CN114272836B - Intelligent manufacturing equipment for environment-friendly paint materials - Google Patents

Abstract

The invention relates to the technical field of paint processing, in particular to intelligent manufacturing equipment of environment-friendly paint materials, which comprises the following components: the base is provided with control box and pneumatic cylinder on the base, the pneumatic cylinder upper end is provided with the cantilever, and cantilever one side is provided with the swinging boom, and the swinging boom lower extreme is provided with the opposite direction striking mixing arrangement. The invention has the advantages that the inner roller in the outer sleeve rotates relative to the outer sleeve under the action of the driving device, materials enter through the liquid inlet channel, after the inner roller rotates, the accommodating groove formed in the inner roller inevitably passes through the liquid inlet channel when rotating, after the accommodating groove and the liquid inlet channel have a common opening area, the materials in the liquid inlet channel gradually enter into the accommodating groove under the action of gravity, the materials in the accommodating groove enter into the annular cavity through the channel, and the materials are mixed in the annular cavity, so that the materials can obtain a more sufficient mixing effect in the annular cavity as compared with the form of a washing machine.

Description

Intelligent manufacturing equipment for environment-friendly paint materials

Technical Field

The invention relates to the technical field of paint processing, in particular to intelligent manufacturing equipment for environment-friendly paint materials.

Background

The environmental protection paint also is formed by paint and colored paint mixture, current paint production facility of being convenient for the environmental protection includes mixing bin, motor, output shaft, main shaft and multiunit stirring vane, mixing bin's inside is provided with the cavity, mixing bin's top is provided with the feed inlet, mixing bin's side is provided with the bin outlet, the motor passes through the output shaft to be installed in mixing bin's top to the bottom of output shaft is stretched into mixing bin's inside by mixing bin's top and is connected with the top of main shaft, and multiunit stirring vane's side all is connected with the side of main shaft.

Through the analysis of the prior equipment, the stirring blade has limited dispersing effect in the process of stirring the paint, and the paint can frequently generate flocculation phenomenon, so that the coloring effect of the substrate is poor.

Disclosure of Invention

The invention aims to provide intelligent manufacturing equipment for environment-friendly paint materials, so as to solve the problems in the background technology.

To achieve the above object, an embodiment of the present invention provides an intelligent manufacturing apparatus for an environment-friendly paint material, including: the device comprises a base, wherein a control box and a hydraulic cylinder are arranged on the base, a cantilever is arranged at the upper end of the hydraulic cylinder, a rotating arm is arranged at one side of the cantilever, and a counter-collision mixing device is arranged at the lower end of the rotating arm; a mixing cylinder is arranged below the rotary arm, and a jet mixture is arranged in the mixing cylinder; the bottom of the mixing cylinder is connected with the upper end of the rotating arm through a circulating pipe, and a pump body is arranged on the circulating pipe.

Further, a power device for driving the rotating arm to rotate is arranged on the cantilever.

Further, the spraying mixture comprises an outer sleeve, and the outer sleeve is fixedly connected with the inner side wall of the mixing drum through a plurality of connecting rods; an inner roller is rotatably arranged in the outer sleeve, the outer diameter of the inner roller is equal to the inner diameter of the outer sleeve, two ends of the inner roller are fixedly connected with rotating shafts, the rotating shafts are rotatably connected with the side wall of the mixing drum, and the outer end of one rotating shaft is connected with a driving device; an inner sleeve is arranged in the inner roller, and an annular cavity is formed in the inner roller outside the inner sleeve; a plurality of accommodating grooves are uniformly formed in the outer side wall of the inner roller and are communicated with the inside of the annular cavity through channels; the liquid inlet channel is formed in the right upper side of the outer sleeve, the liquid outlet channel is formed in the right lower side of the outer sleeve, and the width of the liquid outlet channel is smaller than that of the liquid inlet channel.

Still further, drive arrangement includes driving pulley, driven pulley and conveyer belt, driven pulley and one of them axis of rotation fixed connection, driven pulley passes through the conveyer belt with driving pulley and links to each other, just driving pulley passes through the dwang and is located the motor output shaft on the mixing drum lateral wall and links to each other.

Further, the other rotating shaft is connected with an air inlet device, one side of the inner sleeve is communicated with the air inlet device, and the inner sleeve is communicated with the annular cavity through a one-way valve.

Further, the one-way valve is in the form of a passage from the inner sleeve to the annular cavity.

Further, a plurality of arc-shaped disturbance plates are arranged on the outer side wall of the inner sleeve.

Still further, the air inlet unit is including seting up the intercommunication chamber on another axis of rotation, and the outer end in intercommunication chamber is connected with rotatory air pipe joint, rotatory air pipe joint is connected with the air inlet pump body through the intake pipe.

Further, the opposite impact mixing device comprises a first liquid storage hopper, the first liquid storage hopper is fixedly connected with the side wall of the rotating arm, a blanking cavity is formed in the rotating arm, and the blanking cavity is communicated with the bottom of the first liquid storage hopper through a first communication hole; the liquid inlet channel is positioned in the second liquid storage hopper; the bottom end of the rotating arm is provided with a bowl-shaped arc plate, the bowl-shaped arc plate is connected with the inner bottom of the blanking cavity through a second communication hole, and a plurality of blanking holes are uniformly formed in the bottom of the bowl-shaped arc plate; a blocking plate is arranged on the inner side wall of the blanking cavity, and a plurality of discharging holes are uniformly formed in the rotating arm at the contact position of the blocking plate and the rotating arm.

Furthermore, the discharging hole is arc-shaped, and a collision plate is arranged on the rotating arm at the outer side of the discharging hole.

The invention has the following beneficial effects: the outer sleeve is kept motionless through the connecting rod, the inner roller in the outer sleeve rotates relative to the outer sleeve under the action of the driving device, during specific work, materials enter through the liquid inlet channel, one of the accommodating grooves formed on the inner roller inevitably passes through the liquid inlet channel when rotating after the inner roller starts rotating under the action of the driving device, and after the accommodating groove and the liquid inlet channel have a common opening area, the materials in the liquid inlet channel gradually enter the accommodating groove under the action of gravity until the accommodating groove and the liquid inlet channel are completely separated, so that the operation is implemented; after the next accommodating groove and the liquid inlet channel have a common opening area, the materials in the liquid inlet channel can gradually enter the next accommodating groove; all the materials in the accommodating grooves enter the annular cavity through the channels, and when the inner roller rotates, the materials are mixed in the annular cavity, so that the materials can obtain a more sufficient mixing effect in the annular cavity as compared with the form of a washing machine; with further rotation of the inner roller, when the accommodating groove rotates downwards, and an overlapping area exists between the accommodating groove and the liquid outlet channel, the material in the annular cavity can necessarily enter the accommodating groove through the channel under the action of gravity and is discharged through the liquid outlet channel; the width of the designed liquid outlet channel is smaller than that of the liquid inlet channel, namely, after a plurality of rounds of rotation, the material is discharged from the liquid outlet channel at a higher speed, so that a certain spraying effect is formed, the mixing effect is more obvious during spraying, and the material mixing device has a better application effect on material mixing. In order to further improve the mixing effect of the materials in the annular cavity, airflow disturbance mixing is added, air is introduced into the inner sleeve through the air inlet device, and the air is discharged into the annular cavity through the one-way valve after entering the inner sleeve, so that the materials in the annular cavity are disturbed; in addition, when the accommodating groove is overlapped with the liquid outlet channel, the discharge of the materials can be accelerated under the action of the gas, and the mixing effect of the materials is better; as the material further falls down to meet the blocking plate, part of the material is blocked by the blocking plate and is discharged through the discharging hole; the rest of the materials further fall to the bottom of the falling cavity after falling, and enter into the bowl-shaped arc plate through the second communication hole, at the moment, as the materials have a certain initial speed, only a small amount of the materials can fall into the second liquid storage hopper through the blanking hole, and the rest of the materials can move upwards for a certain distance along the inner side wall of the bowl-shaped arc plate and form relative impact mixing with the rest of the materials discharged through the discharging hole, namely, the materials are fully mixed, so that the mixing effect of the materials is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application. In the drawings:

FIG. 1 is a schematic view of the construction of a preferred embodiment of the present invention;

FIG. 2 is a cross-sectional view of a mixing drum according to a preferred embodiment of the invention;

FIG. 3 is a cross-sectional view taken along the direction A-A in FIG. 2 in accordance with a preferred embodiment of the present invention;

FIG. 4 is a transverse cross-sectional view of the drum in the preferred embodiment of the present invention;

FIG. 5 is a schematic view showing the structure of a driving apparatus according to a preferred embodiment of the present invention;

fig. 6 is a schematic view of the structure of an air intake device according to the preferred embodiment of the present invention;

FIG. 7 is an enlarged view of the preferred embodiment of the present invention at B in FIG. 2;

FIG. 8 is an enlarged view of the preferred embodiment of the present invention at C in FIG. 2;

Fig. 9 is a D-D sectional view of fig. 8 in accordance with a preferred embodiment of the present invention.

Detailed Description

Embodiments of the invention are described in detail below with reference to the attached drawings, but the invention can be implemented in a number of different ways, which are defined and covered by the claims.

Referring to fig. 1, in this embodiment, an intelligent manufacturing apparatus for environment-friendly paint materials includes: the device comprises a base 1, wherein a control box 2 and a hydraulic cylinder 3 are arranged on the base 1, a cantilever 4 is arranged at the upper end of the hydraulic cylinder 3, a rotating arm 6 is arranged at one side of the cantilever 4, and a counter-collision mixing device 13 is arranged at the lower end of the rotating arm 6; a mixing cylinder 7 is arranged below the rotating arm 6, and a jet mixing body 10 is arranged in the mixing cylinder 7; the bottom of the mixing drum 7 is connected with the upper end of the rotating arm 6 through a circulating pipe 8, and a pump body 9 is arranged on the circulating pipe 8.

In a preferred embodiment of the present invention, the lifting of the cantilever 4 is driven by the lifting of the hydraulic cylinder 3, so that the rotating arm 6 is driven to move out of or enter the mixing drum 7 by the lifting of the cantilever 4; the mixing drum 7 is internally provided with a jet mixture 10 so as to obtain efficient mixing effect between materials; the opposite impact mixing device 13 can realize further mixing of materials, the circulating pipe 8 and the pump body 9 can realize conveying of the materials at the bottom of the mixing drum 7 into the opposite impact mixing device 13, and the opposite impact mixing device 13 and the injection mixing body 10 are connected in series, so that the mixing effect of the materials is further improved.

In this embodiment, the control box 2 is used for adjusting the functions of the hydraulic cylinder and the work of other matched electric equipment, and on more intelligent equipment, the automatic mixing can be realized through programming, the intelligent degree is higher, the manufacturing cost is also higher, and the control box is mainly selected according to the actual demands of the market.

The main structure of the present invention is not changed along with the popular design, and the main added technical structure is the opposite impact mixing device 13 and the injection mixing body 10, and the specific working process of the opposite impact mixing device 13 and the injection mixing body 10 will be further described later.

The cantilever 4 is provided with a power device 5 for driving the rotating arm 6 to rotate, the power device 5 is used for driving the rotating arm 6 to rotate, and the specific structure of the power device 5 cannot be seen from the attached drawings, and the detailed description is made here: the power device 5 is consistent with the power device in the prior art, and the main components of the power device are a motor, a pair of belt wheels and a conveyor belt, wherein the motor drives one belt wheel to rotate, and the other belt wheel drives the other belt wheel to rotate through the conveyor belt, so that the other belt wheel can rotate through the rotating arm 6.

Referring to fig. 2,3 and 4, in one embodiment of the present invention, the injection mixing body 10 includes an outer sleeve 101, wherein the outer sleeve 101 is fixedly connected to the inner side wall of the mixing drum 7 through a plurality of connecting rods 112; an inner roller 102 is rotatably arranged in the outer sleeve 101, the outer diameter of the inner roller 102 is equal to the inner diameter of the outer sleeve 101, no gap exists between the inner roller 102 and the outer sleeve, materials cannot leak, two ends of the inner roller 102 are fixedly connected with rotating shafts 111, the rotating shafts 111 are rotatably connected with the side wall of the mixing drum 7, and the outer end of one rotating shaft 111 is connected with a driving device 12; an inner sleeve 103 is arranged inside the inner drum 7, an annular cavity 104 is formed in an inner drum 102 outside the inner sleeve 103, and as shown in fig. 4, the inner sleeve 103 is fixedly connected with the inner drum 102, and when a rotating shaft 111 is driven, the rotating shaft 111 drives the inner sleeve 103 to rotate, and simultaneously drives the inner drum 102 to rotate together; a plurality of accommodating grooves 105 are uniformly formed in the outer side wall of the inner roller 102, and the accommodating grooves 105 are communicated with the inside of the annular cavity 104 through channels 106; a liquid inlet channel 107 is formed on the right upper side of the outer sleeve 101, a liquid outlet channel 108 is formed on the right lower side of the outer sleeve 101, and the width of the liquid outlet channel 108 is smaller than that of the liquid inlet channel 107.

In this embodiment, the outer sleeve 101 is kept motionless by the connecting rod 112, the inner drum 102 inside the outer sleeve 101 rotates relative to the outer sleeve 101 under the action of the driving device 12, during specific work, materials enter through the liquid inlet channel 107, after the inner drum 102 starts rotating under the action of the driving device 12, one of the accommodating grooves 105 formed on the inner drum 102 inevitably passes through the liquid inlet channel 107 when rotating, and after the accommodating groove 105 and the liquid inlet channel 107 have a common opening area, the materials in the liquid inlet channel 107 gradually enter into the accommodating groove 105 under the action of gravity until the accommodating groove 105 is completely separated from the liquid inlet channel 107, which is an execution action; when the next accommodating groove 105 and the liquid inlet channel 107 have a common opening area, the materials in the liquid inlet channel 107 can gradually enter the next accommodating groove 105; all the materials in the accommodating groove 105 enter the annular cavity 104 through the channel 106, and when the inner roller 102 rotates, the materials are mixed in the annular cavity 104, so that the materials can obtain a more sufficient mixing effect in the annular cavity as compared with the form of a washing machine;

with further rotation of the inner drum 102, when the accommodating groove 105 rotates downwards, and a superposition area exists between the accommodating groove 105 and the liquid outlet channel 108, the material in the annular cavity 104 can necessarily enter the accommodating groove 105 through the channel 106 under the action of gravity and is discharged through the liquid outlet channel 108; the width of the designed liquid outlet channel 108 is smaller than that of the liquid inlet channel 107, that is, after a few rounds of rotation, the material speed is higher when the material is discharged from the liquid outlet channel 108, so that a certain spraying effect is formed, the mixing effect is more obvious during spraying, and the material mixing device has a better application effect on the material mixing of the invention.

Referring to fig. 2 and 5, in one embodiment of the present invention, the driving device 12 includes a driving pulley 121, a driven pulley 122, and a transmission belt 123, wherein the driven pulley 122 is fixedly connected to one of the rotation shafts 111, the driven pulley 122 is connected to the driving pulley 121 through the transmission belt 123, and the driving pulley 121 is connected to an output shaft of a motor 124 disposed on a sidewall of the mixing drum 7 through a rotation rod 125.

The driving device 12 is arranged at the position and is used for driving the inner roller 102 to rotate, the structure and principle of the driving device are the same as those of the power device 5, when the driving device is used, the motor 124 is started to drive the rotating rod 125 to rotate, the rotating rod 125 can drive the driving belt pulley 121 to rotate, the driving belt pulley 121 drives the driven belt pulley 122 to rotate through the conveying belt 123, and the driven belt pulley 122 drives the inner roller 102 to rotate through the rotating shaft 111.

Referring to fig. 2,3 and 4, another rotary shaft 111 is connected to the air inlet device 11, one side of the inner sleeve 103 is communicated with the air inlet device 11, and the inner sleeve 103 is communicated with the annular cavity 104 through a check valve 109.

In one embodiment of the present invention, in order to further improve the mixing effect of the materials in the annular cavity 104, airflow disturbance mixing is added, air is introduced into the inner sleeve 103 through the air inlet device 13, and after entering the inner sleeve 103, the air is discharged into the annular cavity 104 through the one-way valve 109, so as to disturb the materials in the annular cavity 104; in addition, when the accommodating groove 105 is overlapped with the liquid outlet channel 108, the discharge of the materials can be accelerated under the action of the gas, so that the mixing effect of the materials is better; here, as shown in fig. 3, when one of the accommodating grooves 105 is overlapped with the liquid outlet channel 108, the other accommodating groove 105 is just overlapped with the liquid inlet channel 107, which results in that some materials are ejected outwards through the liquid inlet channel 107 to impact and mix the materials above, so that the technical effect is better;

of course, it is also possible to set up as follows: when one of the accommodating grooves 105 is overlapped with the liquid outlet channel 108, the rest of the accommodating grooves 105 are not overlapped with the liquid inlet channel 107, so that the material in the annular cavity 104 can only be ejected outwards through the liquid outlet channel 108.

The one-way valve 109 is in a form of being conducted from the inner sleeve 103 to the annular cavity 104, which means that gas can only be discharged from the inner sleeve 103 into the annular cavity 104, and conversely, liquid and gas in the annular cavity 104 cannot enter the inner sleeve 103, so that the normal operation of the inner sleeve 103 can be ensured.

Referring to fig. 3, a plurality of arc-shaped disturbance plates 110 are disposed on the outer side wall of the inner sleeve 103, and as the name implies, when the inner sleeve 103 rotates with the inner drum 102, the arc-shaped disturbance plates 110 will cause a certain disturbance to the material in the annular cavity 104, thereby improving the mixing effect to a certain extent;

Of course, the arc-shaped disturbance plate 110 can have other structural forms, such as a circular plate, a rectangular plate, and various forms of forming a plurality of through holes on the rectangular plate, and the structural form is not limited to the arc shape, so long as the arc-shaped disturbance plate can play a certain disturbance role on the material in the annular cavity 104.

Referring to fig. 2 and 6, in one embodiment of the present invention, the air intake device 11 includes a communication cavity 1101 formed on another rotating shaft 111, a rotary air pipe connector 1102 is connected to an outer end of the communication cavity 1101, the rotary air pipe connector 1102 is connected to an air intake pump 1104 through an air intake pipe 1103, and air is input into the inner sleeve 103 through the air intake pump 1104, the air intake pipe 1103 and the communication cavity 1101 formed on the rotating shaft 111, and a model of the air intake pump 1104 can be selected according to actual requirements, such as what blowing amount needs to be satisfied, and the blowing amount can be adjusted; the rotation shaft 111 rotates, and the air inlet pipe 1103 cannot rotate, so that the rotary air pipe connector 1102 is selected, and the air inlet pipe 1103 can not rotate along with the rotation shaft 111 when the rotation shaft 111 rotates.

Referring to fig. 2, 7, 8 and 9, in one embodiment of the present invention, the opposite impact mixing device 13 includes a first liquid storage hopper 131, the first liquid storage hopper 131 is fixedly connected with a side wall of the rotating arm 6, a discharging cavity 132 is formed in the rotating arm 6, and the discharging cavity 132 is communicated with the bottom of the first liquid storage hopper 131 through a first communication hole 133; the device also comprises a second liquid storage hopper 134, wherein the second liquid storage hopper 134 is fixedly connected with the upper side of the outer sleeve 101, and the liquid inlet channel 107 is positioned in the second liquid storage hopper 134; the bottom end of the rotating arm 6 is provided with a bowl-shaped arc plate 135, the bowl-shaped arc plate 135 is connected with the inner bottom of the blanking cavity 132 through a second communication hole, and a plurality of blanking holes 137 are uniformly formed in the bottom of the bowl-shaped arc plate 135; a blocking plate 138 is arranged on the inner side wall of the discharging cavity 132, and a plurality of discharging holes 139 are uniformly formed on the rotating arm 6 at the contact position of the blocking plate 138 and the rotating arm 6.

When circulation is carried out, the pump body 9 is started, the pump body 9 pumps out materials at the bottom in the mixing drum 7, the materials are lifted into the first liquid storage hopper 131 through the circulating pipe 8, and after the materials fall into the first liquid storage hopper 131, the materials enter the blanking cavity 132 through the first communication hole 133;

As the material further falls down to meet the blocking plate 138, a portion of the material is blocked by the blocking plate 138 and discharged through the discharge hole 139; the rest of the materials further fall to the bottom in the falling cavity 132 and enter into the bowl-shaped arc plate 135 through the second communication hole 136, at this time, as the materials have a certain initial speed, only a small part of the materials can fall into the second liquid storage hopper 134 through the blanking hole 137, and the rest of the materials can move upwards for a certain distance along the inner side wall of the bowl-shaped arc plate 135 and form opposite impact mixing with the part of the materials discharged through the discharging hole 139, namely, the two parts of materials are fully mixed, so that the mixing effect of the materials is improved.

Referring to fig. 8 and 9, the discharge hole 139 is disposed in an arc shape, and a striker 1310 is disposed on the rotating arm 6 outside the discharge hole 139.

In one embodiment of the present invention, since the rotating arm 6 has a certain rotation speed, when the material is discharged through the discharge hole 139, if the discharge hole 139 is designed to be arc-shaped, it has a certain initial speed when being thrown out, and it collides with the striking plate 1310, so that the material can be mixed to a certain degree; in addition, the design of the striking plate 1310 also prevents the material from being thrown out a long distance, and the material cannot be mixed with the material in the bowl-shaped arc plate 135, so that the mixing effect is reduced.

The working process of the invention is as follows: the outer sleeve 101 is kept motionless by the connecting rod 112, the inner roller 102 in the outer sleeve 101 rotates relative to the outer sleeve 101 under the action of the driving device 12, during specific work, materials enter through the liquid inlet channel 107, after the inner roller 102 starts rotating under the action of the driving device 12, one of the accommodating grooves 105 arranged on the inner roller 102 inevitably passes through the liquid inlet channel 107 when rotating, after the accommodating groove 105 and the liquid inlet channel 107 have a common opening area, the materials in the liquid inlet channel 107 gradually enter into the accommodating groove 105 under the action of gravity until the accommodating groove 105 is completely separated from the liquid inlet channel 107, and the operation is performed; when the next accommodating groove 105 and the liquid inlet channel 107 have a common opening area, the materials in the liquid inlet channel 107 can gradually enter the next accommodating groove 105; all the materials in the accommodating groove 105 enter the annular cavity 104 through the channel 106, and when the inner roller 102 rotates, the materials are mixed in the annular cavity 104, so that the materials can obtain a more sufficient mixing effect in the annular cavity as compared with the form of a washing machine;

With further rotation of the inner drum 102, when the accommodating groove 105 rotates downwards, and a superposition area exists between the accommodating groove 105 and the liquid outlet channel 108, the material in the annular cavity 104 can necessarily enter the accommodating groove 105 through the channel 106 under the action of gravity and is discharged through the liquid outlet channel 108; the width of the designed liquid outlet channel 108 is smaller than that of the liquid inlet channel 107, namely, after a plurality of rounds of rotation, the material speed is higher when the material is discharged from the liquid outlet channel 108, so that a certain spraying effect is formed, the mixing effect is more obvious during spraying, and the material mixing device has a better application effect on the material mixing of the invention;

When circulation is carried out, the pump body 9 is started, the pump body 9 pumps out materials at the bottom in the mixing drum 7, the materials are lifted into the first liquid storage hopper 131 through the circulating pipe 8, and after the materials fall into the first liquid storage hopper 131, the materials enter the blanking cavity 132 through the first communication hole 133;

As the material further falls down to meet the blocking plate 138, a portion of the material is blocked by the blocking plate 138 and discharged through the discharge hole 139; the rest of the materials further fall to the bottom in the falling cavity 132 and enter into the bowl-shaped arc plate 135 through the second communication hole 136, at this time, as the materials have a certain initial speed, only a small part of the materials can fall into the second liquid storage hopper 134 through the blanking hole 137, and the rest of the materials can move upwards for a certain distance along the inner side wall of the bowl-shaped arc plate 135 and form opposite impact mixing with the part of the materials discharged through the discharging hole 139, namely, the two parts of materials are fully mixed, so that the mixing effect of the materials is improved.

The above description is not intended to limit the invention to the particular embodiments disclosed, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (8)

1. An intelligent manufacturing device for environment-friendly paint materials, which is characterized by comprising: the device comprises a base, wherein a control box and a hydraulic cylinder are arranged on the base, a cantilever is arranged at the upper end of the hydraulic cylinder, a rotating arm is arranged at one side of the cantilever, and a counter-collision mixing device is arranged at the lower end of the rotating arm; a mixing cylinder is arranged below the rotary arm, and a jet mixture is arranged in the mixing cylinder; the bottom of the mixing cylinder is connected with the upper end of the rotating arm through a circulating pipe, and a pump body is arranged on the circulating pipe;

The spraying mixture comprises an outer sleeve, and the outer sleeve is fixedly connected with the inner side wall of the mixing drum through a plurality of connecting rods; an inner roller is rotatably arranged in the outer sleeve, the outer diameter of the inner roller is equal to the inner diameter of the outer sleeve, two ends of the inner roller are fixedly connected with rotating shafts, the rotating shafts are rotatably connected with the side wall of the mixing drum, and the outer end of one rotating shaft is connected with a driving device; an inner sleeve is arranged in the inner roller, and an annular cavity is formed in the inner roller outside the inner sleeve; a plurality of accommodating grooves are uniformly formed in the outer side wall of the inner roller and are communicated with the inside of the annular cavity through channels; the outer sleeve is provided with a liquid inlet channel at the right upper side, the outer sleeve is provided with a liquid outlet channel at the right lower side, and the width of the liquid outlet channel is smaller than that of the liquid inlet channel;

the opposite impact mixing device comprises a first liquid storage hopper, the first liquid storage hopper is fixedly connected with the side wall of the rotating arm, a discharging cavity is formed in the rotating arm, and the discharging cavity is communicated with the bottom of the first liquid storage hopper through a first communication hole; the liquid inlet channel is positioned in the second liquid storage hopper; the bottom end of the rotating arm is provided with a bowl-shaped arc plate, the bowl-shaped arc plate is connected with the inner bottom of the blanking cavity through a second communication hole, and a plurality of blanking holes are uniformly formed in the bottom of the bowl-shaped arc plate; a blocking plate is arranged on the inner side wall of the blanking cavity, and a plurality of discharging holes are uniformly formed in the rotating arm at the contact position of the blocking plate and the rotating arm.

2. The intelligent manufacturing equipment of the environment-friendly paint material according to claim 1, wherein a power device for driving the rotating arm to rotate is arranged on the cantilever.

3. The intelligent manufacturing equipment of the environment-friendly paint materials according to claim 1, wherein the driving device comprises a driving belt wheel, a driven belt wheel and a conveyor belt, the driven belt wheel is fixedly connected with one rotating shaft, the driven belt wheel is connected with the driving belt wheel through the conveyor belt, and the driving belt wheel is connected with an output shaft of a motor positioned on the side wall of the mixing drum through a rotating rod.

4. The intelligent manufacturing equipment of environment-friendly paint materials according to claim 1, wherein the other rotating shaft is connected with an air inlet device, one side of an inner sleeve is communicated with the air inlet device, and the inner sleeve is communicated with the annular cavity through a one-way valve.

5. The intelligent manufacturing apparatus of the environmentally friendly paint material according to claim 4, wherein the one-way valve is in the form of a passage from the inner sleeve to the annular cavity.

6. The intelligent manufacturing equipment for environment-friendly paint materials according to claim 5, wherein a plurality of arc-shaped disturbance plates are arranged on the outer side wall of the inner sleeve.

7. The intelligent manufacturing equipment for the environment-friendly paint material according to claim 6, wherein the air inlet device comprises a communication cavity arranged on the other rotating shaft, the outer end of the communication cavity is connected with a rotary air pipe joint, and the rotary air pipe joint is connected with an air inlet pump body through an air inlet pipe.

8. The intelligent manufacturing equipment of the environment-friendly paint material according to claim 1, wherein the discharging hole is arranged in an arc shape, and a collision plate is arranged on the rotating arm outside the discharging hole.