CN220758983U - Device for preparing n-propyl acetate slow-drying type printing ink diluent - Google Patents

Abstract

The utility model relates to the technical field of diluent preparation, in particular to a device for preparing n-propyl acetate slow-drying type printing ink diluent, which comprises the following components: the bottom plate, it is this new preparation facilities main part, agitator tank, and it is installed in the surface of bottom plate, and the raw materials case, it is installed in the surface of bottom plate, and the vacuum pump, it is installed in the top of agitator tank, and the vacuum tube, it is connected in the one end of vacuum pump, and compression fan, it sets up in the back of raw materials case. The utility model overcomes the defects of the prior art, in order to prevent the problems of uneven concentration of solvent and bubbles by the compression fan and the vacuum pump, the device adopts the compression fan, the bubbling sloping plate and the bubbling air holes, the compression fan is started, and air is sent to the bubbling air holes on the bubbling sloping plate through the conveying pipe, so that turbulent flow can be formed, solvent precipitation is avoided, uniformity is improved, and meanwhile, the vacuum pump is started to extract gas and reduce the content of bubbles, so that the quality of ink can be improved, which is the main function of the device.

Description

Device for preparing n-propyl acetate slow-drying type printing ink diluent

Technical Field

The utility model relates to the technical field of diluent preparation, in particular to a device for preparing n-propyl acetate slow-drying type printing ink diluent.

Background

The preparation device refers to equipment or tools for carrying out the manufacture or production process of specific products or substances, and the ink diluent preparation device is equipment for preparing ink diluents, which are generally used for adjusting the concentration of ink and improving the fluidity and drying performance of the ink, and the device is used for preparing the required ink diluent finally by mixing the ink and the diluents according to a certain proportion and carrying out stirring and mixing processes.

According to publication No.: CN213761414U an printing ink diluent preparation facilities relates to diluent technical field, is fixed with the agitator tank including top one side of base, and the motor is installed at the top of agitator tank, and the output of motor is connected with the puddler, and the surface mounting of puddler has the stirring leaf, and one side below of agitator tank runs through there is the discharge gate. According to the utility model, through arranging the feed inlet, the feed cover, the filter screen, the liquid inlet pipe, the infusion pipe, the flow detector, the second electric valve, the observation window and the graduated scale, after the raw material solvent enters the raw material box, a worker can see the mixing condition of the internal solvent through the transparent observation window, and then accurately know the liquid level of the solvent through the graduated scale, so that when the water pump is started through the operation panel and the second electric valve is opened, and the infusion pipe is conveyed to the infusion pipe through the water pump, the flow detector can facilitate the worker to watch the total flow of the diluent conveyed by the infusion pipe in a period of time, so as to perform quantitative control; however, the existing preparation device has the following defects in the actual use process:

1. generally, after the raw material solvent enters the raw material box, the raw material solvent can be stored for a period of time for use, so that a large amount of sediment is easily formed in the solution inside the raw material box, the concentration of the bottom and the surface of the raw material solvent is uneven, the stirring in the next link is not uniform enough, and the raw material solvent is inconvenient to store in the raw material box.

2. When the existing preparation device is used for stirring, the common mixture contains bubbles and gas, the bubbles and the gas often cause unstable ink flow in the printing process, so that the quality of printed matters is reduced, and the production quality is influenced.

Disclosure of Invention

The utility model aims to provide a device for preparing n-propyl acetate slow-drying type ink diluent, which aims to solve the problem that the prior preparation device is put forward in the use process in the background technology.

In order to realize the technical problems, the utility model provides the following technical scheme:

an n-propyl acetate slow-drying ink diluent preparation device, comprising:

a base plate which is the main body of the new manufacturing apparatus;

a stirring tank mounted on the surface of the bottom plate;

a raw material box mounted on the surface of the base plate;

a vacuum pump mounted on the top of the stirring tank;

a vacuum tube connected to one end of the vacuum pump;

the compression fan is arranged on the back surface of the raw material box;

an air pressure sensor mounted on the inner surface of the stirring tank;

a bubbling inclined plate which is installed in the raw material box;

the bubbling air holes are all arranged on the surface of the bubbling sloping plate;

the input conveying pipes are arranged in the bubbling sloping plates;

and the discharge conveying pipes are connected to the surface of the input conveying pipe.

Preferably, the stirring tank further comprises:

a controller provided on a side surface of the stirring tank;

the discharge port is connected to the inside of the stirring box;

the other end of the discharge hole is positioned at one side of the stirring tank.

Preferably, the raw material tank further comprises:

a water pump input pipe connected to the inside of the raw material tank; the material taking water pump is connected to one end of the water pump input pipe; and the water pump output pipe is connected with one end of the material taking water pump. Preferably, the stirring tank further comprises:

a stirring mechanism provided inside the stirring tank;

a heat insulating layer provided on the inner surface of the raw material tank;

the other end of the vacuum tube is connected to the inside of the stirring box;

the other end of the water pump output pipe is connected in the stirring tank. Preferably, the raw material tank further comprises:

an automatic exhaust valve provided inside the raw material tank; a feed inlet mounted on the surface of the raw material tank;

the other end of the automatic exhaust valve is positioned at the top of the raw material box. Preferably, the compression fan further comprises:

the fan output air pipe is connected to one end of the compression fan; the shunt tube is connected to one end of the fan output air pipe; the shunt pipe is connected with the input conveying pipe;

the bubbling sloping plate is positioned at the bottom of the inside of the raw material box.

Preferably, the controller further comprises:

a battery connected to the bottom of the controller;

the bubbling air holes penetrate through the surface of the discharge conveying pipe;

the controller is electrically connected with the storage battery, the vacuum pump, the stirring mechanism, the compression fan, the air pressure sensor and the material taking water pump respectively.

The embodiment of the utility model provides a device for preparing n-propyl acetate slow-drying ink diluent, which has the following beneficial effects: in order to prevent uneven solvent concentration and bubble problems, the device adopts a compression fan, a bubbling sloping plate and bubbling air holes, the compression fan is started, air is sent to the bubbling air holes on the bubbling sloping plate through a conveying pipe, so that turbulence can be formed, solvent precipitation is avoided, uniformity is improved, and meanwhile, a vacuum pump is started to extract gas and reduce the bubble content, so that the quality of ink can be improved, and the device is a main function.

1. Through setting up compression fan, bubble swash plate and bubble gas pocket, in order to prevent that raw materials solvent can not lead to the uneven problem of concentration because of depositing, after the raw materials case is sent into with raw materials solvent to the user, start electric connection's compression fan through the controller, will carry air to the shunt tubes of connection through fan output trachea, separately carry the gas to the input conveyer pipe of connection through the shunt tubes, make the emission conveyer pipe of connection carry out the exhaust gas through the bubble gas pocket in the inside of raw materials case with gas, make the gas move up the turbulent flow that causes the solvent in raw materials solvent inside, make raw materials solvent at the inside activity of raw materials incasement, make raw materials solvent can not lead to the problem of depositing because of long-time static, when making raw materials solvent deposit the back need use, can not lead to inhomogeneous problem because of depositing.

2. Through setting up in order to reduce because bubble and gaseous problem that leads to the quality decline, in the in-process of stirring operation, the user starts electric connection's vacuum pump through the controller for the vacuum pump draws the inside air of other end agitator tank through the vacuum tube of connection, can control pressure value in the setting value resets through electric connection's air pressure sensor, constantly extract and discharge gas through the vacuum pump in the circulation mode, shift gas to the high-pressure region from the low-pressure region with the pressure difference based on the flow principle of material, thereby reach the purpose of extracting gas, reduce atmospheric pressure or produce vacuum, make bubble and gas in the mixture can be taken out through the pressure difference, make bubble and gas reduce, thereby improved the quality of printing ink production.

Drawings

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

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a schematic view of the overall rear structure of the present utility model;

FIG. 3 is a schematic view of the overall front cross-section of the present utility model;

fig. 4 is an enlarged view of the portion a of fig. 3 according to the present utility model.

In the figure: 1. a bottom plate; 2. a stirring tank; 3. a controller; 4. a storage battery; 5. a discharge port; 6. a vacuum pump; 7. a vacuum tube; 8. a stirring mechanism; 9. a water pump output pipe; 10. a raw material box; 11. an automatic exhaust valve; 12. a feed inlet; 13. a compression fan; 14. an air output pipe of the fan; 15. a shunt; 16. an air pressure sensor; 17. a water pump input pipe; 18. a material taking water pump; 19. a thermal insulation layer; 20. bubbling sloping plate; 21. an input conveying pipe; 22. a discharge delivery pipe; 23. bubbling pores.

Detailed Description

The preferred embodiments of the present utility model will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present utility model only, and are not intended to limit the present utility model.

Examples: as shown in fig. 1, an apparatus for preparing n-propyl acetate slow-drying ink thinner comprises: the base plate 1 is the main part of the whole ink diluent preparation device, provides the stable support and the structural basis of the device, the stirring box 2 is used for stirring and mixing the ink diluent, the stirring box is usually provided with a feed port and a discharge port for inputting and outputting a mixture, the storage battery 4 provides power supply for the device so as to ensure the normal operation of a controller, the discharge port 5 is a device for realizing vacuum by extracting the gas in the space, and the device transfers the gas from a low-pressure area to a high-pressure area based on the flow principle and the pressure difference of substances, thereby achieving the purposes of extracting the gas, reducing the air pressure or generating vacuum, extracting bubbles and the gas in the ink diluent, realizing the purification and optimization of the ink, and the vacuum tube 7 is used for conveying the extracted gas.

As shown in fig. 2, includes: the controller 3 is used for controlling the operation and parameter setting of the whole device, and can adjust the working state of equipment such as a motor, a vacuum pump, a compression fan, a material taking water pump and the like, and monitor and adjust the operation of the device, the stirring mechanism 8 is usually composed of a motor and a stirring rod and is used for stirring and mixing ink diluents, the water pump output pipe 9 is used for conveying extracted liquid to a conveying pipe at the other end, the raw material box 10 is used for storing and preparing raw material solvents, and is provided with a supporting and connecting mechanism, the compression fan 13 is used for extracting air in air and compressing the air, the main gas input source equipment of a bubbling structure is provided, the fan output air pipe 14 is used for conveying the air to a split-pipe through the fan output air pipe, and the split-pipe 15 is used for realizing balanced gas conveying to the connected pipeline structure.

As shown in fig. 3, includes: the automatic exhaust valve 11 is advantageous for exhausting gas inside the raw material tank during operation, for automatically exhausting gas or air in a device or system, the feed port 12 is used for inputting raw material solvent into the raw material tank, the air pressure sensor 16 is used for measuring sensor means of gas pressure, in the ink diluent preparation device, the air pressure sensor is usually installed inside the stirring tank, for monitoring and controlling the gas pressure during stirring, the water pump input pipe 17 is used for pumping material from the raw material tank for conveying, the material pump 18 is used for pumping material inside the raw material tank 10, and the material pump 18 is used for taking the extracted material out of the raw material tank and conveying the extracted material to the stirring tank.

As shown in fig. 4, includes: the heat insulating layer 19 has a main function of preventing overheating or supercooling of the raw material solvent and maintaining it in a proper temperature range, the bubbling inclined plate 20 has a shape similar to a slope, the bubbling inclined plate has a function of generating a bubbling effect inside the raw material solvent, increasing mobility of the raw material solvent by surging and stirring of gas, promoting mixing and dispersion of the solvent, reducing formation of precipitates, the input and discharge pipes 21 and 22 for conveying gas to a connected pipe, and the bubbling air hole 23 for introducing air or gas into the raw material solvent, thereby generating the bubbling effect. Through bubbling pores, gas can form small bubbles in the solvent, and through the stirring and mixing effects, the mobility and uniformity of the solvent are improved, and the formation of precipitates is avoided.

Working principle: firstly, in order to prevent the problem that the concentration of the raw material solvent is uneven due to precipitation, after a user sends the raw material solvent into the raw material tank 10, a compression fan 13 which is electrically connected is started through a controller 3, air is conveyed to a connected split pipe 15 through a fan output air pipe 14, and air is separately conveyed to a connected input conveying pipe 21 through the split pipe 15, so that a connected discharge conveying pipe 22 discharges air in the raw material tank 10 through a bubbling air hole 23, the air moves upwards in the raw material solvent to cause turbulent flow of the solvent, the raw material solvent moves in the raw material tank 10, the problem that the raw material solvent does not precipitate due to long-time static is solved, and when the raw material solvent is required to be used after being stored, the problem that the raw material solvent is not uniform due to precipitation is avoided, in order to reduce the problem of quality degradation caused by bubbles and gas, in the process of performing a stirring operation, a user starts the electrically connected vacuum pump 6 through the controller 3, so that the vacuum pump 6 pumps air inside the stirring tank 2 at the other end through the connected vacuum pipe 7, the pressure value can be controlled in a set value reset through the electrically connected air pressure sensor 16, gas is continuously pumped and discharged through the vacuum pump 6 in a circulating manner, and the gas is transferred from a low pressure area to a high pressure area based on the flow principle and pressure difference of a substance, thereby achieving the purposes of pumping gas, reducing air pressure or generating vacuum, so that bubbles and gas in a mixture can be pumped out through the pressure difference, the bubbles and gas can be reduced, and the quality of ink production is improved.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (7)

1. An n-propyl acetate slow-drying type ink diluent preparation device is characterized by comprising:

a base plate (1) which is the main body of the new manufacturing apparatus;

a stirring tank (2) mounted on the surface of the bottom plate (1);

a raw material tank (10) mounted on the surface of the base plate (1);

a vacuum pump (6) mounted on the top of the stirring tank (2);

a vacuum tube (7) connected to one end of the vacuum pump (6);

a compression fan (13) which is provided on the back surface of the raw material tank (10);

an air pressure sensor (16) mounted on the inner surface of the stirring tank (2);

a bubbling inclined plate (20) which is mounted inside the raw material tank (10);

the bubbling pores (23) are all arranged on the surface of the bubbling sloping plate (20);

an input delivery pipe (21) which is provided inside the bubbling sloping plate (20);

and discharge conveying pipes (22) which are connected to the surface of the input conveying pipe (21).

2. The n-propyl acetate slow-drying ink diluent preparation device according to claim 1, wherein the stirring tank (2) further comprises:

a controller (3) provided on the side surface of the stirring tank (2);

a discharge port (5) connected to the inside of the stirring tank (2);

the other end of the discharge hole (5) is positioned at one side of the stirring box (2).

3. The n-propyl acetate slow drying ink diluent preparation device according to claim 2, wherein the raw material tank (10) further comprises:

a water pump input pipe (17) connected to the inside of the raw material tank (10);

a material taking water pump (18) connected to one end of the water pump input pipe (17);

and the water pump output pipe (9) is connected to one end of the material taking water pump (18).

4. A n-propyl acetate slow drying ink diluent preparation device according to claim 3, characterized in that the stirring tank (2) further comprises:

a stirring mechanism (8) provided inside the stirring tank (2);

a heat insulating layer (19) provided on the inner surface of the raw material tank (10);

the other end of the vacuum tube (7) is connected to the inside of the stirring box (2);

the other end of the water pump output pipe (9) is connected with the inside of the stirring tank (2).

5. The n-propyl acetate slow drying ink diluent preparation device according to claim 4, wherein the raw material tank (10) further comprises:

an automatic exhaust valve (11) provided inside the raw material tank (10);

a feed port (12) which is attached to the surface of the raw material tank (10);

the other end of the automatic exhaust valve (11) is positioned at the top of the raw material box (10).

6. The n-propyl acetate slow drying ink diluent preparation device according to claim 5, wherein the compression fan (13) further comprises:

a fan output air pipe (14) connected to one end of the compression fan (13);

a shunt tube (15) connected to one end of the fan output air pipe (14);

the shunt tube (15) is connected with the input conveying tube (21);

the bubbling inclined plate (20) is positioned at the bottom of the inside of the raw material box (10).

7. The n-propyl acetate slow drying ink diluent preparation device according to claim 6, wherein the controller (3) further comprises:

a battery (4) connected to the bottom of the controller (3);

the bubbling air holes (23) are formed on the surface of the discharge conveying pipe (22) in a penetrating manner;

the controller (3) is electrically connected with the storage battery (4), the vacuum pump (6), the stirring mechanism (8), the compression fan (13), the air pressure sensor (16) and the material taking water pump (18) respectively.