阅读说明：本技术 一种模块化彩色糖画精确送料装置 (Accurate material feeding unit of modularization color sugar painting ) 是由 秦果 李欣莲 滕丕儒 刘飞 于 2021-05-25 设计创作，主要内容包括：本发明公开了一种模块化彩色糖画精确送料装置,包括储糖装置、混合装置。储糖装置包括加热罐、储糖罐。混合装置包括流糖管、汇合管、混合管、震动混合装置,蠕动泵、出糖口。储糖装置内部开有三个圆柱槽区域,可放置三个储糖罐,储糖罐可以储存三原色的糖浆。加热罐工作时可维持在一定温度内,使储糖罐内糖浆不焦糊。控制器同时控制三个蠕动泵工作,根据实际要求从三个储糖罐内吸取不同颜色,不同量的糖浆,并送入混合管,当糖浆流过混合管时,震动混合装置会保持在一定震动频率范围内,可以使三种不同颜色的糖浆混合成所需要的颜色的糖浆。本发明可很好地流出不同颜色的糖浆,不容易造成出料口的堵塞,便于拆分、清洗以及更换检修。(The invention discloses a modular accurate feeding device for a colorful sugar painting, which comprises a sugar storage device and a mixing device. The sugar storage device comprises a heating tank and a sugar storage tank. The mixing device comprises a sugar flowing pipe, a converging pipe, a mixing pipe, a vibration mixing device, a peristaltic pump and a sugar outlet. Three cylindrical groove areas are arranged in the sugar storage device, three sugar storage tanks can be placed in the sugar storage device, and the sugar storage tanks can store syrup with three primary colors. The heating tank can be maintained at a certain temperature during operation, so that syrup in the sugar storage tank is not burnt. The three peristaltic pump work of controller simultaneous control, follow three storage sugar jar internal absorption different colours according to actual requirement, the syrup of different volume to send into the mixing tube, when the syrup flows through the mixing tube, vibrations mixing arrangement can keep in certain vibration frequency range, can make the syrup of three kinds of different colours mix the syrup of required colour into. The invention can well flow out syrup with different colors, is not easy to cause the blockage of the discharge hole, and is convenient for disassembly, cleaning, replacement and overhaul.)

1. The utility model provides an accurate material feeding unit of modularization color sugar painting which characterized in that: comprises a sugar storage device (101) and a mixing device (103);

the sugar storage device (101) comprises a heating tank (201) and a sugar storage tank (202);

the sugar storage device (101) is cylindrical, three cylindrical grooves are formed in the sugar storage device, the three cylindrical grooves are distributed in a centrosymmetric mode, and three circular holes are formed in the bottom of a cylindrical area;

the upper part and the lower part of the heating tank (201) are both open, and the outside of the heating tank is connected with an electrode; three heating tanks (201) are arranged in the three cylindrical groove areas respectively;

the sugar storage tank (202) is of a metal cup-shaped structure, and the bottom surface of the sugar storage tank is provided with a round hole which is the same as that of the sugar storage device (101); the three sugar storage tanks (202) are respectively arranged in the three heating tanks (201), and the round holes of the sugar storage tanks (202) are superposed with the same round holes of the sugar storage device (101);

the mixing device (103) comprises a sugar flowing pipe (301), a confluence pipe (302), a mixing pipe (303), a vibrating mixing device (304), a peristaltic pump (305) and a sugar outlet (102);

a large cylindrical inner cavity is formed in the mixing device (103), and a round hole is formed in the lower part of the mixing device; the upper part of the mixing device (103) is fixedly connected with the lower end of the sugar storage device (101); the sugar outlet (102) is positioned at the central circular hole at the lower part of the mixing device (103);

three peristaltic pumps (305) are fixedly connected to the bottom of the mixing device (103), correspond to the upper sugar storage tank in position and are centrosymmetric;

the number of the sugar flowing pipes (301) is three, each sugar flowing pipe (301) penetrates through the corresponding circular holes of the sugar storage device (101) and the sugar storage tank (202) and extends into the sugar storage tank (202), and the other end of each sugar flowing pipe is connected with the corresponding peristaltic pump (305);

the three external ports of the confluence pipe (302) are connected with three peristaltic pumps (305), and the port at the center is connected with a mixing pipe (303); the mixing pipe (303) passes through the vibration mixing device (304) and is fixedly connected with the sugar outlet (102);

the vibration mixing device (304) is fixedly connected to the center of the interior of the mixing device (103); when the syrup heating device works, the controller outputs a control command to enable the three heating tanks (201) to generate heat, and the temperature in the three heating tanks (201) is kept within a certain temperature range, so that syrup is not burnt;

the controller simultaneously outputs instructions to control the three peristaltic pumps (305) to work, so that suction force is generated, and syrup with accurate amount is sucked into the peristaltic pumps (305) from the syrup storage tank (202) through the syrup flowing pipe (301);

the controller outputs a control instruction to control the peristaltic pump (305) to work so that the peristaltic pump (305) can generate thrust, syrup with accurate amount is converged from the peristaltic pump (305) through the converging pipe (302), then the syrup passes through the mixing pipe (303) to the vibration mixing device (304), and after the syrup is fully mixed, the syrup with accurate amount is formed, and finally the syrup flows out of the mixing device (103) through the sugar outlet (102);

the controller outputs a control command to control the vibration mixing device (304) to vibrate, and the three colors of syrup are mixed by using vibration when passing through the mixing pipe (303).

2. The modular color sugar art precision feeding device of claim 1, wherein: the heating tank (201) and the sugar storage tank (202) are also included; the heating tank (201) is heated and maintained at a certain temperature, so that syrup in the sugar storage tank (202) is not burnt, and the heating of the upper layer does not influence the work of the lower layer mixing device (103) due to the bottom partition plate of the sugar storage device (101).

3. The modular color sugar art precision feeding device of claim 1, wherein: also comprises the sugar storage device (101); the sugar storage device (101) is internally provided with three cylindrical groove areas, three sugar storage tanks (202) can be placed in the sugar storage devices, the sugar storage tanks (202) can store sugar-excited slurry with three primary colors, and the work of the lower-layer mixing device (103) cannot be influenced due to the perfect sealing performance of the sugar storage device (101).

4. The modular color sugar art precision feeding device of claim 1, wherein: further comprising said vibratory mixing apparatus (304); the vibration mixing device (304) can keep a certain vibration frequency range when syrup flows through the mixing pipe (303), so that the syrup of three different colors can be uniformly mixed in the mixing pipe (303), and the vibration amplitude can not influence the normal work of other components.

5. The modular color sugar art precision feeding device of claim 1, wherein: the peristaltic pump (305) is further included, and can accurately suck syrup with different colors and different quantities from the three syrup storage tanks (202) according to actual requirements, feed the syrup into the mixing pipe (303) to be mixed into syrup with required color, and accurately feed the syrup with required color.

Technical Field

The invention belongs to the technical field of intelligent sugar painting machine equipment manufacturing, and particularly relates to a modular color sugar painting accurate feeding device.

Background

The sugar painting is a national-level non-material cultural heritage and is one of carriers for inheritance and development of the Chinese folk art. Because the learning of the traditional sugar paintings takes long time and the relative economic benefit brought by the production of the sugar paintings is very low, people who are willing to learn the skill are less and less. Therefore, with the development of science and technology, a machine capable of automatically drawing sugar paintings, namely a sugar painting machine, appears on the market. However, both the traditional sugar paintings and the sugar paintings drawn by the sugar painters on the market have only one color, namely the original color of the syrup, and the sugar paintings are single in color and not attractive in appearance.

Disclosure of Invention

The technical scheme adopted for achieving the purpose of the invention is that the modular color sugar painting accurate feeding device is characterized in that: comprises a sugar storage device and a mixing device.

The sugar storage device comprises a heating tank and a sugar storage tank.

The sugar storage device is cylindrical, three cylindrical grooves are formed in the sugar storage device, the three cylindrical grooves are distributed in a central symmetry mode, and three round holes are formed in the bottom of a cylindrical area.

The upper part and the lower part of the heating tank are both open, and the outside of the heating tank is connected with an electrode; the number of the heating tanks is three, and the heating tanks are respectively placed in the three cylindrical groove areas.

The sugar storage tank is of a metal cup-shaped structure, and the bottom surface of the sugar storage tank is provided with a round hole which is the same as that of the sugar storage device; the sugar storage tanks are three and are respectively placed inside the three heating tanks, and the round holes of the sugar storage tanks coincide with the round holes of the sugar storage devices.

The mixing device comprises a sugar flowing pipe, a converging pipe, a mixing pipe, a vibration mixing device, a peristaltic pump and a sugar outlet.

The mixing device is internally provided with a large cylindrical inner cavity, and the lower part of the mixing device is provided with a round hole; the upper part of the mixing device is fixedly connected with the lower end of the sugar storage device; the sugar outlet is positioned at the central round hole at the lower part of the mixing device.

The peristaltic pumps are all three and fixedly connected to the bottom of the mixing device, correspond to the upper sugar storage tank in position and are centrosymmetric.

The number of the sugar flowing pipes is three, each sugar flowing pipe can penetrate through the corresponding circular holes of the sugar storage device and the sugar storage tank and extend into the sugar storage tank, and the other end of each sugar flowing pipe is connected with the corresponding peristaltic pump.

Three external ports of the confluence pipe are connected with three peristaltic pumps, and a port at the center is connected with the mixing pipe; the mixing pipe passes through the vibration mixing device and is fixedly connected with the sugar outlet.

The vibration mixing device is fixedly connected to the center of the interior of the mixing device.

When the syrup heating device works, the controller outputs control instructions to enable the three heating tanks to generate heat, and the temperature in the three heating tanks is kept within a certain temperature range, so that syrup is not burnt.

Further, the controller simultaneously outputs instructions to control the three peristaltic pumps to work, so that suction force is generated, and a certain amount of syrup is sucked into the peristaltic pumps from the syrup storage tank through the syrup flowing pipe.

Further, the controller outputs a control instruction to control the peristaltic pump to work, so that the peristaltic pump generates thrust, syrup is converged by the converging pipe from the peristaltic pump, and then flows into the mixing pipe.

Further, the controller outputs a control command to control the vibration mixing device to vibrate, and when the syrup with the three colors passes through the mixing pipe, the syrup with the three colors is mixed by vibration.

And finally, the mixture flows out of the mixing device through a sugar outlet.

The technical effect of the invention is undoubted, and the invention has the following advantages:

1) three cylindrical groove areas are formed in the sugar storage device, three sugar storage tanks can be placed in the sugar storage device, and the sugar storage tanks can store syrup with three primary colors. The heating tank can be heated and maintained at a certain temperature so that the syrup in the sugar storage tank is not burnt. And the heating of the sugar storage device does not influence the operation of the lower layer.

2) The vibration mixing device can keep in a certain vibration frequency range when syrup flows through the mixing pipe, so that the syrup in three different colors can be uniformly mixed in the mixing pipe.

And the vibration amplitude does not influence the work of other parts.

3) The peristaltic pump can accurately suck syrups with different colors and different amounts from the three sugar storage tanks according to actual requirements, sends the syrups into the mixing pipe to be mixed into the syrup with the required color, and accurately sends out the syrup with the required color.

4) The invention has simple mechanical structure, convenient operation and convenient disassembly, cleaning, replacement and maintenance. Has wide application range.

Drawings

FIG. 1 is a schematic diagram of the general structure of the present invention;

FIG. 2 is a sectional view of the internal structure of the present invention;

FIG. 3 is a top view of the present invention;

in the figure: a sugar storage device 101, a sugar outlet 102, a mixing device 103, a heating tank 201, a sugar storage tank 202, a sugar flowing pipe 301, a converging pipe 302, a mixing pipe 303, a vibrating and mixing device 304 and a peristaltic pump 305.

Detailed Description

The present invention is further illustrated by the following examples, but it should not be construed that the scope of the above-described subject matter is limited to the following examples. Various substitutions and alterations can be made without departing from the technical idea of the invention and the scope of the invention is covered by the present invention according to the common technical knowledge and the conventional means in the field.

Example 1:

the embodiment discloses a modular accurate feeding device for colorful sugar paintings, which is shown in fig. 1 and comprises a sugar storage device (101) and a mixing device (103).

Specifically, referring to fig. 2 and 3, the sugar storage device (101) comprises a heating tank (201) and a sugar storage tank (202).

The sugar storage device (101) is cylindrical, three cylindrical grooves are formed in the sugar storage device, the three cylindrical grooves are distributed in a central symmetry mode, and three round holes are formed in the bottom of a cylindrical area.

The upper part and the lower part of the heating tank (201) are both open, and the outside of the heating tank is connected with an electrode. The number of the heating tanks (201) is three, and the heating tanks are respectively placed in the three cylindrical groove areas.

The sugar storage tank (202) is of a metal cup-shaped structure, and the bottom surface of the sugar storage tank is provided with a round hole which is the same as that of the sugar storage device (101). The sugar storage tanks (202) are three and are respectively placed inside the three heating tanks (201), and the round holes of the sugar storage tanks (202) coincide with the same round holes of the sugar storage device (101).

When in use, the sugar blocks with three primary colors are respectively put into the three sugar storage tanks (202). The controller outputs instructions to start heating the heating tank (201) and control the temperature within a certain range to ensure that the syrup is not burnt.

Example 2:

specifically, referring to fig. two, the mixing device (103) comprises a sugar flowing pipe (301), a confluence pipe (302), a mixing pipe (303), a vibrating mixing device (304), a peristaltic pump (305) and a sugar outlet (102).

A large cylindrical inner cavity is formed in the mixing device (103), and a round hole is formed in the lower part of the mixing device; the upper part of the mixing device (103) is fixedly connected with the lower end of the sugar storage device (101). The sugar outlet (102) is positioned at the central circular hole at the lower part of the mixing device (103).

The number of the peristaltic pumps (305) is three, the peristaltic pumps are fixedly connected to the bottom of the mixing device (103), correspond to the positions of the upper sugar storage tanks, and are centrosymmetric.

The number of the sugar flowing pipes (301) is three, each sugar flowing pipe (301) penetrates through the corresponding circular holes of the sugar storage device (101) and the sugar storage tank (202) and extends into the sugar storage tank (202), and the other end of each sugar flowing pipe is connected with the corresponding peristaltic pump (305).

The junction tube (302) has three external ports connected to three peristaltic pumps (305) and a central port connected to a mixing tube (303). The mixing pipe (303) passes through the vibration mixing device (304) and is fixedly connected with the sugar outlet (102).

The vibration mixing device (304) is fixedly connected to the center of the interior of the mixing device (103).

In use, after syrup is prepared in the syrup storage device (101), the controller controls the peristaltic pump (305) to suck a precise amount of syrup from the corresponding syrup storage tank (202) and send the syrup into the mixing pipe (303) for mixing. Then the syrup in the mixing pipe (303) is fully mixed by the vibration mixing device (304). Finally, the accurately matched syrup flows out through the syrup outlet (102).