-21, a motor bracket 4-22, a motor 4-23, an operating switch 4-24 and two groups of electromagnetic induction devices; each group of electromagnetic induction devices comprises an electromagnetic sensor 4-7 and an electromagnetic sensor support 4-8, and the electromagnetic sensors 4-7 are arranged on the electromagnetic sensor supports 4-8; an electromagnetic sensor support 4-8 in a first group of electromagnetic induction devices is fixed on an operation scale base plate 4-9, an electromagnetic sensor support 4-8 in a second group of electromagnetic induction devices is fixed on a track sliding block 4-12 of a third sliding assembly, a motor 4-23 is installed on a motor support 4-22, a coupler 4-21 is connected on the motor 4-23, a screw rod 4-20 is connected on the coupler 4-21, the screw rod 4-20 is positioned between the second sliding assembly and the third sliding assembly, a preset scale base plate 4-19 is installed on a preset scale stroke plate 4-18, the upper end of the preset scale stroke plate 4-18 is hung on the screw rod 4-20, the lower end of the preset scale stroke plate is installed on a track sliding block 4-12 in the second group of sliding assemblies and the third sliding assembly, an operation switch 4-24 is installed on a shell 4-2, the operation switches 4-24 are respectively connected with the motors 4-23 and the power supply control module; the operation scale substrate 4-9 and the preset scale substrate 4-19 are both provided with scale marks; the scale mark has a beginning mark of 0 and an end mark of 10.

The power supply control module comprises a working power supply 4-3, an execution relay 4-4, a circuit element support 4-5 and a computer board 4-6; the working power supply 4-3, the execution relay 4-4 and the computer board 4-6 are arranged on a circuit element support 4-5, the circuit element support 4-5 is arranged on a plunger type metering pump 4-16 and a fixed frame 4-17, the working power supply 4-3 is connected with the execution relay 4-4 and the computer board 4-6, the computer board 4-6 is connected to the execution relay 4-4, and the execution relay 4-4 is connected to an electric control mechanical telescopic device 4-10.

The plunger type metering pump 4-16 is provided with a sealable external additive outlet; the electric control mechanical telescopic device 4-10 comprises an electric control mechanical telescopic rod and a motor for driving the electric control mechanical telescopic rod to stretch; the plunger type metering pump comprises a plunger type metering pump body and a plunger rod which stretches and retracts in the plunger type metering pump body to compress liquid, and the plunger rod is connected with the stroke driving plate 4-13.

It should be noted that the additive metering pump device can also adopt the additive metering pump in the prior art to realize the addition of the external additive, and the utility model discloses do not limit this.

Specifically, the mobile multifunctional building material production equipment has the following part function description:

the tank body is used for storing materials; the lifting lug is used for moving equipment; the crawling ladder is used for facilitating manual crawling to the tank top to sleeve the rope to the lifting lug 2 when the equipment is moved so as to move the equipment; the additive metering pump device consists of an additive storage device and a pump device and is used for providing an external additive for materials;

the blanking rotating disc valve 5 is composed of a mandrel 15, an elastic body 16, an upper disc 17, an upper disc shell 18, an upper rotating body and seal 19, a lower disc 20, a lower rotating body and seal 21, a driving device 22 and a lower disc shell 23. The function is as follows: so that the materials in the tank body 1 smoothly slide down to the mixer through the blanking rotating disk valve 5.

The stirrer 6 is used for uniformly stirring the materials conveyed by the tank body 1 and the hopper 9, the external additive conveyed by the additive metering pump device 4 and the water conveyed by the conveying pipe 33; the manual port 7 is convenient for manual work to enter the tank body for inspection through the population if the interior of the tank body is abnormal;

the hoister 8 is used for hoisting the materials stored in the hopper 9 to the stirrer through the hoister; a hopper 9 for storing materials and a base 10 for supporting the whole equipment; the feeding pipe 11 is used for feeding materials into the tank body 1 from the feeding pipe 11 and finally storing the materials in the tank body 1; a gas permeable pipe 12 for discharging excess gas in the tank body 1; the speed reducer 13 and the motor 14 form a power source of the blanking rotating disc valve 5 to drive the blanking rotating disc valve 5; a mixer electronic scale 25 for weighing the weight of the materials required by the materials in the mixer; a control box 26 for controlling the operation of the mechanical components of the entire system; the positive and negative screw conveyor 27 is used for feeding the materials in the hopper 9 to the lifter, so that the lifter lifts the materials to the stirrer; a material feeding port 28, into which the material in the hopper 9 is screwed by the forward and reverse screw conveyors 27 and enters the elevator; and the discharge port 30 of the stirrer is used for discharging the materials in the stirrer from the discharge port.

Specifically, the theory of operation of portable multi-use architecture material production facility:

the materials in the tank body 1 fall to the stirrer through the discharging port 24 through the blanking rotating disc valve 5; the materials in the hopper 9 enter the stirrer through the positive and negative screw conveyors 27 and the lifter 8; the admixture metering pump device 4 and water enter the stirrer through a conveying pipe 33; the weight of the tank body 1, the hopper 9 and the water is weighed by an electronic scale 25 of the stirrer, and the admixture is independently controlled by an admixture metering pump device.

Whole process is controlled by control box 26, by the measurement of mixer electronic scale 25, the volume of the water source that control box 26 control jar body 1, hopper 9 and got into by conveyer pipe 33, the material through 25 measurement demands weight of mixer electronic scale enters into mixer 6 respectively, the admixture passes through conveyer pipe entering mixer 6 by the required measurement of admixture measuring pump device control, 6 stirring materials of simultaneous control mixer, the material that final mixer 6 stirred is exported 30 ejection of compact by the mixer.

The mobile multifunctional building material production equipment can be used for producing the required raw materials from the following materials:

1. when the urban building garbage is secondarily utilized, the urban building garbage is various in types and inconsistent in water content, a screened material premixed mortar factory cannot be directly used, and the equipment can directly use the building garbage materials;

2. artificial sand can be adopted for production;

3. can be produced by natural sand.

The device mainly aims at domestic non-two-line cities, realizes mechanical production of mortar stirring in related areas, improves the quality of mortar finished products, ensures the quality of construction projects, optimizes the production flow of mortar, promotes the technical progress of the building field, reduces the usage amount of bagged cement, reduces the pollution of building construction to the environment, and promotes the comprehensive utilization of resources. The use coverage rate of the ready-mixed mortar and the bulk cement in the national range is improved, and the green construction of the building industry is promoted.

The utility model provides a portable multi-use architecture material production facility mainly is to non-two line cities, has realized that traditional stirring production is mechanized, the flow optimization, improves regional building materials material production technique and china's economic development lagging area and outlying mountain area construction quality, further reduces the pollution of construction to the environment, promotes the use coverage of ready-mixed mortar and bulk cement at national within a wide range. In the aspect of raw material storage and use, the equipment occupies a small area and is convenient to move. The raw materials use bulk cement to replace bagged cement, and the sealed storage container tank body ensures stable cement performance, and the mechanical loading and unloading not only improves the production efficiency, reduces the dust pollution, but also improves the labor environment of personnel. In the production link, the electronic scale is adopted for metering, and the controller is used for controlling, so that the problems of inaccurate metering, random mixing ratio and the like existing in the conventional stirring are thoroughly solved, and the production efficiency is greatly improved while the quality of the building material finished product is ensured. Moreover, the whole production process of the equipment is mechanized, the labor force is reduced, the labor intensity of personnel is reduced, and the labor environment is effectively improved. Finally, the equipment can also directly utilize the urban construction waste for production, effectively realize the recycling of the construction waste, improve the resource utilization rate and further promote the development of circular economy.

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

1. batching and stirring mode

This equipment adopts the compulsory mixer and the control box of design there being the mixer electronic scale, and the jar body independent design of material storage has the electronic scale that has alarming function, and the material of being convenient for adds, and the admixture adopts admixture measuring pump device to add.

In the aspect of the use of raw materials, the equipment can also directly utilize the screened coarse and fine materials such as waste building concrete, waste masonry and the like in the building garbage to produce building material products such as concrete, mortar and the like with corresponding strength grade, thereby realizing the recycling of the urban building garbage, promoting the green and environment-friendly construction and relieving the severe situation of the pollution problem of the building garbage in China.

2. Storage of raw materials

The tradition stirring needs to occupy the construction site and stores in order to supply raw and other materials, and this equipment is when producing mortar product, and cement direct storage is internal in the jar of cement storage tank, and the grit is stored through corollary equipment, is equipped with independent admixture measuring pump device and liquid level control water tank in addition. When producing concrete, the aggregates are mixed in proportion by a pre-mixing plant, and then the pre-mixed aggregates are transported to the site by a special vehicle. The urban dust pollution can be effectively controlled while the construction site environment is purified.

3. Raw material feeding mode

(1) Mortar

Cement: and conveying the cement to the tank body by adopting a special bulk cement transport vehicle.

Wet sand: a feeding mode: firstly, if a closed raw material storage warehouse is arranged or not arranged on site, a loader can be adopted to butt joint a material storage hopper for feeding; secondly, the special vehicle directly feeds materials to the hopper; feeding the material by manually butting the material storage hopper; and fourthly, feeding the packaging bags of one ton into a storage hopper in a butt joint mode, transporting the packaging bags of one ton to a construction site by using a truck-mounted crane, and then hoisting and adding the packaging bags, wherein no storehouse is additionally arranged on the site.

(2) Concrete and its production method

Cement: and conveying the cement to the tank body by adopting a special bulk cement transport vehicle.

Aggregate: firstly, mixing aggregates in proportion by a pre-mixing plant, conveying the pre-mixed aggregates to the site by a special vehicle, and feeding the aggregates by butting against a hopper of a bucket elevator; and if a closed raw material storage warehouse is arranged on site, a loader is adopted to butt joint the storage hopper for feeding.

4. Transport of materials

In the transportation process, a special totally enclosed transport vehicle is adopted, the materials do not need to be loaded and unloaded for the second time, the pollution to the environment in the transportation and loading and unloading processes is avoided to the greatest extent, and the labor environment of personnel is effectively improved.

5. Device function

The apparatus has the following four production modes:

(1) premixed mortar production mode

The equipment is set to be in a premixed mortar production mode, the bucket elevator in the system is in a closed state, and premixed mortar is stored in the tank body for storing the material, so that production can be carried out.

(2) Production mode of wet-mixed mortar

The equipment is set to be in a wet-mixed mortar production mode, cement with required marks is stored in a cement storage tank body, and sand is stored through matched equipment, so that production can be carried out.

(3) Cement paste production mode

The equipment is set to a cement paste production mode, the bucket elevator in the system is in a closed state, and cement with required labels is stored in the cement storage tank, so that production can be carried out.

(4) Concrete production mode

The equipment is set to be in a concrete production mode, cement with required marks is stored in a cement storage tank body, and the cement can be produced by conveying pre-mixed aggregate to the site by a special vehicle and then loading the pre-mixed aggregate to a bucket elevator.

The utility model discloses the effect that produces does:

1. in the field of production of construction equipment, on one hand, the equipment improves the structure of the traditional mortar tank, integrates raw material storage and production, is simple and convenient to install and convenient to carry, and can be used after being powered on site. On the other hand, the equipment is improved in aspects of use, transportation, storage and the like of raw materials, and the production flow of building material products such as mortar and concrete is optimized under the condition of ensuring the quality of finished mortar products.

2. The equipment can replace the traditional mortar stirring mode, effectively improve the social productivity and the building material production technology of relevant areas, further improve the coverage rate of the ready-mixed mortar and the bulk cement in the national range, improve the industrial competitiveness of relevant building material products and reduce the environmental pollution caused by building construction.

3. In the aspects of social benefit and economic benefit:

(1) the equipment has small floor area, is convenient to move and high in yield, can replace the original traditional stirring production mode, improves the utilization rate of land resources, and indirectly drives various regions to develop economy.

(2) The mechanical production reduces the labor intensity of personnel, improves the working environment, and reduces the damage to the human health caused by raised dust, noise and the like of the construction site.

(3) The optimization of the production link improves the resource utilization rate of natural resources such as cement, sand and the like and social resources, and promotes the comprehensive utilization of resources.

(4) The accurate weighing system and the high-performance control can effectively improve the quality of the construction engineering in each area and promote the technical progress in the construction field.

(5) Coarse and fine aggregates in the construction waste can be screened, and the production of building material products such as concrete, mortar and the like with corresponding strength grades can be directly carried out, so that the purposes of waste utilization, energy conservation and emission reduction are achieved, and the resource utilization of the construction waste is realized.

(6) The construction site does not need to store bagged cement, the construction site environment is effectively purified, compared with the existing building material product production equipment, the equipment has the advantages that the hidden pollution danger in each link is reduced to the minimum, once the equipment is put into use, the pollution of the building material product production to the environment is effectively improved, and the building construction is more environment-friendly.

(7) Compared with a drum mixer used by the traditional mixing, the equipment has the advantages of comparable investment cost, obvious advantages in the aspects of service life and production efficiency, and favorable conditions for promoting the development of circular economy and building a resource-saving society.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (16)

1. A mobile multifunctional building material production device is characterized by comprising a tank body (1), a base (10), a material conveying device, a discharging device, a stirrer (6) and an additive metering pump device (4); the tank body (1) is arranged on a base, a material conveying device, a stirrer (6) and an additive metering pump device (4) are arranged on the base (10), a discharging device is arranged on a discharging port at the lower end of the tank body (1), two feeding ports are arranged on the stirrer (6), one feeding port is butted with a discharging port (24) of the discharging device, the other feeding port is butted with a discharging port of the material conveying device, a liquid adding port shared by an external additive and water is also arranged on the stirrer (6), stirrer electronic scales (25) are respectively arranged on four legs of a stirrer support, an external additive outlet is arranged on the additive metering pump device (4), the external additive outlet is connected to a liquid adding port on the stirrer (6) through a conveying pipe (33), tank electronic scales are also respectively arranged on the four legs of the tank body (1), and a control box (26) is arranged on the base (10), the control box (26) is respectively connected with the stirrer electronic scale (25), the tank electronic scale, the stirrer (6), the additive metering pump device (4), the material conveying device and the blanking device, and the tank body (1) is also provided with a feeding pipe (11) and a vent pipe (12).

2. The mobile multifunctional building material production equipment according to claim 1, wherein the blanking device comprises a blanking rotating disc valve (5), a speed reducer (13), a motor (14) and a discharge hole (24); speed reducer (13) is installed to motor (14) below, and unloading rotating disc valve (5) are connected with speed reducer (13), install unloading rotating disc valve (5) on the discharge gate of jar body (1) lower extreme, and discharge gate (24) are installed to unloading rotating disc valve (5) lower extreme, and control box (26) link to each other with motor (14), and discharge gate (24) link to each other with a feed inlet on mixer (6).

3. The mobile multi-purpose building material production equipment according to claim 2, wherein the blanking rotating disc valve (5) comprises a mandrel (15), an elastic body (16), an upper disc (17), an upper disc shell (18), an upper rotating body and a seal (19), a lower disc (20), a lower rotating body and a seal (21), a driving device (22) and a lower disc shell (23); an upper disc shell (18) is mounted at a discharge port at the lower end of the tank body (1), a lower disc shell (23) is fixed below the upper disc shell (18), a discharge port (24) is fixed below the lower disc shell (23), a blanking channel is formed after the upper disc shell (18) and the lower disc shell (23) are connected, a mandrel (15) sequentially penetrates through an elastic body (16), an upper disc (17), an upper rotating body, a sealing body (19), a lower disc (20), a lower rotating body, a sealing body (21) and a driving device (22) and then is mounted on the driving device (22), the driving device (22) is connected to a speed reducer (13), blanking channels are arranged on the upper disc and the lower disc, the blanking channels on the upper disc and the lower disc are arranged in a staggered mode, and a plurality of groups of blades are uniformly arranged on the mandrel from top to bottom.

4. The mobile building material production equipment of claim 3, wherein the driving device (22) comprises a gear wheel, a pinion and a chain engaged with the gear wheel, the gear wheel is mounted on the mandrel (15), the pinion is mounted on a bearing of the reducer (13), and the gear wheel and the pinion are connected through the chain.

5. The mobile multifunctional building material production equipment according to claim 1, wherein the material conveying device comprises a hoist (8), a hopper (9), a positive and negative screw conveyor (27), a batching feed inlet (28), a positive and negative screw transmission device (29), a hoist motor (32) and a speed reducer; the base (10) is provided with a lifter (8) and a hopper (9); the upper end of the hoister (8) is fixed on the tank body, the hopper (9) is positioned in front of the hoister (8), a positive and negative screw conveyor (27) used for feeding the materials in the hopper to the hoister is arranged in the hopper (9), a batching feed inlet (28) used for feeding the materials into the hoister is formed in the hopper (9), the batching feed inlet (28) is in butt joint with the feed inlet of the hoister (8), a hoister motor (32) and a speed reducer are arranged on one side of the hoister (8), the speed reducer is connected to an inner shaft of the hoister (8), the other end of a shaft of the hoister (8) is connected to the positive and negative screw transmission device (29), the positive and negative screw conveyor (27) is also connected to the positive and negative screw transmission device (29), and the control box (26) is connected with the hoister motor (.

6. Mobile multipurpose building material production equipment according to claim 5, characterized in that the positive and negative screw transmission (29) comprises two gears and a chain, one gear is mounted on the shaft of the hoist (8) and the other gear is mounted on the shaft of the positive and negative screw conveyor (27), and the two gears are connected by the chain.

7. Mobile multi-purpose construction material production equipment according to claim 5, characterized in that the hoisting machine (8) comprises a frame (40), a hoisting machine reducer (41) and a bearing assembly (42); the frame (40) comprises a conveying hopper (47) and a lifting machine discharge port (43); conveying hopper (47) one end is fixed on base (10), the other end is fixed on the jar body, conveying hopper (47) upper end is provided with lifting machine discharge gate (43), lifting machine discharge gate (43) link to each other with a feed inlet on mixer (6), conveying hopper (47) below is provided with feed inlet (44), bearing assembly (42) are all installed at both ends about conveying hopper (47), lifting machine speed reducer (41) and the hub connection in lower extreme bearing assembly (42), the other end of the axle in lower extreme bearing assembly (42) is connected to on positive and negative helical drive device (29), all install starting wheel (45) on bearing assembly (42) at upper and lower both ends, install flexible area (46) on two starting wheel (45), conveying hopper (47) exocoel is covering (48).

8. The mobile multi-use construction material production equipment according to claim 1, wherein the blender (6) comprises an upper cover (34), a blending hopper (35), a blender motor and reducer (31) and a blender support (36); the stirring machine support (36) is provided with a stirring machine motor and a speed reducer (31) which are used for providing power sources for the stirring bucket, the stirring bucket is fixed on the stirring machine support, a stirring machine discharge hole (30) is formed below the stirring bucket, a stirring shaft is arranged in the stirring bucket (35), one end of the stirring shaft is a bearing (37), the other end of the stirring shaft is provided with a sealing component (38) and then is connected to the speed reducer, and the control box (26) is connected with the stirring machine motor and the speed reducer (31).

9. The mobile multifunctional building material production equipment according to claim 8, wherein a chain wheel chain (39) is arranged on a speed reducer in the mixer motor and speed reducer (31), one end of the mixing shaft is provided with a bearing (37), and the other end of the mixing shaft is provided with a sealing assembly (38) and then is connected to the chain wheel chain (39).

10. The mobile multifunctional building material production equipment according to claim 1, wherein the tank body (1) is further provided with a lifting lug (2), a ladder stand (3) and a manual hole (7).

11. The mobile multi-purpose building material production facility of claim 1, further equipped with a liquid level control tank; the material conveying device is also provided with a feeding machine.

12. The mobile multi-purpose building material production facility according to claim 1, wherein the admixture metering pump device (4) comprises a liquid storage tank (4-1), a housing (4-2) and an external additive pump body; a liquid storage tank (4-1) is arranged on the shell (4-2), and an external additive pump body is arranged in the shell (4-2); the external additive pump body comprises a power supply control module, an electric control mechanical expansion device (4-10), a fixed frame (4-17), a measuring range metering control device, a stroke driving device and a plunger type metering pump (4-16) with an external additive outlet; the device is characterized in that a plunger type metering pump (4-16) is installed on the fixed frame (4-17), the plunger type metering pump (4-16) is communicated with the liquid storage tank (4-1) through a pipeline, telescopic device supports (4-11) are installed at two ends of an electric control mechanical telescopic device (4-10), one end of the electric control mechanical telescopic device (4-10) is installed on the fixed frame (4-17) through the telescopic device supports (4-11), the other end of the electric control mechanical telescopic device and the plunger type metering pump (4-16) are installed on a stroke driving device together, a track support (4-15) in the stroke driving device is installed on the fixed frame (4-17), a range metering control device is connected to the stroke driving device, and a power supply control module is respectively connected with the range metering control device and the electric control mechanical telescopic device (4-10.

13. The mobile multi-purpose building material production equipment according to claim 12, wherein the stroke driving means comprises a running scale base plate (4-9), a stroke driving plate (4-13) and three sets of sliding assemblies; the stroke driving plate (4-13) is arranged on a plunger type metering pump (4-16) and a telescopic device bracket (4-11) at the other end of the electric control mechanical telescopic device (4-10), the stroke driving plate (4-13) is provided with a running scale base plate (4-9), a track sliding block (4-12) in a first group of sliding assemblies is arranged on the running scale base plate (4-9), the first group of sliding assemblies is arranged on one side of a fixed frame (4-17), a second group of sliding assemblies is arranged on the other side of the fixed frame (4-17), and a third group of sliding assemblies is arranged on the second group of sliding assemblies; each group of sliding assemblies comprises a track sliding block (4-12), a track (4-14) and a track bracket (4-15); the track sliding blocks (4-12) are arranged on the tracks (4-14), the tracks (4-14) are arranged on the track supports (4-15), and the track supports (4-15) are arranged on the fixed frames (4-17).

14. The mobile multifunctional building material production equipment according to claim 13, wherein the range metering control device comprises a preset scale stroke plate (4-18), a preset scale base plate (4-19), a screw rod (4-20), a coupler (4-21), a motor bracket (4-22), a motor (4-23), an operating switch (4-24) and two groups of electromagnetic induction devices; each group of electromagnetic induction devices comprises an electromagnetic sensor (4-7) and an electromagnetic sensor bracket (4-8), and the electromagnetic sensors (4-7) are arranged on the electromagnetic sensor brackets (4-8); an electromagnetic sensor bracket (4-8) in a first group of electromagnetic induction devices is fixed on an operation scale base plate (4-9), an electromagnetic sensor bracket (4-8) in a second group of electromagnetic induction devices is fixed on a track sliding block (4-12) of a third sliding assembly, a motor (4-23) is installed on a motor bracket (4-22), a coupler (4-21) is connected on the motor (4-23), a screw rod (4-20) is connected on the coupler (4-21), the screw rod (4-20) is positioned between the second sliding assembly and the third sliding assembly, a preset scale base plate (4-19) is installed on a preset scale stroke plate (4-18), the upper end of the preset scale stroke plate (4-18) is hung on the screw rod (4-20), and the lower end is installed on the track sliding block (4-12) in the second group of sliding assemblies and the third sliding assembly, the operating switch (4-24) is arranged on the shell (4-2), and the operating switch (4-24) is respectively connected with the motor (4-23) and the power supply control module; the operation scale substrate (4-9) and the preset scale substrate (4-19) are both provided with scale marks; the scale mark has a beginning mark of 0 and an end mark of 10.

15. The mobile multi-purpose building material production equipment according to claim 12, wherein the power control module comprises a working power supply (4-3), an execution relay (4-4), a circuit component support (4-5) and a computer board (4-6); the working power supply (4-3), the execution relay (4-4) and the computer board (4-6) are installed on the circuit element support (4-5), the circuit element support (4-5) is installed on the plunger type metering pump (4-16) and the fixed frame (4-17), the execution relay (4-4) and the computer board (4-6) are connected to the working power supply (4-3), the computer board (4-6) is connected to the execution relay (4-4), and the execution relay (4-4) is connected to the electric control mechanical telescopic device (4-10).

16. The mobile multi-purpose building material production facility according to claim 12, wherein the plunger metering pump (4-16) is provided with a sealable external additive outlet; the electric control mechanical telescopic device (4-10) comprises an electric control mechanical telescopic rod and a motor for driving the electric control mechanical telescopic rod to stretch; the plunger type metering pump comprises a plunger type metering pump body and a plunger rod which stretches and retracts in the plunger type metering pump body to compress liquid, and the plunger rod is connected with a stroke driving plate (4-13).

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