CN212701613U - Outer wall energy-saving coating production equipment - Google Patents

Abstract

The utility model discloses an energy-conserving coating production facility of outer wall, including the former feed bin of at least three one kind, first agitator, deconcentrator, second agitator, the former feed bin of at least three two kinds and filling device. First agitator, deconcentrator, second agitator have the stirring tool bit of different forms respectively, adopt different shearing dynamics in the production process of coating, adapt to different raw materials, but also can be according to the weight of coating for different equipment distribution different power, energy-concerving and environment-protective.

Description

Outer wall energy-saving coating production equipment

Technical Field

The utility model relates to a coating production system especially relates to an exterior wall coating production system.

Background

In the face of increasingly severe energy crisis, energy conservation and emission reduction are vigorously advocated all over the world. According to statistics, the building energy consumption accounts for 30-40% of human energy consumption, so that the improvement of the heat preservation and heat insulation performance of the building has very important significance for saving energy. Practice proves that the special energy-saving coating is used on the building outer wall, so that the heat transfer coefficient of the outer wall can be effectively reduced, and the energy consumption is reduced.

At present, the energy-saving effect of the exterior wall coating is mostly realized by adding the solid filler in the production process, so that how to adapt to solid particles with different particle sizes and the dispersion degree in the process of producing the exterior wall energy-saving coating is the key point of the production process.

A apparatus for producing for side fascia's coating, as disclosed in chinese patent application publication No. 109161247, including the production frame, the top surface of production frame is provided with the transmission board, and be provided with a plurality of evenly distributed's coating barrel groove on the surface of transmission board, the support frame has been erect directly over the production frame, and the top of support frame is provided with the crushing barrel, the top of crushing barrel is provided with the feed inlet, and swing joint has the flip on the feed inlet, the bottom of crushing barrel has the churn with production frame fixed connection through the conduction pipe connection, and the side of churn is provided with the transparent window, be provided with the scale on the transparent window, the bottom of churn is connected with the discharging pipe, and install first solenoid valve on the discharging pipe, the side of transmission board is provided with scribbles the storage bucket location. However, the production apparatus for the paint for exterior wall panels cannot adjust the shear strength of the paint during the production process, resulting in the defect of uneven mixing.

Still like the outer wall coating production facility that chinese patent application publication No. 208212967 reveals, the on-line screen storage device comprises a base, the upper surface of base passes through bracing piece fixedly connected with teeter chamber, the top of teeter chamber is pegged graft and is had the inlet pipe, the right side top of teeter chamber is pegged graft and is had the inlet tube, fixedly connected with filter screen between the teeter chamber inner wall left and right sides, the bottom central authorities department fixedly connected with motor of teeter chamber, the output shaft fixedly connected with pivot of motor, the top of pivot runs through the bottom of teeter chamber and extends to the inside of teeter chamber. However, the stirring device of the exterior wall coating production equipment has a single form, is not suitable for the dispersion of solid particles with different particle sizes in the coating, and is difficult to adjust the dispersion force when the feeding weight is changed.

Therefore, the production equipment for the external wall energy-saving coating, which adjusts the shearing force and distributes the processing power according to the feeding weight and the material, is a problem to be solved urgently in the industry.

Disclosure of Invention

The utility model aims at providing an energy-conserving coating production facility of outer wall adopts different shearing dynamics in the production process of coating, adapts to different raw materials, but also can be according to the weight of coating for different equipment distribution different power, energy-concerving and environment-protective.

In order to realize the above purpose, the utility model provides an energy-conserving coating production facility of outer wall, include: the raw material bin comprises a first-class bin body, a first-class feeding hole and a first-class discharging hole, wherein the first-class feeding hole and the first-class discharging hole are formed in the first-class bin body; a first agitator, the first agitator comprising: the stirring device comprises a first stirring body, a first stirring device arranged in an inner cavity of the first stirring body, at least three first stirring material inlet openings formed in the top wall of the first stirring body, and a first stirring material outlet opening formed in the bottom wall of the first stirring body, wherein one type of material outlet opening of each one type of raw material bin is communicated with one first stirring material inlet opening of the first stirrer through a respective one type of material inlet channel; a disperser, the disperser comprising: the dispersing device comprises a disperser body, a high-speed dispersing head arranged in an inner cavity of the disperser body, at least four dispersing feeding ports arranged on the top wall of the disperser body and a dispersing discharging port arranged on the bottom wall of the disperser body, wherein a first stirring discharging port of a first stirrer is communicated with one dispersing feeding port of the disperser; at least three raw materials storehouse of dispersion, every raw materials storehouse of dispersion includes: the dispersing bin body, the dispersing feed inlet and the dispersing discharge outlet are arranged on the dispersing bin body, and the dispersing discharge outlet of each dispersing raw material bin is communicated with one dispersing feed inlet of the disperser through a respective dispersing feed channel; a second agitator, the second agitator comprising: the stirring device comprises a second stirring body, a second stirring device arranged in an inner cavity of the second stirring body, at least three second stirring material inlet openings formed in the top wall of the second stirring body, a second stirring material outlet opening formed in the bottom wall of the second stirring body, and a pH monitoring opening formed in one side wall of the second stirring body, wherein one second stirring material inlet opening is communicated with the dispersion material outlet opening of the disperser; the device comprises at least three second-class raw material bins, a first stirrer and a second stirrer, wherein each second-class raw material bin comprises a second-class bin body, a second-class feed inlet and a second-class discharge outlet which are arranged on the second-class bin body; and a filling device, the filling device comprising: the filling main part, locate the material receiving mouth of filling main part one end wall and locate the partial shipment mouth of the filling main part other end, partial shipment mouth department is equipped with conveyer, and the material receiving mouth is linked together with the second stirring discharge gate of second agitator.

Alternatively, the first stirring device of the first stirrer comprises: a first stirring shaft with the rotating speed controlled by a first motor and a plurality of blades arranged at the tail end of the first stirring shaft.

Preferably, the high-speed dispersing head in the disperser comprises: the dispersion device comprises a rotating shaft and a dispersion disc, wherein the rotating shaft is controlled by a dispersion motor, the dispersion disc is sleeved at one end of the rotating shaft, and a plurality of tooth blades tangent to the circumference of the dispersion disc are annularly arranged on the circumferential wall of the dispersion disc.

Optionally, two high-speed dispersing heads are arranged in the disperser, and the ends of the two high-speed dispersing heads, which are not provided with the dispersing discs, are respectively arranged on the top wall and the bottom wall of the disperser body.

Preferably, the diameter of the dispersion disc is one fourth to one third of the width of the disperser body, and the length of the rotating shaft is one third to one half of the height of the disperser body.

Alternatively, the second stirring device of the second stirrer comprises: the stirring device comprises a second stirring shaft with the rotating speed controlled by a second motor and a stirring disc arranged at the tail end of the second stirring shaft, wherein the peripheral wall of the stirring disc is provided with upper blades and lower blades which are vertical to the surface of the stirring disc and are alternately arranged.

Optionally, each of the first feeding channel and the second feeding channel is provided with an opening valve and a metering valve, and each opening valve and each metering valve are respectively in communication connection with the central control device.

Optionally, a pH detector is disposed at the pH monitoring port.

Preferably, a material pump is arranged at the split opening of the filling main body.

Preferably, the first motor, the second motor, the dispersion motor and the material pump are respectively in communication connection with the central control device.

Optionally, a filtering device is further disposed between the filling device and the second stirrer.

The utility model discloses an energy-conserving coating production facility of outer wall's beneficial effect is: (1) the first stirrer, the second stirrer and the disperser with different stirring and dispersing effects are arranged to ensure the mixing effect of the particles or powder with different particle size in the coating; (2) first agitator, second agitator and deconcentrator have the stirring tool bit of different forms respectively, not only realize the different shearing dynamics to coating, adapt to different raw materials, but also can be according to the weight of production for different equipment distribution different power, energy-concerving and environment-protective.

Drawings

Fig. 1 shows the schematic structural diagram of the energy-saving paint production equipment for the outer wall of the utility model.

Fig. 2 shows a schematic structural diagram of the first stirring device of the present invention.

Fig. 3 shows a schematic structural diagram of the high-speed dispersion head of the present invention.

Fig. 4 shows a schematic structural diagram of the dispersion impeller of the present invention.

Fig. 5 shows a schematic structural diagram of a second stirring device of the present invention.

Detailed Description

The invention is described in detail below with reference to non-limiting specific embodiments.

Referring first to fig. 1, as a non-limiting embodiment, the energy-saving coating production equipment for exterior walls of the present invention comprises: three first-class raw material bins 10, a first stirrer 20, a disperser 30, three dispersing raw material bins 40, a second stirrer 50, three second-class raw material bins 60 and a filling device 70.

Each of the feedstock bins 10 of one type comprises: a class of bin bodies 110, a class of inlet openings 120 and a class of outlet openings 130 disposed on the class of bin bodies 110.

The first agitator 20 includes: the first stirring body 210, the first stirring device 220, three first stirring material inlets 230, and the first stirring material outlet 240, wherein the first material outlet 130 of each first-type raw material bin 10 is communicated with one first stirring material inlet 230 of the first stirrer 20 through a respective first-type material inlet channel L1.

The disperser 30 includes: the disperser comprises a disperser body 310, a high-speed dispersing head 320, four dispersing feed ports 330 and a dispersing discharge port 340, wherein one dispersing feed port 330 is communicated with the first stirring discharge port 240 of the first stirrer 20.

The dispersed raw material bin 40 includes: a dispersing bin body 410, a dispersing feed inlet 420 and a dispersing discharge outlet 430, the dispersing discharge outlet 430 of each dispersing raw material bin 40 being in communication with one dispersing feed inlet 330 of the disperser 30 through a respective dispersing feed channel L3.

The second agitator 50 includes: the second stirring body 510, the second stirring device 520, four second stirring material inlets 530, a second stirring material outlet 540, and a pH monitoring port 550, wherein one second stirring material inlet 530 is communicated with the dispersion material outlet 340 of the disperser 30, and a pH detector is arranged at the pH monitoring port 550, so that the pH value of the coating can be adjusted at any time in the production.

Each of the two-type raw material silos 60 includes: the second-type bin body 610, the second-type feeding hole 620 and the second-type discharging hole 630, wherein the second-type discharging hole 630 of each second-type raw material bin 60 is communicated with a second stirring feeding hole 530 of the second stirrer 50 through a respective second-type feeding channel L2.

The filling device 70 includes: the filling body 710, the receiving opening 720 and the dispensing opening 730, wherein a conveying device 740 is disposed at the dispensing opening 730, and the receiving opening 720 is communicated with the second stirring discharge opening 540 of the second stirrer 50.

In this non-limiting embodiment, as shown in FIG. 2, the first stirring device 220 includes: a first agitating shaft 2201 whose rotation speed is controlled by a first motor (not shown), and a plurality of blades 2202 installed at the end of the first agitating shaft 2201.

As shown in fig. 3, the high-speed dispersing head 320 in the disperser 30 includes: a rotating shaft 3201 whose rotating speed is controlled by a dispersion motor (not shown) and a dispersion plate 3202 sleeved on one end of the rotating shaft 3201, as shown in fig. 4, a plurality of teeth 3203 tangential to the circumferential direction of the dispersion plate 3202 are circumferentially arranged on the circumferential wall of the dispersion plate 3202.

As another non-limiting embodiment, as shown in fig. 1, two high-speed dispersing heads 320 are provided in the disperser 30, and one ends of the two high-speed dispersing heads 320, to which the dispersing discs 3202 are not mounted, are attached to the top wall and the bottom wall of the disperser body 310, respectively.

In this non-limiting embodiment, in order to achieve a better dispersing effect, the diameter of the dispersing disk 3202 is one fourth to one third of the width of the disperser body 310, and the length of the rotating shaft 3201 is one third to one half of the height of the disperser body 310.

As shown in fig. 5, the second stirring device 520 of the second stirrer 50 includes: a second stirring shaft 5201 whose rotation speed is controlled by a second motor (not shown), and a stirring plate 5202 mounted to the end of the second stirring shaft 5201, wherein the stirring plate 5202 has upper blades 5203 and lower blades 5204 arranged alternately and perpendicular to the surface of the stirring plate on the peripheral wall thereof.

As a further non-limiting embodiment, a material pump P3 is provided at the dispensing opening 730 of the filling device 70 so that the viscous paint can be discharged.

As shown in fig. 1, each of the first-type feeding channel L1, the second-type feeding channel L2, and the distribution feeding channel L3 is provided with an opening valve P1 and a metering valve P2, respectively, and each of the opening valve P1 and the metering valve P2 is in communication connection with a central control device (not shown), thereby adjusting the addition and consumption of the raw materials by the central control device. Meanwhile, the first motor, the second motor, the dispersing motor and the material pump are in communication connection with the central control device respectively, so that cooperative control of the whole production system is achieved.

In this non-limiting embodiment, a filtering device 80 is further disposed between the filling device 70 and the second stirrer 50, so that the coating material is filtered before being filled, thereby improving the quality of the coating material.

Although preferred embodiments of the present invention have been described in detail herein, it is to be understood that the invention is not limited to the precise construction herein described and illustrated, and that other modifications and variations may be effected by one skilled in the art without departing from the spirit and scope of the invention.

Claims (8)

1. An exterior wall energy-saving paint production device comprises:

at least three raw material bin of a kind, each raw material bin of a kind includes: the first-class bin body, the first-class feeding hole and the first-class discharging hole are formed in the first-class bin body;

a first agitator, the first agitator comprising: the stirring device comprises a first stirring body, a first stirring device arranged in an inner cavity of the first stirring body, at least three first stirring material inlets arranged on the top wall of the first stirring body, and a first stirring material outlet arranged on the bottom wall of the first stirring body, wherein one type of material outlet of each type of raw material bin is communicated with one first stirring material inlet of the first stirrer through a respective type of material inlet channel;

a disperser, the disperser comprising: the disperser comprises a disperser body, a high-speed dispersing head arranged in an inner cavity of the disperser body, at least four dispersing feeding ports arranged on the top wall of the disperser body, and a dispersing discharging port arranged on the bottom wall of the disperser body, wherein a first stirring discharging port of the first stirrer is communicated with one dispersing feeding port of the disperser;

at least three raw materials storehouse of dispersion, every raw materials storehouse of dispersion includes: the dispersing bin comprises a dispersing bin body, and a dispersing feed inlet and a dispersing discharge outlet which are arranged on the dispersing bin body, wherein the dispersing discharge outlet of each dispersing raw material bin is communicated with one dispersing feed inlet of the disperser through a respective dispersing feed channel;

a second agitator comprising: the stirring device comprises a second stirring body, a second stirring device arranged in an inner cavity of the second stirring body, at least three second stirring material inlet openings formed in the top wall of the second stirring body, a second stirring material outlet opening formed in the bottom wall of the second stirring body, and a pH monitoring opening formed in one side wall of the second stirring body, wherein one second stirring material inlet opening is communicated with the dispersion material outlet opening of the disperser;

the device comprises at least three secondary raw material bins, a first stirrer, a second stirrer and a plurality of secondary raw material bins, wherein each secondary raw material bin comprises a secondary bin body, a secondary feed inlet and a secondary discharge outlet which are arranged on the secondary bin body, and the secondary discharge outlet of each secondary raw material bin is communicated with a second stirring feed inlet of the second stirrer through a respective secondary feed channel; and

a filling device, the filling device comprising: the filling main part, locate the material receiving mouth of a filling main part end wall and locate the partial shipment mouth of the filling main part other end, partial shipment mouth department is equipped with conveyer, the material receiving mouth with the second stirring discharge gate of second agitator is linked together.

2. The exterior wall energy-saving paint production equipment of claim 1, wherein the first stirring device of the first stirrer comprises: the stirring device comprises a first stirring shaft with the rotating speed controlled by a first motor and a plurality of blades arranged at the tail end of the first stirring shaft.

3. The exterior wall energy-saving paint production equipment of claim 2, wherein the high-speed dispersion head in the disperser comprises: the dispersion device comprises a rotating shaft and a dispersion disc, wherein the rotating speed of the rotating shaft is controlled by a dispersion motor, the dispersion disc is sleeved at one end of the rotating shaft, and a plurality of tooth blades tangent to the circumference of the dispersion disc are annularly arranged on the circumferential wall of the dispersion disc.

4. The exterior wall energy-saving paint production equipment of claim 3, wherein two high-speed dispersion heads are arranged in the disperser, and one ends of the two high-speed dispersion heads, which are not provided with the dispersion discs, are respectively arranged on the top wall and the bottom wall of the disperser body.

5. The exterior wall energy-saving paint production apparatus of claim 4, wherein the diameter of the dispersion tray is one fourth to one third of the width of the disperser body, and the length of the rotating shaft is one third to one half of the height of the disperser body.

6. The exterior wall energy-saving paint production equipment of claim 4, wherein the second stirring device of the second stirrer comprises: the stirring device comprises a second stirring shaft with the rotating speed controlled by a second motor and a stirring disc arranged at the tail end of the second stirring shaft, wherein the peripheral wall of the stirring disc is provided with upper blades and lower blades which are vertical to the surface of the stirring disc and are alternately arranged.

7. The exterior wall energy-saving paint production equipment of claim 4, wherein each of the first-type feeding channel, the second-type feeding channel and the dispersing feeding channel is respectively provided with an opening valve and a metering valve, and each opening valve and each metering valve are respectively in communication connection with a central control device.

8. The exterior wall energy-saving paint production equipment of claim 7, wherein a pH detector is arranged at the pH monitoring port.

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