阅读说明：本技术 一种黄豆浓浆加热成型设施 (Thick thick liquid heating forming facility of soybean ) 是由 陈义群 陈鑫 张昌军 于 2020-06-07 设计创作，主要内容包括：本发明一种黄豆浓浆加热成型设施属于豆制品加工设施,在机架上面的内部安装半圆形的凹槽、在凹槽内部的中央横向水平安装搅拌轴、在搅拌轴的两边各安装一根S型的发热管、在搅拌轴左边的顶端安装圆柱形的旋转式导电接头、在搅拌轴右边的顶端横向水平安装减速电机,当黄豆浓浆被注入凹槽后、减速电机带动搅拌轴及发热管对黄豆浓浆进行缓慢搅动、在搅动的同时发热管对黄豆浓浆进行快速加热、使凹槽上面的黄豆浆不接豆皮及凹槽底部不接锅巴、待黄豆浓浆加热至设定温度后、温控开关通过接触器将发热管关闭、工人可向凹槽里面加入石膏水进行成型。(The invention relates to a soybean thick paste heating and forming facility, which belongs to a bean product processing facility.A semicircular groove is arranged in a rack, a stirring shaft is transversely and horizontally arranged in the center of the groove, two S-shaped heating pipes are respectively arranged at two sides of the stirring shaft, a cylindrical rotary conductive connector is arranged at the top end of the left side of the stirring shaft, a speed reducing motor is transversely and horizontally arranged at the top end of the right side of the stirring shaft, after the soybean thick paste is injected into the groove, the speed reducing motor drives the stirring shaft and the heating pipes to slowly stir the soybean thick paste, the heating pipes rapidly heat the soybean thick paste while stirring, so that the soybean milk on the groove is not connected with soybean skins and the bottom of the groove is not connected with rice crust, after the soybean thick paste is heated to a set temperature, a temperature control switch closes the heating pipes through contactors, and a worker can add gypsum water into the groove to form the soybean product.)

1. A soybean thick paste heating and forming facility is characterized by comprising a machine body, a groove, a temperature sensor, a discharge hole, a ball valve, a waterproof bearing seat, a stirring shaft, a heating pipe, a rotary conductive joint, a pre-buried wire, a conductive joint support, a speed reducing motor, a control box, a power supply, a controller, a first contactor, a second contactor and a power line;

the machine body is in a hollow cuboid shape, is transversely and horizontally arranged on the ground, is provided with an opening at the upper part, is transversely and horizontally provided with a semicircular groove in the machine body, is provided with a temperature sensor at the center of the bottom of the groove, and is provided with a circular discharge hole at the bottom of the left side of the groove;

the ball valve is connected with the left side of the discharge hole through a water pipe;

the waterproof bearing seat is disc-shaped and is respectively arranged in the centers of two side surfaces of the machine body.

2. The thick soybean paste heating and forming facility according to claim 1, wherein the stirring shaft is cylindrical, is horizontally arranged in the center of the groove in the transverse direction, two ends of the stirring shaft are respectively connected with the two waterproof bearing seats, the top end of the left side of the stirring shaft extends to the left side of the left side surface of the machine body, a long embedded line is arranged inside the stirring shaft, a cylindrical support is vertically arranged in the center of each end of the stirring shaft, an S-shaped heating pipe is respectively arranged between two ends of each support, and the top ends of the left sides of the two heating pipes are respectively connected with the embedded line through the inside of the left support through power wires;

the rotary conductive joint is cylindrical and is arranged on the top end of the left side of the stirring shaft, an internal slip ring is connected with the embedded line, and the bottom of the rotary conductive joint is connected with the left side surface of the machine body through an L-shaped conductive joint support;

the speed reducing motor is horizontally arranged at the center of the right side surface of the machine body through a bolt, and the center shaft on the left side extends to the inside of the right side of the stirring shaft.

3. The thick soybean paste heating and forming facility according to claim 1, wherein the control box is arranged on a power distribution cabinet of the production line, a power supply, a controller, a first contactor and a second contactor are arranged in the control box, and a display screen in front of the controller extends to the outside in front of the control box;

the power supply is connected with the controller, the first contactor and the second contactor through power lines respectively, the controller is connected with the temperature sensor, the first contactor and the second contactor through power lines respectively, the first contactor is connected with the rotary conductive connector through the power lines, and the second contactor is connected with the speed reduction motor through the power lines.

Technical Field

The invention relates to a soybean thick paste heating and forming facility, belongs to a bean product processing facility, and particularly relates to synchronous heating and slow stirring up and down in the soybean thick paste heating process.

Background

The thick soybean milk is used as raw material for making bean curd, dried bean curd and bean curd skin. The existing enterprises for processing bean products mostly adopt a square pot or a round pot when carrying out heating forming on soybean thick paste, then heat at the bottom of the pot, because the soybean milk can only be heated to 90 ℃ at most, but can not be boiled, a large amount of foam can be generated instantly after being boiled and can quickly overflow out of the pot, and because the soybean milk can not be sealed and has different temperatures up and down in the heating process, the bottom of the pot can generate crispy rice, the skin of the bean can be generated on the bottom of the pot, and the beauty and the taste of the bean curd or dried bean curd are influenced. Therefore, a device which can heat in the pot and stir while heating is needed, so that the pot bottom does not have rice crust and the bean skin is not connected to the pot bottom.

Disclosure of Invention

The soybean thick paste heating and forming facility solves the difficulties, adopts a cuboid-shaped frame, a semicircular groove is arranged in the upper part of the frame, a stirring shaft is transversely and horizontally arranged in the center of the groove, an S-shaped heating tube is respectively arranged at two sides of the stirring shaft, a cylindrical rotary conductive joint is arranged at the top end of the left side of the stirring shaft, a speed reducing motor is transversely and horizontally arranged at the top end of the right side of the stirring shaft, after the thick soybean milk is injected into the groove, the speed reduction motor drives the stirring shaft and the heating tube to slowly stir the thick soybean milk, the heating tube rapidly heats the thick soybean milk while stirring, the soybean milk on the groove is not connected with bean skins, the bottom of the groove is not connected with rice crust, after the thick soybean milk is heated to a set temperature, the heating tube is closed by the temperature control switch through the contactor, and gypsum water can be added into the groove by workers for forming.

A soybean thick paste heating and forming facility is characterized by comprising a machine body, a groove, a temperature sensor, a discharge hole, a ball valve, a waterproof bearing seat, a stirring shaft, a heating pipe, a rotary conductive joint, a pre-buried wire, a conductive joint support, a speed reducing motor, a control box, a power supply, a controller, a first contactor, a second contactor and a power line;

the machine body is in a hollow cuboid shape, is transversely and horizontally arranged on the ground, is provided with an opening at the upper part, is transversely and horizontally provided with a semicircular groove in the machine body, is provided with a temperature sensor at the center of the bottom of the groove, and is provided with a circular discharge hole at the bottom of the left side of the groove;

the ball valve is connected with the left side of the discharge hole through a water pipe;

the waterproof bearing seat is disc-shaped and is respectively arranged in the centers of two side surfaces of the machine body.

The stirring shaft is cylindrical and is transversely and horizontally arranged in the center of the inside of the groove, two ends of the stirring shaft are respectively connected with two waterproof bearing seats, the top end of the left side of the stirring shaft extends to the left side of the left side surface of the machine body, a long-strip-shaped embedded line is arranged inside the stirring shaft, the centers of the two ends of the stirring shaft are respectively and vertically provided with a cylindrical support, an S-shaped heating pipe is respectively arranged between the two ends of the two supports, and the top ends of the left sides of the two heating pipes are respectively connected with the embedded line through power wires through the inside of the left support;

the rotary conductive joint is cylindrical and is arranged on the top end of the left side of the stirring shaft, an internal slip ring is connected with the embedded line, and the bottom of the rotary conductive joint is connected with the left side surface of the machine body through an L-shaped conductive joint support;

the speed reducing motor is horizontally arranged at the center of the right side surface of the machine body through a bolt, and the center shaft on the left side extends to the inside of the right side of the stirring shaft.

The control box is arranged on a power distribution cabinet of the assembly line, a power supply, a controller, a first contactor and a second contactor are arranged in the control box, and a display screen in front of the controller extends to the outside in front of the control box;

the power supply is connected with the controller, the first contactor and the second contactor through power lines respectively, the controller is connected with the temperature sensor, the first contactor and the second contactor through power lines respectively, the first contactor is connected with the rotary conductive connector through the power lines, and the second contactor is connected with the speed reduction motor through the power lines.

Has the advantages that: the existing enterprises for processing bean products mostly adopt a square pot or a round pot when carrying out heating forming on soybean thick paste, then heat at the bottom of the pot, because the soybean milk can only be heated to 90 ℃ at most, but can not be boiled, a large amount of foam can be generated instantly after being boiled and can quickly overflow out of the pot, and because the soybean milk can not be sealed and has different temperatures up and down in the heating process, the bottom of the pot can generate crispy rice, the skin of the bean can be generated on the bottom of the pot, and the beauty and the taste of the bean curd or dried bean curd are influenced. A heating and forming facility for thick soybean milk is characterized in that after the thick soybean milk is injected into a groove, a speed reduction motor drives a stirring shaft and a heating tube to slowly stir the thick soybean milk, the heating tube rapidly heats the thick soybean milk while stirring, the soybean milk on the groove is not connected with bean skins and the bottom of the groove is not connected with rice crust, after the thick soybean milk is heated to a set temperature, a temperature control switch closes the heating tube through a contactor, and a worker can add gypsum water into the groove to form the thick soybean milk.

Drawings

FIG. 1 is a schematic structural view of a soybean thick stock thermal forming facility;

FIG. 2 is a schematic diagram of a power supply connected with a controller, a first contactor and a second contactor through power lines, the controller is respectively connected with a temperature sensor, the first contactor and the second contactor through the power lines, the first contactor is connected with a rotary conductive joint through the power lines, and the second contactor is connected with a speed reduction motor through the power lines;

the marks in the above figures are a machine body 1, a groove 2, a temperature sensor 3, a discharge hole 4, a ball valve 5, a waterproof bearing seat 6, a stirring shaft 7, a heating pipe 8, a rotary conductive joint 9, a pre-embedded line 10, a conductive joint support 11, a speed reducing motor 12, a control box 13, a power supply 14, a controller 15, a first contactor 16, a second contactor 17 and a power supply line 18.

Detailed Description

The shape and construction of the present invention will now be described in detail with reference to the accompanying drawings and reference numerals:

a soybean thick pulp heating and forming facility is characterized by comprising a machine body 1, a groove 2, a temperature sensor (DC12V)3, a discharge port 4, a ball valve 5, a waterproof bearing seat 6, a stirring shaft 7, a heating pipe (AC380V/6-15kw)8, a rotary conductive joint (AC380V/200A)9, a pre-buried line (AC380V/200A)10, a conductive joint support 11, a speed reducing motor (AC380V/1-2kw, an output shaft 4-8r/min)12, a control box 13, a power supply (AC380V/200A)14, a controller (AC220V/5A, DC12V10A)15, a first-number contactor (AC380V/120A)16, a second-number contactor (AC380V/10A)17 and a power supply line (4x6 mm) 18;

the machine body 1 is in a hollow cuboid shape, is transversely and horizontally arranged on the ground, is provided with an opening at the upper part, is internally and transversely and horizontally provided with a semicircular groove 2, is provided with a temperature sensor 3 at the center of the bottom of the groove 2, and is provided with a circular discharge hole 4 at the bottom of the left side of the groove 2;

the ball valve 5 is connected with the left side of the discharge hole 4 through a water pipe;

the waterproof bearing seat 6 is disc-shaped and is respectively arranged at the center of two sides of the machine body 1.

The stirring shaft 7 is cylindrical and is transversely and horizontally arranged in the center inside the groove 2, two ends of the stirring shaft are respectively connected with two waterproof bearing seats 6, the top end of the left side extends to the left side of the left side surface of the machine body 1, a long-strip-shaped embedded line 10 is arranged inside the left side surface, the centers of the two ends are respectively and vertically provided with a cylindrical support, an S-shaped heating pipe 8 is respectively arranged between the two ends of the two supports, and the top ends of the left sides of the two heating pipes 8 are respectively connected with the embedded line 10 through power wires inside the left support;

the rotary conductive joint 9 is cylindrical and is arranged on the top end of the left side of the stirring shaft 7, an internal slip ring is connected with the embedded line 10, and the bottom of the rotary conductive joint is connected with the left side surface of the machine body 1 through an L-shaped conductive joint support 11;

the speed reducing motor 12 is horizontally arranged in the center of the right side surface of the machine body 1 through a bolt, and a left middle shaft extends to the inside of the right side of the stirring shaft 7.

The control box 13 is arranged on a power distribution cabinet of the assembly line, a power supply 14, a controller 15, a first contactor 16 and a second contactor 17 are arranged in the control box, and a display screen in front of the controller 15 extends to the outside in front of the control box 13;

the power supply 14 is respectively connected with the controller 15, the first contactor 16 and the second contactor 17 through power lines 18, the controller 15 is respectively connected with the temperature sensor 3, the first contactor 16 and the second contactor 17 through power lines 18, the first contactor 16 is connected with the rotary conductive connector 9 through the power lines 18, and the second contactor 17 is connected with the speed reducing motor 12 through the power lines 18.

When the thick soybean pulp heating and forming facility is used, a worker firstly injects a proper amount of thick ground soybean pulp into the groove, then a power supply is started, the highest temperature in the groove is set to be 90 ℃ through an operation key on a display screen of the controller, the worker starts the first contactor and the second contactor through the operation key, the heating pipes quickly heat the thick soybean pulp, the speed reduction motor drives the two heating pipes to slowly rotate through the stirring shaft to stir the thick soybean pulp up and down, the temperature sensor informs the controller to disconnect the first contactor and send a call after the thick soybean pulp in the groove is heated to the set temperature, the worker slowly adds a proper amount of gypsum water or brine into the groove according to the standard after hearing the call, the speed reduction motor is turned off after the heating pipes continue to stir the thick soybean pulp for 3-5min, the thick soybean pulp is gradually changed into a thin porridge shape, and the thick soybean pulp is cooled slightly, And opening the ball valve, enabling the porridge-shaped thick soybean slurry to flow into a bean curd pressing box or a dried bean curd pressing box through the ball valve and a pipeline, extruding and dehydrating the thick soybean slurry to form bean curd or dried bean curd, and continuously heating and molding the thick soybean slurry again according to the steps after the groove is cleaned by workers.

The above-mentioned non-detailed description is prior art.

The foregoing is merely a general disclosure of the invention and is not intended to limit the invention in any way; those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the scope of the invention as defined by the appended claims.