阅读说明：本技术 一种丙烯酸涂料生产加工设备 (Acrylic coating production and processing equipment ) 是由 周志林 于 2021-01-16 设计创作，主要内容包括：本发明公开了一种丙烯酸涂料生产加工设备,包括外加工机壳、入料调节装置、搅拌加工装置和升降灌装装置,所述外加工机壳的底部焊接有四个呈矩形阵列分布的底部支撑腿,且外加工机壳的内腔下半部分焊接有内侧隔板,所述外加工机壳的内腔中安装有入料调节装置,所述外加工机壳的顶部安装有搅拌加工装置,所述外加工机壳的底部安装有升降灌装装置,所述入料调节装置包括卡接在外加工机壳内腔中的内侧导料台和四个呈环形阵列分布的插接在外加工机壳顶部的入料连接筒。该丙烯酸涂料生产加工设备,可实现丙烯酸涂料生产的前期入料控制、中期的生产环境条件的稳定加工和后期的灌装使用,从而提高整体的加工效率。(The invention discloses acrylic coating production and processing equipment which comprises an outer processing machine shell, a feeding adjusting device, a stirring processing device and a lifting filling device, wherein four bottom supporting legs distributed in a rectangular array are welded at the bottom of the outer processing machine shell, an inner side partition plate is welded at the lower half part of an inner cavity of the outer processing machine shell, the feeding adjusting device is installed in the inner cavity of the outer processing machine shell, the stirring processing device is installed at the top of the outer processing machine shell, the lifting filling device is installed at the bottom of the outer processing machine shell, and the feeding adjusting device comprises an inner side material guide table clamped in the inner cavity of the outer processing machine shell and four feeding connecting cylinders which are distributed in an annular array and are inserted at the top of the outer processing machine shell. The acrylic coating production and processing equipment can realize early-stage feeding control, middle-stage stable processing under production environment conditions and later-stage filling use in acrylic coating production, thereby improving the overall processing efficiency.)

1. The utility model provides an acrylic acid coating production and processing equipment, includes outer processing casing (1), pan feeding adjusting device (4), stirring processingequipment (5) and lift filling device (6), its characterized in that: the bottom of the external machining machine shell (1) is welded with four bottom supporting legs (2) distributed in a rectangular array mode, the lower half portion of an inner cavity of the external machining machine shell (1) is welded with an inner side partition plate (3), a feeding adjusting device (4) is installed in the inner cavity of the external machining machine shell (1), a stirring machining device (5) is installed at the top of the external machining machine shell (1), and a lifting filling device (6) is installed at the bottom of the external machining machine shell (1);

the feeding adjusting device (4) comprises an inner side guide table (7) and four feeding connecting cylinders (8), wherein the inner side guide table is clamped in an inner cavity of the outer processing machine shell (1), the four feeding connecting cylinders are distributed in an annular array and are inserted into the top of the outer processing machine shell (1), four guide inclined planes which are distributed in an annular array and are matched with the feeding connecting cylinders (8) are arranged at the top of the inner side guide table (7), four built-in guide grooves distributed in an annular array are arranged on the periphery of the inner side guide table (7), and heaters (9) are arranged in inner cavities of the four built-in guide grooves;

the stirring processing device (5) comprises a clamping cover (11) and a disassembling and maintaining plate (12), wherein the clamping cover (11) is clamped at the middle position of the top of the outer processing casing (1), the disassembling and maintaining plate (12) is connected to the top of the clamping cover (11) through a bolt, a driving motor (13) is installed at the middle position of an inner cavity of the clamping cover (11), the bottom of the output end of the driving motor (13) penetrates through the stirring processing device (5) and is connected with a stirring shaft (14) through a coupler, and a plurality of stirring blades (15) which are distributed at equal intervals are welded on the periphery of the stirring shaft (14);

the lifting filling device (6) comprises four hydraulic cylinders (16) which are distributed in a rectangular array and are arranged at the bottom of an outer processing casing (1) and a plurality of discharge pipes (17) which are distributed in an annular array and are connected to the bottom of the outer processing casing (1), lifting adjusting plates (18) are connected between the bottoms of the output ends of the four hydraulic cylinders (16), the lifting adjusting plates (18) are inserted into the peripheries of a plurality of bottom supporting legs (2), an adjusting motor (19) is installed at the middle position of the bottom of each lifting adjusting plate (18), the top of the output end of each adjusting motor (19) penetrates through the lifting adjusting plates (18) and is connected with a rotating disc (20) through a coupler, a plurality of built-in holes which are distributed in an annular array and are matched with the discharge pipes (17) are formed in the top of the rotating disc (20), and filling pipes (21) are clamped in the inner cavities of, the top of filling pipe (21) is pegged graft in the bottom of discharging pipe (17) that corresponds, and is a plurality of all install filling solenoid valve (25) on the outer wall of discharging pipe (17).

2. The acrylic coating production and processing equipment as claimed in claim 1, wherein: two sets of liquid outlet holes which are symmetrically distributed up and down are formed in the inner wall of the inner side material guide table (7), the liquid outlet holes are communicated with a built-in material guide groove of the inner side material guide table (7) and an inner cavity of the inner side material guide table (7), and discharging electromagnetic valves (10) are installed in inner cavities of the liquid outlet holes.

3. The acrylic coating production and processing equipment as claimed in claim 1, wherein: the top of outer processing casing (1) is seted up a plurality ofly be the annular array distribute and with pan feeding connecting cylinder (8) looks adaptation joint hole, and in the inner chamber in joint hole with pan feeding connecting cylinder (8) looks spiro union that corresponds, the laminating department of pan feeding connecting cylinder (8) and outer processing casing (1) has cup jointed the sealing rubber circle.

4. The acrylic coating production and processing equipment as claimed in claim 1, wherein: the outer processing machine shell is characterized in that two nesting holes which are symmetrically distributed and matched with the feeding connecting cylinder (8) are formed in the outer walls of the four sides of the outer processing machine shell (1), an observation glass plate is nested in the inner cavity of each nesting hole and communicated with the built-in material guide groove of the inner side material guide table (7), and heaters (9) located in the inner cavity of the same built-in material guide groove are mounted in the inner cavity of the observation glass plate close to the same feeding connecting cylinder (8).

5. The acrylic coating production and processing equipment as claimed in claim 1, wherein: a plurality of guide holes matched with the bottom supporting legs (2) are formed in the outer wall of the lifting adjusting plate (18), guide cylinders are connected in the inner cavities of the guide holes in a clamping mode, and the guide cylinders are connected with the corresponding bottom supporting legs (2) in a sliding mode.

6. The acrylic coating production and processing equipment as claimed in claim 1, wherein: the inner chamber of filling pipe (21) has been pegged graft and has been connect telescopic piston rod (22), and the top nestification of telescopic piston rod (22) has the rubber piston head, the bottom integrated into one piece of telescopic piston rod (22) has connector (23), the first half spiro union has absorption fixing base (24) in the periphery of filling pipe (21), and all nestedly in the periphery of absorption fixing base (24) and connector (23) has annular metal sheet, and all install the annular electromagnet with annular metal sheet looks adaptation in the inner chamber of rotary disk (20) and discharging pipe (17).

7. The acrylic coating production and processing equipment as claimed in claim 6, wherein: the top spiro union of filling tube (21) has conical pan feeding adsorption head, and the pan feeding adsorption head is gone up and is adsorbed fixing base (24) looks spiro union on the periphery.

Technical Field

The invention belongs to the technical field of acrylic coating processing, and particularly relates to acrylic coating production and processing equipment.

Background

The acrylic coating is a single-component self-drying weather-resistant anticorrosive coating prepared by adding well-known long-life chlorosulfonated polyethylene rubber, weather-resistant pigment and filler, weather-resistant additive and the like on the basis of traditional acrylic resin through an advanced process. In the coating processing process, proportioning stirring processing is often required, and a certain change can occur in the liquid level along with the progress of chemical reaction in the processing process, the upper side is generally used for stirring and producing relatively thorough coating liquid, the lower side is easy to accumulate, but in the continuous reaction process, the coating on the upper side cannot be immediately discharged, so that a stirring rod is always in a large load to work, the service life is shortened, the stirring speed of the accumulated materials on the lower side is reduced by hydraulic pressure, the stirring production is influenced, after the production is finished, the acrylic coating is generally required to be filled and packaged, most of the existing packages are directly filled and packaged by a coating barrel and a sealing film, and in the actual use process, the existing packages are packaged into a corresponding spraying gun, the re-operation steps of a user are reduced, the competitiveness of commodities can be effectively improved, and after the existing packages are basically filled into the coating barrel, when manual or secondary processing is transferred into the coating gun, additional steps are added, and the quality is easily affected due to leakage of the coating in the transfer process, so that a universal filling structure capable of being filled into the coating bucket and the coating gun is needed.

Therefore, in order to meet the current situation, the design and production of an acrylic coating production and processing device are urgently needed to meet the actual use requirement.

Disclosure of Invention

The invention aims to provide acrylic paint production and processing equipment to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the production and processing equipment for the acrylic coating comprises an external processing machine shell, a feeding adjusting device, a stirring processing device and a lifting filling device, wherein four bottom supporting legs distributed in a rectangular array are welded at the bottom of the external processing machine shell, an inner side partition plate is welded at the lower half part of an inner cavity of the external processing machine shell, the feeding adjusting device is installed in the inner cavity of the external processing machine shell, the stirring processing device is installed at the top of the external processing machine shell, and the lifting filling device is installed at the bottom of the external processing machine shell;

the feeding adjusting device comprises an inner side guide table and four feeding connecting cylinders, wherein the inner side guide table is clamped in the inner cavity of the outer processing machine shell, the four feeding connecting cylinders are distributed in an annular array and are inserted at the top of the outer processing machine shell, the top of the inner side guide table is provided with four guide inclined planes which are distributed in an annular array and are matched with the feeding connecting cylinders, the periphery of the inner side guide table is provided with four built-in guide grooves distributed in an annular array, and heaters are arranged in the inner cavities of the four built-in guide grooves;

the stirring processing device comprises a clamping cover and a disassembling and maintaining plate, wherein the clamping cover and the disassembling and maintaining plate are clamped at the middle position of the top of the outer processing machine shell, the top of the clamping cover is connected with the disassembling and maintaining plate through a bolt, a driving motor is arranged at the middle position of an inner cavity of the clamping cover, the bottom of the output end of the driving motor penetrates through the stirring processing device and is connected with a stirring shaft through a coupler, and a plurality of stirring blades which are distributed at equal intervals are welded on the periphery of the stirring shaft;

the lift filling device includes that four are the pneumatic cylinder of installing in outer processing chassis bottom that the rectangle array distributes and a plurality of discharging pipes of connecting in outer processing chassis bottom that are the annular array and distribute, and is connected with the lift adjusting plate between the output bottom of four pneumatic cylinders, and the lift adjusting plate pegs graft in the periphery of a plurality of bottom supporting legs, adjusting motor is installed to the bottom intermediate position of lift adjusting plate, adjusting motor's output top is run through the lift adjusting plate and is connected with the rotary disk through the coupling joint, the top of rotary disk set up a plurality ofly be the annular array distribute and with the built-in hole of discharging pipe looks adaptation, and the joint has the filling pipe in the inner chamber of interior finger hole, peg graft in the bottom of the discharging pipe that corresponds, and is a plurality of the filling solenoid valve is all installed on the outer wall of discharging pipe.

Preferably, two sets of liquid outlet holes which are symmetrically distributed up and down are formed in the inner wall of the inner side material guide platform, the liquid outlet holes are communicated with a built-in material guide groove of the inner side material guide platform and an inner cavity of the inner side material guide platform, and discharging electromagnetic valves are installed in inner cavities of the liquid outlet holes.

Preferably, a plurality of joint holes which are distributed in an annular array and are matched with the feeding connecting cylinder are formed in the top of the outer processing machine shell, the inner cavity of each joint hole is in threaded connection with the corresponding feeding connecting cylinder, and a sealing rubber ring is sleeved at the joint of the feeding connecting cylinder and the outer processing machine shell.

Preferably, the outer walls of four sides of the outer processing machine shell are respectively provided with two nesting holes which are symmetrically distributed and matched with the feeding connecting cylinder, an observation glass plate is nested in the inner cavity of each nesting hole, the observation glass plate is communicated with the built-in material guide groove of the inner side material guide table, and heaters which are positioned in the inner cavity of the same built-in material guide groove are arranged in the inner cavity of the observation glass plate close to the same feeding connecting cylinder.

Preferably, a plurality of guiding holes matched with the bottom supporting legs are formed in the outer wall of the lifting adjusting plate, a guiding cylinder is connected in an inner cavity of each guiding hole in a clamping mode, and the guiding cylinder is connected with the corresponding bottom supporting legs in a sliding mode.

Preferably, telescopic piston rod has been pegged graft in the inner chamber of filling pipe, and telescopic piston rod's top nestification has the rubber piston head, telescopic piston rod's bottom integrated into one piece has the connector, the first half spiro union in the periphery of filling pipe has the absorption fixing base, and adsorbs all nestedly in the periphery of fixing base and connector have annular metal sheet, and all install the annular electromagnet with annular metal sheet looks adaptation in the inner chamber of rotary disk and discharging pipe.

Preferably, the top of the filling pipe is screwed with a conical feeding adsorption head, and the periphery of the feeding adsorption head is screwed with the adsorption fixing seat.

The invention has the technical effects and advantages that: according to the production and processing equipment for the acrylic coating, a plurality of feeding connecting cylinders are arranged and matched with corresponding inner material guide platforms, and feeding control and advanced heating are facilitated under the heating action of a heater in a material guide groove arranged in the lower side, so that the use of a feeding end is facilitated; the built-in guide chute is arranged, so that the water level of the rising acrylic coating can be controlled and guided out in the processing process, the pressure of the stirring rod is maintained in a relatively stable area in the internal processing process, the service life of the whole machine is prolonged, and the control in the production process is facilitated; when the filling, through being equipped with discharging pipe and lift regulating plate, can be with scribbling in the storage bucket or the fixed rotary disk of material gun of spouting to carry out the pull pan feeding of coating filling or coating, conveniently to scribbling the storage bucket and spout the general filling of material gun, and then be convenient for pack after processing and control, this acrylic acid coating production and processing equipment can realize the earlier stage pan feeding control of acrylic acid coating production, the stable processing of the production environmental condition in middle period and the filling in later stage use, thereby improve holistic machining efficiency.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a cross-sectional view of an exterior process enclosure of the present invention;

FIG. 3 is a cross-sectional view of the inboard guide table of the present invention;

FIG. 4 shows a bottom view of the tapping pipe according to the invention;

fig. 5 is a schematic structural diagram of a filling tube according to the present invention.

In the figure: the device comprises an outer processing machine shell, 2 bottom supporting legs, 3 inner side partition plates, 4 feeding adjusting devices, 5 stirring processing devices, 6 lifting filling devices, 7 inner side material guide tables, 8 feeding connecting cylinders, 9 heaters, 10 discharging electromagnetic valves, 11 clamping covers, 12 disassembling maintenance plates, 13 driving motors, 14 stirring shafts, 15 stirring blades, 16 hydraulic cylinders, 17 discharging pipes, 18 lifting adjusting plates, 19 adjusting motors, 20 rotating disks, 21 filling pipes, 22 telescopic piston rods, 23 connectors, 24 adsorption fixing seats and 25 filling electromagnetic valves.

Detailed Description

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

Unless otherwise indicated, all references to up, down, left, right, front, back, inner and outer directions herein are to be interpreted as referring to up, down, left, right, front, back, inner and outer directions in the drawings to which the invention is directed.

The invention provides acrylic coating production and processing equipment as shown in figures 1-5, which comprises an external processing machine shell 1, a feeding adjusting device 4, a stirring processing device 5 and a lifting filling device 6, wherein four bottom supporting legs 2 distributed in a rectangular array are welded at the bottom of the external processing machine shell 1, an inner side partition plate 3 is welded at the lower half part of an inner cavity of the external processing machine shell 1, the feeding adjusting device 4 is installed in the inner cavity of the external processing machine shell 1, the stirring processing device 5 is installed at the top of the external processing machine shell 1, and the lifting filling device 6 is installed at the bottom of the external processing machine shell 1;

the feeding adjusting device 4 comprises an inner material guide table 7 and four feeding connecting cylinders 8, wherein the inner material guide table 7 is clamped in an inner cavity of the outer processing machine shell 1, the four feeding connecting cylinders 8 are distributed in an annular array and are inserted into the top of the outer processing machine shell 1, the top of the inner material guide table 7 is provided with four material guide inclined planes which are distributed in an annular array and are matched with the feeding connecting cylinders 8, the periphery of the inner material guide table 7 is provided with four inner material guide grooves distributed in an annular array, heaters 9 are arranged in the inner cavities of the four inner material guide grooves, and the heaters 9 can be ceramic PTC heaters and are used for heating and insulating paint in the inner cavities of the inner material guide grooves in the production process and heating the material guide inclined planes so as to improve the temperature during feeding;

the stirring processing device 5 comprises a clamping cover 11 and a disassembling maintenance plate 12, wherein the clamping cover 11 is clamped at the middle position of the top of the outer processing machine shell 1, the disassembling maintenance plate 12 is connected to the top of the clamping cover 11 through a bolt, the clamping cover is convenient to disassemble and maintain, a driving motor 13 is installed at the middle position of an inner cavity of the clamping cover 11, the driving motor 13 and an adjusting motor 19 can be a servo motor with an angle controller and the model of the servo motor is R2AA06040HXH00, stirring and angle control are completed, the bottom of the output end of the driving motor 13 penetrates through the stirring processing device 5 and is connected with a stirring shaft 14 through a coupler, and a plurality of stirring blades 15 which are distributed at equal intervals are welded on the periphery of the;

the lifting filling device 6 comprises four hydraulic cylinders 16 which are distributed in a rectangular array and are arranged at the bottom of an outer processing machine shell 1 and a plurality of discharge pipes 17 which are distributed in an annular array and are connected at the bottom of the outer processing machine shell 1, lifting adjusting plates 18 are connected between the bottoms of the output ends of the four hydraulic cylinders 16, the hydraulic cylinders 16 of conventional types can be selected by the hydraulic cylinders 16, the lifting adjusting plates 18 are inserted in the peripheries of a plurality of bottom supporting legs 2, adjusting motors 19 are arranged at the middle positions of the bottoms of the lifting adjusting plates 18, the tops of the output ends of the adjusting motors 19 penetrate through the lifting adjusting plates 18 and are connected with rotating disks 20 through couplers, a plurality of built-in holes which are distributed in an annular array and are matched with the discharge pipes 17 are formed in the tops of the rotating disks 20, filling pipes 21 are clamped in inner cavities of the inner finger holes, and the tops of the filling, a plurality of filling electromagnetic valves 25 are mounted on the outer walls of the discharge pipes 17, stainless steel electromagnetic valves with the model of Z3BS can be selected for the filling electromagnetic valves 25 and the discharge electromagnetic valves 10, and the electric devices are in driving connection with an external driving power supply to control the movement of liquid level.

Specifically, two sets of liquid outlet holes which are symmetrically distributed up and down are formed in the inner wall of the inner side material guide table 7, the liquid outlet holes are communicated with the built-in material guide groove of the inner side material guide table 7 and the inner cavity of the inner side material guide table 7, discharging electromagnetic valves 10 are installed in the inner cavities of the liquid outlet holes, and the produced coating is discharged and the whole coating is guided out, so that the cleaning and the use are performed.

Specifically, a plurality of joint holes that are the ring array and distribute and with 8 looks adaptations of pan feeding connecting cylinder are seted up at the top of outer processing casing 1, and in the inner chamber in joint hole with the 8 looks spiro unions of pan feeding connecting cylinder that correspond, the sealing rubber circle has been cup jointed with the laminating department of outer processing casing 1 to pan feeding connecting cylinder 8, and the use of many pan feeding connecting cylinders 8 is conveniently controlled pan feeding kind, pan feeding volume and pan feeding speed, further improves the control before the processing.

Specifically, two nested holes which are symmetrically distributed and matched with the feeding connecting cylinder 8 are formed in the outer walls of the four sides of the outer processing machine shell 1, an observation glass plate is nested in the inner cavity of each nested hole and is communicated with the built-in material guide groove of the inner side material guide table 7, the heater 9 which is located in the inner cavity of the same built-in material guide groove is installed in the inner cavity of the observation glass plate of the feeding connecting cylinder 8, and the heater 9 and the inner coating liquid level height can be observed conveniently and can be detached, maintained and used in the later period conveniently.

Specifically, set up a plurality of guiding holes with 2 looks adaptations of bottom supporting leg on the outer wall of lift adjusting plate 18, and the joint has the guide cylinder in the inner chamber of guiding hole, and the guide cylinder improves holistic direction slip effect with 2 looks sliding connection of bottom supporting leg that correspond.

It is specific, telescopic piston rod 22 has been pegged graft in the inner chamber of filling tube 21, and telescopic piston rod 22's top nestification has the rubber piston head, telescopic piston rod 22's bottom integrated into one piece has connector 23, filling tube 21's the first half spiro union in periphery has absorption fixing base 24, and adsorbs all nestedly in the periphery of fixing base 24 and connector 23 and have annular metal sheet, and all install the annular electromagnet with annular metal sheet looks adaptation in the inner chamber of rotary disk 20 and discharging pipe 17, realize dragging fixedly to accomplish the pulling to telescopic piston rod 22, accomplish the liquid feeding operation to filling tube 21.

Specifically, the top spiro union of filling tube 21 has conical pan feeding to adsorb the head, and the periphery of pan feeding adsorption head with adsorb fixing base 24 looks spiro union, carry out conventional filling and filling tube 21's filling and switch over the use.

The working principle is that when the production and processing equipment for the acrylic coating is used, the following steps are adopted for operation:

s1: feeding and adjusting: the feeding connecting cylinder 8 is clamped and connected with an external feeding pipe, raw materials for preparing acrylic coating are connected, so that the feeding speed and the feeding amount are changed by adjusting the size of the feeding connecting cylinder 8, and the raw materials can be preliminarily heated by using the heater 9 to finish feeding control;

s2: and (3) processing the coating: after step S1 is completed, the driving motor 13 drives the stirring shaft 14 to perform processing preparation, in the preparation process, the liquid content in the paint increases, and in the stirring process, through chemical reaction and liquid level change caused by the subsequent addition of raw materials, after a certain time of preparation, the upper discharging electromagnetic valve 10 is manually controlled to be opened (initially, when the preparation is started, the preparation is required to be closed for a certain time to ensure the normal preparation and use of the raw materials), then the upper paint is discharged through the built-in material guide groove in the inner side material guide table 7, and heat preservation treatment is performed through the heater 9;

s3: filling the paint: after the coating enters the built-in material guide chute at a relatively constant speed in step S2, the filling tube 21 is placed on the rotating disk 20 and aligned with the discharging tube 17, and conventional filling is performed by controlling the filling solenoid valve 25, when filling the filling tube 21 with the spray gun structure, the connection and fixation of both ends are completed by fixing the annular metal plates on the connector 23 and the adsorption fixing seat 24 to the annular electromagnet, then after the fixation is completed, the filling solenoid valve 25 is opened, and the lifting adjusting plate 18 is driven by the hydraulic cylinder 16 to move downwards to drive the telescopic piston rod 22 to move in the filling tube 21, so as to achieve adsorption filling, and the two filling modes can be performed simultaneously after the discharging tube 17 and the filling tube 21 are aligned, so as to ensure that filling is performed, and the filling station is adjusted by the adjusting motor 19, so as to facilitate installation and removal of the filling tube 21, and the whole production, processing and use are completed.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.