CN114247320A

CN114247320A - Ultraviolet curing organosilicon release agent production and preparation facilities

Info

Publication number: CN114247320A
Application number: CN202210055687.3A
Authority: CN
Inventors: 安斌昌
Original assignee: Jiangsu Shuangguan New Material Technology Co ltd
Current assignee: Jiangsu Shuangguan New Material Technology Co ltd
Priority date: 2022-01-18
Filing date: 2022-01-18
Publication date: 2022-03-29

Abstract

The utility model discloses a production and preparation device of an ultraviolet curing organic silicon release agent, which comprises a preparation box, wherein a blanking hopper is arranged at the bottom of the preparation box, a blanking valve is arranged at the bottom of the blanking hopper through a bolt, a flow guide pipe is arranged at the bottom end of the blanking valve through a bolt, an output pipe is arranged at one end of the flow guide pipe, a support is arranged at the outer side of the bottom of the preparation box, and a support column is arranged at the bottom of the support; the top of the preparation box is provided with a top cover in an embedded mode. According to the utility model, two groups of motors are arranged, the two groups of motors simultaneously operate to drive the transmission rod to rotate, the transmission rod rotates to drive the torsion sensor and the rotary rod at the bottom end to rotate, the rotary rod rotates to drive the stirring paddle at the outer side to rotate, the stirring paddles are used for mixing and stirring materials, eddy currents are generated around the two groups of stirring structures, and the two groups of eddy currents collide with each other to enable the materials to be mixed together more fully, so that the material mixing speed of the device is increased.

Description

Ultraviolet curing organosilicon release agent production and preparation facilities

Technical Field

The utility model relates to the technical field of production of ultraviolet curing organic silicon release agents, in particular to a production and preparation device of an ultraviolet curing organic silicon release agent.

Background

Release agents, also known as detackifiers, are used to attach between a substrate and a pressure sensitive adhesive layer, primarily to protect the pressure sensitive adhesive layer coated on the substrate from contamination or other objects that may fail, and are used in notepaper and self-adhesive envelope products where many of the everyday applications involving pressure sensitive adhesives do not exist without a release coating.

The release agent production and preparation device in the prior art has the following defects:

1. reference CN210385825U discloses a preparation facilities is used in production of bio-based methyl alcohol gasoline oil stabilizer, "including oil stabilizer production reaction stirred tank, supporting leg pole, row material pipe, discharge valve, motor branch, conveniently add filterable raw materials and add fill structure, oil stabilizer detects the needle structure, the sealed cover plate structure of pressure release can breathe freely, (mixing) motor, (mixing) shaft, connection internal thread pipe, control panel, control switch, puddler and data plate board. The arrangement of the protective cover and the material injection pipe is beneficial to connecting the material injection pipe of the bio-based methanol gasoline oil product stabilizer raw material to the material injection pipe, so that the raw material is conveniently added, the protective cover is prevented from being opened, and the convenience in operation is increased; the filter screen plate is a stainless steel screen plate; the guide hopper is a conical stainless steel funnel, so that the filtering effect is favorably realized, the quality of the bio-based methanol gasoline oil product stabilizer is improved, the internal structure of the device is simpler, a group of stirring structures cannot quickly and effectively stir materials, and the processing efficiency of the device is lower;

2. reference CN211256335U discloses a corrosion-resistant long-life liquid detergent production facility, "including the base, the top side of base is installed and is washed dispensing production bucket and controlgear, wash the top side of dispensing production bucket and install the motor, the output shaft of motor has the axis of rotation through shaft coupling fixed mounting, and in the bottom of axis of rotation extended to washing dispensing production bucket, fixed mounting had a plurality of stirring leaves in the axis of rotation, fixed mounting had the connecting block in the axis of rotation, and one side fixed mounting of connecting block has the fixed block. According to the washing and blending production barrel, the brush plate is fixedly arranged in the washing and blending production barrel, the motor operates to drive the rotating shaft to rotate, so that the brush plate can be driven to rotate, the inner wall of the washing and blending production barrel is cleaned, the washing and blending agent adhered to the inner wall can be effectively cleaned, the washing and blending agent can be effectively prevented from corroding the washing and blending production barrel, the service life of the washing and blending production barrel can be prolonged, a judging structure for judging whether materials are processed or not is lacked in the device, and workers can accurately judge the quality of the materials processed in the device.

3. The reference document CN211272415U discloses a cloth printing and dyeing device for textile processing, which comprises a bottom case, wherein a motor base is fixedly connected inside the bottom case, a reaction box is fixedly connected to the top of the bottom case, a motor is movably connected to the top of the motor base, a rotating rod which penetrates through the reaction box and extends to the inside of the reaction box is fixedly connected to an output shaft of the motor, a rotating box base is fixedly connected to the top of the rotating rod, an outlet is formed in the left side of the reaction box, and a discharging pipe communicated with the outlet is fixedly connected to the left side of the reaction box. According to the medicament production equipment for producing the traditional Chinese medicine plaster, the motor arranged at the top of the motor base is used for providing power for the device, the rotating rod connected with the motor is fixedly connected with the rotating box base, the rotating box arranged at the top of the rotating box base is fixed by the clamping column to prevent rotation, a medicament is added into the rotating box, reaction liquid is added into the reaction box, and a quantitative feeding structure is lacked in the device, so that the material cannot effectively react;

4. comparison document CN112808059A discloses a cold wave electrochemical aluminium mold release production is with mixing machine with anti-overflow leaks function, "includes base and second support frame, the first bearing of fixedly connected with on the base, the first pivot of fixedly connected with in the first bearing, second support frame top fixedly connected with driving motor, driving motor's output fixedly connected with band pulley, the inboard fixedly connected with scraper of push pedal, the inboard top fixedly connected with slider of push pedal, slider sliding connection is in the spout, the spout is seted up on the mixing box inside wall. This cold wave electrification aluminium mold release production is with mixing machine with anti-overflow leaks function is provided with rotatory T shape bolt, T shape bolt promotes the sucking disc downwards, sucking disc contact ground back, T shape bolt is to the sucking disc extrusion, with the air escape in the sucking disc, thereby make the sucking disc adsorb subaerial, thereby increase this and mix the power of being connected between machine and the ground, make this mix the machine during operation difficult rocking, thereby prevent that inside mixed liquid from splashing overflow and leaking, the device can' T adjust the output speed of material, the material has certain viscidity, unable output efficiency ratio is lower.

Disclosure of Invention

The utility model aims to provide a production and preparation device of an ultraviolet curing organic silicon release agent, which aims to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: the production and preparation device for the ultraviolet curing organic silicon release agent comprises a preparation box, wherein a blanking hopper is arranged at the bottom of the preparation box, a blanking valve is arranged at the bottom of the blanking hopper through a bolt, a flow guide pipe is arranged at the bottom end of the blanking valve through a bolt, an output pipe is arranged at one end of the flow guide pipe, a support is arranged on the outer side of the bottom of the preparation box, and a support column is arranged at the bottom of the support;

the top of the preparation box is provided with a top cover in an embedded mode, the top of the top cover is symmetrically provided with two groups of motors, the top of the top cover is symmetrically provided with two groups of draft tubes, and the draft tubes are located on two sides of the two groups of motors;

the top of top cap is run through and is installed temperature sensor, and temperature sensor is located between two sets of motors.

Preferably, the connecting plate is installed at the outer wall top of preparation case, the controller is installed in the front of preparation case, install the heat-conducting layer on the inner wall of preparation case, the internally mounted of heat-conducting layer has the heater strip.

Preferably, the bottom plate is installed through the bolt in the bottom of support column, support and run through on the both sides outer wall that holds in the palm and install set screw.

Preferably, the discharging pipe is installed to the front end of output tube, install driving motor on the rear end outer wall of output tube, driving motor's output runs through on the back wall of output tube, driving motor's output is connected with the bull stick, and the bull stick is located the inboard of output tube, the spiral leaf is installed in the outside of bull stick.

Preferably, the outer side of the top cover is provided with a through plate, the inner side of the through plate is provided with a connecting screw rod in a penetrating way, and the through plate is connected with the connecting plate through the connecting screw rod.

Preferably, first control valve is installed through the bolt in the top of through-flow pipe, quantitative pipe is installed through the bolt in the top of first control valve, the connecting pipe is installed at the top of quantitative pipe, the second control valve is installed through the bolt in the top of connecting pipe, install infrared detector on the inner wall of quantitative pipe, the connector is installed at the top of second control valve.

Preferably, the output of motor is installed the transfer line, torque sensor is installed to the bottom of transfer line, torque sensor's bottom is installed the rotary rod, the stirring rake is installed in the outside of rotary rod.

Preferably, a temperature display meter is mounted at the top end of the temperature sensor.

Preferably, the working steps of the device are as follows:

s1, firstly, the connecting port is connected with a conveying device through threads, the conveying device conveys materials into the connecting port, meanwhile, a second control valve is opened to enable the materials to enter the connecting pipe, the connecting pipe conveys the materials into the quantitative pipe, an infrared detector in the quantitative pipe sends out an infrared sensing line, the infrared rays are parallel to detect the liquid level, when the infrared rays detect that no obstacle exists, the current material volume can be judged, so that the materials can be accurately proportioned and put in, when the infrared detector detects that the material volume reaches a specified height, the second control valve is closed to stop feeding, meanwhile, a first control valve opens a flow pipe, the flow pipe conveys the materials from the inside of the quantitative pipe to the inside of a preparation box, the preparation box stores the materials, and the materials are all mixed together;

s2, then two sets of motors run simultaneously to drive the transmission rod to rotate, the transmission rod rotates to drive the torque sensor and the rotary rod at the bottom to rotate, the rotary rod rotates to drive the stirring paddle at the outer side to rotate, the stirring paddle mixes and stirs the materials, eddy currents are generated around the two sets of stirring structures, the two sets of eddy currents collide with each other to enable the materials to be mixed together more fully, the stirring paddle can be subjected to the resistance of the materials in the process of rotating in the materials, the rotating speed of the rotary rod at the top of the torque sensor is different from the rotating speed of the transmission rod by a certain distance, the sensing element inside the torque sensor checks the torque, the resistance of the materials is changed in the process of fully mixing the materials, when the resistance of the materials reaches a preset value, the torque sensor transmits the detected information to the controller, and the display screen on the controller displays the data, when observing that the torsion is generated and is kept unchanged, the worker can judge that the materials are fully mixed;

s3, in the process of processing the stirring paddle, electrifying the heating wire to heat, wherein the heating wire heats up, the heat is transmitted to the material by the heat conduction layer to heat the material, the temperature of the material is used for being heated, the stability of the interior of the preparation box is checked by the temperature sensor, the detected temperature is transmitted to the temperature display table and the controller, the temperature display table displays the temperature value, the controller presets the highest value of the temperature, when the temperature is too low or too high, the controller controls the intensity of the current so as to control the stability of the heating wire, the temperature of the material is kept at the temperature of-centigrade, and the material can be ensured to be completely reacted;

s4, after the material is processed, the discharging valve is opened, so that the discharging hopper is communicated with the inside of the flow guide pipe, the discharging hopper transmits the material to the flow guide pipe through the discharging valve, the material is transmitted to the output pipe through the flow guide pipe, the material is stored in the inside of the output pipe, the driving motor operates to drive the rotating rod to rotate, the rotating rod rotates to drive the spiral blade on the outer side to rotate, the spiral blade rotates to push the material to move forwards, the material is output from the discharging pipe, and the material is conveyed.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, two groups of motors are arranged, the two groups of motors simultaneously operate to drive the transmission rod to rotate, the transmission rod rotates to drive the torsion sensor and the rotary rod at the bottom end to rotate, the rotary rod rotates to drive the stirring paddle at the outer side to rotate, the stirring paddles are used for mixing and stirring materials, eddy currents are generated around the two groups of stirring structures, and the two groups of eddy currents collide with each other to enable the materials to be mixed together more fully, so that the material mixing speed of the device is increased.

2. The torque sensor is arranged, the stirring paddle can be subjected to resistance of materials in the process of rotating in the materials, so that the rotating speed of a rotating rod at the top of the torque sensor is different from the rotating speed of a transmission rod to a certain extent, a sensing element in the torque sensor is used for checking the torque, the resistance of the materials can be changed in the process of fully mixing the materials, when the resistance of the materials reaches a preset value, the torque sensor transmits detected information to the controller, data is displayed by a display screen on the controller, and a worker can judge that the materials are fully mixed when observing that the torque is generated and is kept unchanged.

3. According to the utility model, the quantitative pipe is arranged, the connecting port is connected with an external structure, the connection tightness of the device is ensured, the material is conveniently conveyed to the connecting port by the conveying device, then the second control valve is opened, so that the material enters the inside of the connecting pipe, the connecting pipe transmits the material to the inside of the quantitative pipe, the infrared detector inside the quantitative pipe sends out an infrared sensing line, the infrared ray is parallel to the liquid level for detection, when the infrared ray detects that no obstacle exists, the current material volume can be judged, so that the material can be accurately proportioned and put in, when the infrared detector detects that the material volume reaches a specified height, the second control valve is closed to stop feeding, meanwhile, the first control valve opens the flow through pipe, and the flow through pipe transmits the material from the inside of the quantitative pipe to the inside of the preparation box.

4. According to the utility model, the output pipe is arranged, materials are stored in the output pipe, the driving motor operates to drive the rotating rod to rotate, the rotating rod rotates to drive the spiral blade on the outer side to rotate, the spiral blade rotates to push the materials to move forwards, and the materials are output from the discharge pipe, so that the materials are conveyed, and the device is convenient to control the material output speed.

Drawings

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

FIG. 2 is a schematic view of the construction of a preparation tank according to the present invention;

FIG. 3 is a schematic cross-sectional view of the present invention;

FIG. 4 is a schematic view of a quantitative tube structure according to the present invention;

FIG. 5 is a schematic diagram of the delivery tube structure of the present invention;

FIG. 6 is a schematic view of the motor structure of the present invention;

FIG. 7 is a schematic view of a quantitative tube according to the present invention;

FIG. 8 is a schematic perspective view of the delivery tube of the present invention.

In the figure: 1. preparing a box; 101. a heat conductive layer; 102. heating wires; 103. feeding a hopper; 104. a discharge valve; 105. a controller; 106. a connecting plate; 2. a support bracket; 201. a set screw; 202. a support pillar; 203. a base plate; 3. an output pipe; 301. a flow guide pipe; 302. a drive motor; 303. a discharge pipe; 304. a rotating rod; 305. helical leaves; 4. a top cover; 401. penetrating the plate; 402. connecting a screw rod; 5. a dosing tube; 501. a draft tube; 502. a first control valve; 503. a connecting pipe; 504. a second control valve; 505. an infrared detector; 506. a connecting port; 6. an electric motor; 601. a transmission rod; 602. a torque sensor; 603. rotating the rod; 604. a stirring paddle; 7. a temperature sensor; 701. and (4) a temperature display table.

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.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1, fig. 2, fig. 3, fig. 5 and fig. 8, an embodiment of the present invention: a production and preparation device of an ultraviolet curing organic silicon mold release agent;

embodiment one, including preparing case 1, connecting plate 106 is installed at the outer wall top of preparing case 1, and preparing case 1 stores the material, provides the space for the mixture of material, and preparing case 1 fixes the connecting plate 106 in the outside, guarantees the stability of connecting plate 106, the front of preparing case 1 is installed controller 105, by the operation of controller 105 controlling means, install heat-conducting layer 101 on preparing case 1's the inner wall, the internally mounted of heat-conducting layer 101 has heater strip 102, and heat-conducting layer 101 is fixed on preparing case 1's inner wall, is fixed by heat-conducting layer 101 to inside heater strip 102 for heater strip 102 can steadily energize the intensification, and heater strip 102 intensifies and gives the material with heat transmission by heat-conducting layer 101 for the temperature of heating material, hopper 103 is installed to preparing case 1's bottom, blanking valve 104 is installed through the bolt to hopper 103's bottom, the bottom end of the blanking valve 104 is provided with a guide pipe 301 through a bolt, one end of the guide pipe 301 is provided with an output pipe 3, the front end of the output pipe 3 is provided with a discharge pipe 303, the outer wall of the rear end of the output pipe 3 is provided with a driving motor 302, the output end of the driving motor 302 penetrates through the rear wall of the output pipe 3, the output end of the driving motor 302 is connected with a rotating rod 304, the rotating rod 304 is positioned at the inner side of the output pipe 3, the outer side of the rotating rod 304 is provided with a spiral blade 305, the blanking valve 104 is opened after the material processing is completed, so that the blanking hopper 103 is communicated with the inner part of the guide pipe 301, the blanking hopper 103 transmits the material to the guide pipe 301 through the blanking valve 104, the guide pipe 301 transmits the material to the output pipe 3, the material is stored in the inner part of the output pipe 3, the driving motor 302 operates to drive the rotating rod 304 to rotate, and the rotating rod 304 rotates to drive the spiral blade 305 at the outer side to rotate, the spiral blade 305 rotates to push materials to move forwards, the materials are output from the discharge pipe 303, so that the materials are conveyed, the support bracket 2 is installed on the outer side of the bottom of the preparation box 1, the support column 202 is installed at the bottom of the support bracket 2, the bottom end of the support column 202 is provided with the bottom plate 203 through a bolt, the fixing screws 201 are installed on the outer walls of the two sides of the support bracket 2 in a penetrating mode, the bottom plate 203 is fixed on the ground through screws, the stability of the bottom plate 203 is guaranteed, the support column 202 at the top is supported by the bottom plate 203, the stability of the support column 202 is guaranteed, the support bracket 2 at the top is supported by the support column 202, the support bracket 2 can be kept stable, the support bracket 2 can support the preparation box 1 at the top conveniently, and the preparation box 1 can run stably;

referring to fig. 1, fig. 2, fig. 3 and fig. 6, an embodiment of the present invention: a production and preparation device of an ultraviolet curing organic silicon mold release agent;

the second embodiment comprises a top cover 4, wherein a through plate 401 is installed on the outer side of the top cover 4, a connecting screw 402 is installed on the inner side of the through plate 401 in a penetrating manner, the through plate 401 is connected with a connecting plate 106 through the connecting screw 402, the top cover 4 is installed on the top of the preparation box 1 in an embedded manner, the outer side through plate 401 of the top cover 4 is connected with the connecting plate 106 through the connecting screw 402, the stability of the top cover 4 is guaranteed and is used for fixing the top cover 4, two sets of motors 6 are symmetrically installed on the top of the top cover 4, a transmission rod 601 is installed at the output end of each motor 6, a torsion sensor 602 is installed at the bottom end of each transmission rod 601, a rotating rod 603 is installed at the bottom end of each torsion sensor 602, a stirring paddle 604 is installed on the outer side of each rotating rod 603, the two sets of motors 6 simultaneously operate to drive the transmission rods 601 to rotate, and the transmission rods 601 drive the torsion sensors 602 and the rotating rods 603 at the bottom ends to rotate, the rotating rod 603 rotates to drive the outer stirring paddle 604 to rotate, the stirring paddle 604 mixes and stirs materials, eddy currents are generated around two groups of stirring structures, the two groups of eddy currents collide with each other to enable the materials to be mixed more fully, the stirring paddle 604 receives resistance of the materials in the process of rotating the materials, the rotating speed of the rotating rod 603 at the top of the torque sensor 602 is different from the rotating speed of the transmission rod 601 to a certain extent, a sensing element inside the torque sensor 602 checks the magnitude of torque, the resistance of the materials changes in the process of fully mixing the materials, when the resistance of the materials reaches a preset value, the torque sensor 602 transmits detected information to the controller 105, data is displayed by a display screen on the controller 105, and when a worker observes that the torque is generated and keeps constant, the worker can judge that the materials are fully mixed,

referring to fig. 1, fig. 3, fig. 4 and fig. 7, an embodiment of the present invention: a production and preparation device of an ultraviolet curing organic silicon mold release agent;

embodiment three, including top cap 4, two sets of through-flow tubes 501 are installed to top symmetry of top cap 4, and through-flow tubes 501 are located the both sides of two sets of motors 6, first control valve 502 is installed through the bolt in the top of through-flow tubes 501, quantitative pipe 5 is installed through the bolt in the top of first control valve 502, connecting pipe 503 is installed at the top of quantitative pipe 5, second control valve 504 is installed through the bolt in the top of connecting pipe 503, install infrared detector 505 on the inner wall of quantitative pipe 5, connector 506 is installed at the top of second control valve 504, connector 506 is connected with external structure, guarantees the compactness of device connection, makes things convenient for conveyor to carry the material to connector 506 department, then second control valve 504 opens and makes the material enter into the inside of connecting pipe 503, and connecting pipe 503 transmits the material to the inside of quantitative pipe 5, an infrared ray detector 505 in the quantitative pipe 5 sends out an infrared ray induction line, liquid level is detected in parallel by infrared rays, when the infrared rays detect that no obstacle exists, the volume of the current material can be judged, so that accurate proportioning feeding is performed on the material, when the infrared ray detector 505 detects that the volume of the material reaches a specified height, a second control valve 504 is closed to stop feeding, meanwhile, a first control valve 502 opens a flow pipe 501, the flow pipe 501 transmits the material from the inside of the quantitative pipe 5 to the inside of a preparation box 1, the preparation box 1 stores the material, and all the materials are mixed together;

referring to fig. 1, fig. 2 and fig. 3, an embodiment of the present invention: a production and preparation device of an ultraviolet curing organic silicon mold release agent;

fourth embodiment, including top cap 4, the top of top cap 4 is run through and is installed temperature sensor 7, and temperature sensor 7 is located between two sets of motors 6, temperature display table 701 is installed on the top of temperature sensor 7, and temperature sensor 7 fixes on top cap 4, and temperature sensor 7 responds to the inside temperature of preparation case 1, then shows the information that will examine through temperature display table 701, and the workman confirms whether the temperature meets the requirements according to temperature display table 701, gives controller 105 with the temperature transmission simultaneously.

The working steps of the device are as follows:

s1, the connection port 506 is connected with a conveying device through screw threads, the conveying device conveys the materials into the connection port 506, at the same time, the second control valve 504 is opened to allow the material to enter the inside of the connection pipe 503, the connection pipe 503 transfers the material to the inside of the quantitative pipe 5, the infrared detector 505 inside the quantitative pipe 5 emits an infrared ray sensing line, the liquid level is detected in parallel with the infrared ray, when the infrared ray detects no barrier, the volume of the current material can be judged, so as to accurately proportion and put in the materials, when the infrared detector 505 detects that the volume of the materials reaches the designated height, the second control valve 504 is closed to stop feeding, meanwhile, the first control valve 502 opens the flow pipe 501, the flow pipe 501 transmits the materials from the inside of the quantitative pipe 5 to the inside of the preparation box 1, the preparation box 1 stores the materials, and the materials are all mixed together;

s2, then two sets of motors 6 operate simultaneously to drive the transmission rod 601 to rotate, the transmission rod 601 rotates to drive the torque sensor 602 and the rotating rod 603 at the bottom end to rotate, the rotating rod 603 rotates to drive the stirring paddle 604 at the outer side to rotate, the stirring paddle 604 mixes and stirs the materials, eddy currents are generated around the two sets of stirring structures, the two sets of eddy currents collide with each other to enable the materials to be mixed together more fully, the stirring paddle 604 receives the resistance of the materials in the process of rotating the materials, so that the rotating speed of the rotating rod 603 at the top of the torque sensor 602 has a certain difference with the rotating speed of the transmission rod 601, the sensing element inside the torque sensor 602 checks the torque force, the resistance of the materials changes in the process of fully mixing the materials, when the resistance of the materials reaches a preset value, the torque sensor 602 transmits the detected information to the controller 105, the display screen on the controller 105 displays data, and when observing that the torque force is generated and is kept unchanged, a worker can judge that the materials are fully mixed;

s3, in the processing process of the stirring paddle 604, the heating wire 102 is electrified to be heated, the heating wire 102 is heated, the heat conduction layer 101 transmits heat to the material for heating the temperature of the material, the temperature sensor 7 checks the stability of the interior of the preparation box 1, the detected temperature is transmitted to the temperature display table 701 and the controller 105, the temperature display table 701 displays the temperature value, the controller 105 presets the highest value of the temperature, and when the temperature is too low or too high, the controller 105 controls the intensity of current to control the stability of the heating wire 102, so that the temperature of the material is kept at about 50-60 ℃, and the material can be ensured to be completely reacted;

s4, after the material is processed, the blanking valve 104 is opened, so that the blanking hopper 103 is communicated with the inside of the flow guide pipe 301, the blanking hopper 103 transmits the material to the flow guide pipe 301 through the blanking valve 104, and then the material is transmitted to the output pipe 3 through the flow guide pipe 301, the material is stored in the output pipe 3, the driving motor 302 operates to drive the rotating rod 304 to rotate, the rotating rod 304 rotates to drive the spiral blade 305 on the outer side to rotate, the spiral blade 305 rotates to push the material to move forwards, and the material is output from the discharge pipe 303, so that the material is conveyed.

The working principle is as follows: firstly, a connecting port 506 is connected with a conveying device through threads, the conveying device conveys materials into the connecting port 506, meanwhile, a second control valve 504 is opened to enable the materials to enter the connecting pipe 503, the connecting pipe 503 conveys the materials into the quantitative pipe 5, an infrared detector 505 in the quantitative pipe 5 sends out an infrared sensing line, the infrared rays are parallel to detect the liquid level, when the infrared rays detect that no obstacle exists, the current material volume can be judged, when the infrared detector 505 detects that the material volume reaches a specified height, the second control valve 504 is closed to stop feeding, meanwhile, a first control valve 502 opens a flow pipe 501, the flow pipe 501 conveys the materials from the inside of the quantitative pipe 5 into the preparation box 1, the materials are accurately proportioned and put in, the preparation box 1 stores the materials, and all the materials are mixed together, then two groups of motors 6 operate simultaneously to drive the transmission rod 601 to rotate, the transmission rod 601 rotates to drive the torque sensor 602 and the rotating rod 603 at the bottom end to rotate, the rotating rod 603 rotates to drive the stirring paddle 604 at the outer side to rotate, the stirring paddle 604 mixes and stirs the materials, eddy currents are generated around the two groups of stirring structures, the two groups of eddy currents collide with each other to enable the materials to be mixed together more fully, the stirring paddle 604 is subjected to resistance of the materials in the process of rotating in the materials, so that the rotating speed of the rotating rod 603 at the top of the torque sensor 602 is different from the rotating speed of the transmission rod 601 by a certain amount, a sensing element inside the torque sensor 602 inspects the torque, the resistance of the materials is changed in the process of fully mixing the materials, when the resistance of the materials reaches a preset value, the torque sensor 602 transmits the detected information to the controller 105, data is displayed by a display screen on the controller 105, when a worker observes that torsion force is generated and will be kept unchanged, the worker can judge that materials are fully mixed, in the processing process of the stirring paddle 604, the heating wire 102 is electrified to be heated, the heating wire 102 is heated, heat is transmitted to the materials by the heat conduction layer 101 for heating the temperature of the materials, the stability of the interior of the preparation box 1 is checked by the temperature sensor 7, the detected temperature is transmitted to the temperature display table 701 and the controller 105, the temperature value is displayed by the temperature display table 701, the highest value of the temperature is preset by the controller 105, when the temperature is too low or too high, the controller 105 controls the intensity of current to control the stability of the heating wire 102, so that the temperature of the materials is kept at about 50-60 ℃, the materials can be ensured to be fully reacted, the blanking valve 104 is opened after the materials are processed, make hopper 103 link up with the inside of honeycomb duct 301 down, hopper 103 transmits the material for honeycomb duct 301 through unloading valve 104 down, transmit the material for output tube 3 by honeycomb duct 301 again, the material is stored in output tube 3's inside, driving motor 302 operation drives bull stick 304 and rotates, bull stick 304 rotates and drives the spiral leaf 305 in the outside and rotate, spiral leaf 305 is rotatory to be promoted the material and is moved forward, the material is exported from discharging pipe 303, thereby the completion is to the transport of material.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides an ultraviolet curing organosilicon release agent production preparation facilities, includes preparation case (1), its characterized in that: a blanking hopper (103) is installed at the bottom of the preparation box (1), a blanking valve (104) is installed at the bottom of the blanking hopper (103) through a bolt, a guide pipe (301) is installed at the bottom end of the blanking valve (104) through a bolt, an output pipe (3) is installed at one end of the guide pipe (301), a support bracket (2) is installed on the outer side of the bottom of the preparation box (1), and a support column (202) is installed at the bottom of the support bracket (2);

a top cover (4) is embedded in the top of the preparation box (1), two groups of motors (6) are symmetrically installed on the top of the top cover (4), two groups of draft tubes (501) are symmetrically installed on the top of the top cover (4), and the draft tubes (501) are located on two sides of the two groups of motors (6);

the top of top cap (4) is run through and is installed temperature sensor (7), and temperature sensor (7) are located between two sets of motor (6).

2. The production and preparation device of the ultraviolet curing organosilicon release agent according to claim 1, characterized in that: connecting plate (106) are installed at the outer wall top of preparation case (1), controller (105) are installed in the front of preparation case (1), install heat-conducting layer (101) on the inner wall of preparation case (1), the internally mounted of heat-conducting layer (101) has heater strip (102).

3. The production and preparation device of the ultraviolet curing organosilicon release agent according to claim 1, characterized in that: the bottom plate (203) is installed through the bolt in the bottom of support column (202), support and run through on the both sides outer wall of holding in the palm (2) and install set screw (201).

4. The production and preparation device of the ultraviolet curing organosilicon release agent according to claim 1, characterized in that: discharging pipe (303) are installed to the front end of output tube (3), install driving motor (302) on the rear end outer wall of output tube (3), the output of driving motor (302) runs through on the back wall of output tube (3), the output of driving motor (302) is connected with bull stick (304), and bull stick (304) are located the inboard of output tube (3), spiral leaf (305) are installed in the outside of bull stick (304).

5. The production and preparation device of the ultraviolet curing organosilicon release agent according to claim 1, characterized in that: the outer side of the top cover (4) is provided with a through plate (401), the inner side of the through plate (401) is provided with a connecting screw rod (402) in a penetrating way, and the through plate (401) is connected with the connecting plate (106) through the connecting screw rod (402).

6. The production and preparation device of the ultraviolet curing organosilicon release agent according to claim 1, characterized in that: first control valve (502) are installed through the bolt in the top of through-flow pipe (501), quantitative pipe (5) are installed through the bolt in the top of first control valve (502), connecting pipe (503) are installed at the top of quantitative pipe (5), second control valve (504) are installed through the bolt in the top of connecting pipe (503), install infrared detector (505) on the inner wall of quantitative pipe (5), connector (506) are installed at the top of second control valve (504).

7. The production and preparation device of the ultraviolet curing organosilicon release agent according to claim 1, characterized in that: the output of motor (6) is installed and is sent pole (601), torque sensor (602) are installed to the bottom of sending pole (601), rotary rod (603) are installed to the bottom of torque sensor (602), stirring rake (604) are installed in the outside of rotary rod (603).

8. The production and preparation device of the ultraviolet curing organosilicon release agent according to claim 1, characterized in that: and a temperature display meter (701) is installed at the top end of the temperature sensor (7).

9. The production and preparation device of the ultraviolet curing silicone release agent according to any one of claims 1 to 8, characterized in that the working steps of the device are as follows:

s1, firstly, the connecting port (506) is connected with a conveying device through threads, the conveying device conveys materials to the inside of the connecting port (506), meanwhile, the second control valve (504) is opened to enable the materials to enter the inside of the connecting pipe (503), the connecting pipe (503) conveys the materials to the inside of the quantitative pipe (5), an infrared ray detector (505) inside the quantitative pipe (5) sends out an infrared ray induction line, liquid level is detected in the infrared ray parallel mode, when the infrared ray detector (505) detects that no obstacle exists, the volume of the current materials can be judged, accurate proportioning feeding is conducted on the materials, when the infrared ray detector (505) detects that the volume of the materials reaches a specified height, the second control valve (504) is closed to stop feeding, meanwhile, the first control valve (502) opens the flow through pipe (501), the flow through pipe (501) conveys the materials from the inside of the quantitative pipe (5) to the inside of the preparation box (1), storing the materials by a preparation box (1), and mixing all the materials together;

s2, then two sets of motors (6) run simultaneously to drive the transmission rod (601) to rotate, the transmission rod (601) rotates to drive the torque sensor (602) and the rotating rod (603) at the bottom end to rotate, the rotating rod (603) rotates to drive the outer stirring paddle (604) to rotate, the stirring paddles (604) are used for mixing and stirring materials, eddy currents are generated around the two sets of stirring structures, the two sets of eddy currents collide with each other to enable the materials to be mixed together more fully, the stirring paddles (604) can be subjected to resistance of the materials in the process of rotating in the materials, so that the rotating speed of the rotating rod (603) at the top of the torque sensor (602) and the rotating speed of the transmission rod (601) have a certain difference, a sensing element inside the torque sensor (602) is used for checking the magnitude of torque, and the resistance of the materials can change in the process of fully mixing the materials, when the resistance of the materials reaches a preset value, the torque sensor (602) transmits the detected information to the controller (105), a display screen on the controller (105) displays data, and when a worker observes that the torque is generated and keeps unchanged, the worker can judge that the materials are fully mixed;

s3, in the processing process of the stirring paddle (604), the heating wire (102) is electrified to heat, the heating wire (102) heats, the heat is transmitted to the material by the heat conduction layer (101) and is used for heating the temperature of the material, the stability inside the preparation box (1) is checked by the temperature sensor (7), the detected temperature is transmitted to the temperature display table (701) and the controller (105), the temperature display table (701) displays the temperature value, the controller (105) presets the highest value of the temperature, and when the temperature is too low or too high, the controller (105) controls the intensity of the current so as to control the stability of the heating wire (102), so that the temperature of the material is kept at about 50-60 ℃, and the material can be completely reacted;

s4, open baiting valve (104) after material processing is accomplished, make hopper (103) link up with the inside of honeycomb duct (301) down, hopper (103) transmit the material to honeycomb duct (301) through baiting valve (104) down, transmit the material to output tube (3) by honeycomb duct (301) again, the material is stored in the inside of output tube (3), driving motor (302) operation drives bull stick (304) and rotates, bull stick (304) rotate and drive spiral leaf (305) in the outside and rotate, spiral leaf (305) rotatory promotion material is to move forward, the material is exported from discharging pipe (303), thereby accomplish the transport to the material.