CN214635840U - Porous solid-liquid material mixing device - Google Patents

Abstract

The utility model relates to a porous type solid-liquid material mixing arrangement relates to a material mixing arrangement. The porous solid-liquid material mixing device can control the adding proportion and the soaking time of liquid materials, effectively separate and recover excessive liquid materials, ensure the production quality, save the production time and reduce the production cost. The utility model relates to a porous type solid-liquid material mixing arrangement includes the shell and can be around the rotatory feed cylinder of transmission shaft, and the business turn over material door has been seted up to the side of feed cylinder, installs the vacuum bleeder valve on the business turn over material door, and feed cylinder internally mounted has the spiral shell belt agitator, is provided with interior orifice plate on the bottom surface of feed cylinder, and the shell symmetry sets up in the top and the below of feed cylinder, and covers the outside of orifice plate including.

Description

Porous solid-liquid material mixing device

Technical Field

The utility model relates to a material mixing technique field especially relates to a can pack the processing equipment of liquid material to porous type food material intussuseption.

Background

Most of food in the market needs to be mixed with various materials in the production process, and when solid materials and liquid materials are mixed, the solid materials and the liquid materials cannot be directly and simply added due to different material states, so that the problems of product integrity, soaking time, solid-liquid separation difficulty and the like need to be considered.

At present, a plurality of solid food materials are filled with liquid materials by adopting a stirring and rolling processing mode, but the solid food is easy to break, liquid cannot fill the gap of the solid material, or redundant liquid materials cannot be effectively removed and are soaked together with the solid material for a long time, or excessive liquid materials are mixed when the solid materials are discharged, the next step of working procedure is influenced, the production cannot be continuous, and large-area waste and unstable quality of food raw materials are easy to cause.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a can control liquid material and add proportion, soak time, effective separation, retrieve excessive liquid material, guarantee production quality, practice thrift production time, reduction in production cost's porous type solid-liquid material mixing arrangement.

The utility model relates to a porous type solid-liquid material mixing arrangement, including the shell with can be around the rotatory feed cylinder of transmission shaft, the business turn over material door has been seted up to the side of feed cylinder, installs the vacuum bleeder valve on the business turn over material door, feed cylinder internally mounted has the spiral shell belt agitator, is provided with interior orifice plate on the bottom surface of feed cylinder, the shell symmetry sets up in the top and the below of feed cylinder, and covers the outside of orifice plate including.

The utility model relates to a porous type solid-liquid material mixing arrangement still includes the base, installs the friction pulley on the base, the feed cylinder erects in the friction pulley top.

The utility model relates to a porous type solid-liquid material mixing arrangement, the discharge valve is installed to the below that wherein is located the shell of feed cylinder lower part.

The utility model relates to a porous type solid-liquid material mixing arrangement, wherein the one end at the feed cylinder is installed to the transmission shaft, and the transmission shaft passes through motor and shaft coupling and provides power.

The utility model relates to a porous type solid-liquid material mixing arrangement, wherein the aperture size of interior orifice plate is 3-10 mm.

The utility model relates to a porous type solid-liquid material mixing arrangement, wherein the inside vacuum of vacuum bleed valve control feed cylinder is 0.03Mpa-0.1 Mpa.

The utility model relates to a porous type solid-liquid material mixing arrangement is different with prior art in that, the utility model relates to a porous type solid-liquid material mixing arrangement can control filling proportion, the solid material soak time of porous type food material filling liquid material, can improve the continuity of operation when especially will filling the liquid material of multiple difference to effectual separation, the excessive liquid material of recovery. Greatly saves the production time, ensures the production quality and saves the liquid raw materials.

The following will further explain the porous solid-liquid material mixing device of the present invention with reference to the attached drawings.

Drawings

FIG. 1 is a front view of a porous solid-liquid material mixing device of the present invention;

FIG. 2 is a right side view of the porous solid-liquid material mixing device of the present invention;

FIG. 3 is a process flow diagram of the porous solid-liquid material mixing device of the present invention;

the notation in the figures means: 1-a housing; 2-a barrel; 3, driving a shaft; 4-inner orifice plate; 5-a discharge valve; 6-a friction wheel; 7-a charging and discharging door; 8-vacuum air extraction valve; 9-helical ribbon agitator.

Detailed Description

The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

As shown in fig. 1 and 2, the utility model relates to a porous solid-liquid material mixing device, which comprises a charging barrel 2, a housing 1 and a base (not shown in the figure), wherein a friction wheel 6 is arranged on the base. The cartridge 2 is mounted above the friction wheel 6 and can rotate on the friction wheel 6.

Transmission shaft 3 is installed to the one end of feed cylinder 2, and transmission shaft 3 provides power through motor and shaft coupling, and motor and shaft coupling are installed on the base. When the motor works, the transmission shaft 3 can drive the charging barrel 2 to rotate.

The side of the charging barrel 2 is provided with a feeding and discharging door 7 for adding solid materials and/or liquid materials, the feeding and discharging door 7 is provided with a vacuum extraction valve 8, and the vacuum extraction valve 8 can control the vacuum degree in the charging barrel 2 to be 0.03-0.1 Mpa.

The helical ribbon agitator 9 is arranged in the charging barrel 2, and the helical ribbon agitator 9 is used for driving materials in the charging barrel 2 to move. When the helical ribbon stirrer 9 rotates forwards, the materials can be driven to enter the charging barrel 2; when the helical ribbon agitator 9 rotates reversely, the helical ribbon agitator can drive the materials to move towards the direction of the feeding and discharging door 7.

The bottom surface of the charging barrel 2 is provided with an inner hole plate 4, and the aperture size of the inner hole plate 4 is 3-10 mm. The shell 1 is symmetrically arranged above and below the charging barrel 2 and does not rotate along with the charging barrel 2. The shell 1 covers the outer side of the inner hole plate 4, the part of the shell 1 above the charging barrel 2 has a shielding effect, and when the inner hole plate 4 rotates to the upper part of the charging barrel 2, the shell 1 can prevent impurities from entering the charging barrel 2; the part of the housing 1 below the cartridge 2 has a collecting effect, and when the inner orifice plate 4 is rotated to the lower part of the cartridge 2, the liquid flowing out through the inner orifice plate 4 can be collected on the housing 1.

A discharge valve 5 is arranged below the shell 1 at the lower part of the charging barrel 2, and the liquid material collected on the shell 1 can be discharged through the discharge valve 5 to recover the redundant liquid material.

As shown in figure 3, when the porous solid-liquid material mixing device of the utility model is used, firstly, solid material and liquid material L1 are put in from the feeding and discharging door 7, the feeding and discharging door 7 is closed, the vacuum extraction valve 8 is opened, and the vacuum degree is controlled between 0.03Mpa and 0.1 Mpa; starting a motor, and rotating the charging barrel 2 through the action of the transmission shaft 3 and the friction wheel 6 to mix materials; after the materials are fully mixed, when the charging barrel 2 is in a state of up B and down A, the vacuum degree is released, the liquid material L1 can enter porous solid materials, and the proportion of the liquid material L1 entering the porous solid materials can be controlled according to the vacuum degree; at this time, the liquid material is excessive, the charging barrel 2 is rotated to be in a state of up A and down B, the excessive liquid material L1 flows out from the inner hole plate 4, and the excessive liquid material L1 is recovered through the liquid discharge valve 5.

When a second liquid material needs to be added, the charging barrel 2 is rotated to be in a state of up B and down A, the liquid material L2 is thrown in from the charging and discharging door 7, the charging and discharging door 7 is closed, the vacuum extraction valve 8 is opened, and the vacuum degree is controlled to be 0.03-0.1 Mpa; starting a motor, and rotating the charging barrel 2 through the action of the transmission shaft 3 and the friction wheel 6 to mix materials; after the materials are fully mixed, when the charging barrel 2 is in a state of up B and down A, the vacuum degree is released, the liquid material L2 can enter porous solid materials, and the proportion of the liquid material L2 entering the porous solid materials can be controlled according to the vacuum degree; at this time, the liquid material is excessive, the charging barrel 2 is rotated to be in a state of up A and down B, the excessive liquid material L2 flows out from the inner hole plate 4, and the excessive liquid material L2 is recovered through the liquid discharge valve 5.

And if liquid materials L3 and L4 need to be added until Lx, repeating the steps in sequence.

After the liquid material L1 or solid materials of various liquid materials are filled, the transmission shaft 3 rotates reversely, and the filled solid materials can be discharged and unloaded from the feeding and discharging door 7 by the helical ribbon type stirrer 9 fixed in the charging barrel 2.

In the following, a porous bean product is taken as an example, one or more liquid materials such as sauce, egg liquid, syrup and the like can be filled into the porous bean product, and the liquid materials with different viscosities are distributed in the pores of the bean product. Porous bean products and sauce are put in from a feeding and discharging door 7, the feeding and discharging door 7 is closed, a vacuum pumping valve 8 is opened, the vacuum degree is controlled to be 0.09Mpa, the charging barrel 2 is rolled and mixed for 10min under the action of the transmission shaft 3 and the friction wheel 6, after the full mixing, when the charging barrel 2 is in an upper B and lower A state, the vacuum degree is released, and the sauce can enter the porous solid materials and reaches 90% of the full filling. At this time, the sauce is excessive, the charging barrel 2 is rotated to be in a state of up A and down B, the excessive sauce flows out from the inner hole plate 4, the aperture size of the inner hole plate 4 is 5mm, and the sauce is recovered through the liquid discharge valve 5.

Rotating the charging barrel 2 to be in the state of A from top to bottom, feeding egg liquid from the feeding and discharging door 7, closing the feeding and discharging door 7, opening the vacuum extraction valve 8, controlling the vacuum degree to be 0.05Mpa, rolling the charging barrel 2 under the action of the transmission shaft 3 and the friction wheel 6 to mix, releasing the vacuum degree after fully mixing when the charging barrel 2 is in the state of A from top to bottom, and enabling the egg liquid to partially enter the porous bean product filled with the sauce. The charging barrel 2 is rotated to be in an upper A and lower B state, redundant egg liquid flows out from the inner hole plate 4, the aperture size of the inner hole plate 4 is 5mm, and the egg liquid is recovered through the liquid discharge valve 5.

The transmission shaft 3 rotates reversely, and the porous bean products filled with the sauce and the egg liquid can be discharged and unloaded from the material inlet and outlet door 7 by the helical ribbon type stirrer 9 fixed in the charging barrel 2.

The utility model relates to a porous type solid-liquid material mixing arrangement can control filling proportion, the solid material soak time of porous type food material filling liquid material, can improve the continuity of operation when especially will filling multiple different liquid material to effectual separation, the excessive liquid material of recovery. Greatly saves the production time, ensures the production quality and saves the liquid raw materials.

Although the invention has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made based on the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (6)

1. A porous solid-liquid material mixing device is characterized in that: including the shell with can wind the rotatory feed cylinder of transmission shaft, the business turn over material door has been seted up to the side of feed cylinder, installs the vacuum bleeder valve on the business turn over material door, feed cylinder internally mounted has the spiral shell belt agitator, is provided with interior orifice plate on the bottom surface of feed cylinder, the shell symmetry sets up in the top and the below of feed cylinder, and covers the outside of orifice plate including.

2. The porous solid-liquid material mixing device according to claim 1, wherein: still include the base, install the friction pulley on the base, the feed cylinder erects in the friction pulley top.

3. The porous solid-liquid material mixing device according to claim 1, wherein: a discharge valve is arranged below the shell at the lower part of the charging barrel.

4. The porous solid-liquid material mixing device according to claim 1, wherein: the transmission shaft is installed at the one end of feed cylinder, and the transmission shaft provides power through motor and shaft coupling.

5. The porous solid-liquid material mixing device according to claim 1, wherein: the aperture size of the inner orifice plate is 3-10 mm.

6. The porous solid-liquid material mixing device according to claim 1, wherein: and the vacuum degree of the interior of the charging barrel is controlled to be 0.03-0.1 Mpa by the vacuum air exhaust valve.

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