CN213193282U - Food additive throws material mixing arrangement - Google Patents

Abstract

The utility model relates to a food additive throws material mixing arrangement, including feeder and mixed machine, the feeder is linked together through first material pipe between with mixed machine, the feeder is including throwing the work or material rest and throwing the workbin, throw the workbin setting at the top of throwing the work or material rest, the dog-house has been seted up to the preceding terminal surface of throwing the workbin, first discharge gate has been seted up to the bottom of throwing the workbin, the below of throwing the workbin is provided with vibrating device, vibrating device's top and throw the workbin and communicate mutually, first material pipe is connected to vibrating device's bottom, it inhales the material device to be provided with the strength between first material pipe and the vibrating device, it is provided with dust keeper to throw workb. This food additive throws material mixing arrangement can effectively avoid the jam of equipment, improves work efficiency, effectively suppresses the dust and flies upward, provides a clean sanitary environment for food additive's production.

Description

Food additive throws material mixing arrangement

Technical Field

The utility model particularly relates to a food additive throws material mixing arrangement.

Background

Along with the rapid development of society, the pace of life of people is faster and faster, the requirements on food are not only good in color, fragrance and taste, but also convenient and fast, and the food additive is rapidly developed under the stimulation of production and life. The food additive is an artificial or natural substance added into food for improving the quality of the food such as color, fragrance, taste and the like, and for the requirements of preservation and processing technology. At present, the food additive is also produced and manufactured by adopting mechanical equipment, but the production equipment on the market is often blocked, so that the normal production efficiency is influenced.

SUMMERY OF THE UTILITY MODEL

In view of the deficiencies of the prior art, the utility model aims to solve the technical problem that a food additive that production efficiency is high throws material mixing arrangement is provided.

In order to solve the technical problem, the utility model discloses a technical scheme is: a feeding and mixing device for food additives comprises a feeding machine and a mixing machine, wherein the feeding machine is communicated with the mixing machine through a first material pipe, the feeding machine comprises a feeding frame and a feeding box, the feeding box is arranged at the top of the feeding frame, a feeding port is formed in the front end face of the feeding box, a first discharge port is formed in the bottom of the feeding box, a vibrating device is arranged below the feeding box, the top of the vibrating device is communicated with the feeding box, the bottom of the vibrating device is connected with the first material pipe, a pneumatic material sucking device is arranged between the first material pipe and the vibrating device, a dustproof device is communicated above the feeding box, the mixing machine comprises a mixing rack, a first negative pressure conveying device and a stirring device, the stirring device is arranged on the mixing rack, the top of the stirring device is connected with the first material pipe, the first negative pressure conveying device is arranged between the first material pipe and the stirring device, the bottom of the stirring device is connected with a second material pipe.

Further, agitating unit includes agitator tank, agitator motor, (mixing) shaft and a plurality of spiral shell area paddle, the agitator tank is fixed in mixing the frame, the top of agitator tank is provided with first feed inlet, the bottom of agitator tank is provided with the second discharge gate, first material union coupling to first feed inlet, second material union coupling to second discharge gate, agitator motor fixes the one side at the agitator tank, the one end fixed connection of (mixing) shaft is at agitator motor's output, the both ends of (mixing) shaft are rotated and are installed on the both sides wall of agitator tank, and a plurality of spiral shell area paddle interval are installed on the (mixing) shaft.

Furthermore, pneumatic valves are respectively arranged at the first discharge port and the second discharge port.

Furthermore, the first negative pressure conveying device comprises a first air pump machine and a first negative pressure head, the first negative pressure head is installed between the first material pipe and the stirring device, the first negative pressure head is communicated to the first air pump machine through a first negative pressure pipe, and the first air pump machine is located on one side of the batch feeder.

Furthermore, the vibrating device comprises a first screen, a vibrating motor and a vibrating box, the vibrating box is a circular truncated cone-shaped box body which is communicated up and down, the vibrating box is installed at the bottom of the feeding box and communicated with the feeding box, the first screen is installed at an inlet at the top of the vibrating box, and the vibrating motor is installed on the vibrating box and used for driving the first screen to vibrate.

Furthermore, dust keeper includes dust cover and air-blower, the dust cover is installed at the top of throwing the workbin and is linked together with throwing the workbin, the air-blower is installed at the top of dust cover, install filter core net piece in the dust cover.

Furthermore, the feed inlet is provided with a dustproof cover for opening and closing the feed inlet, and the top of the dustproof cover is hinged with the feed box.

Furthermore, the top side of shield is provided with the connecting block symmetrically, the one end of connecting block is fixed on the shield, the other end of connecting block articulates the one end to the cylinder, the other end of cylinder is fixed on the batch charging case.

Furthermore, the rear end face of the feeding box is provided with a powder collecting opening, and the powder collecting opening is communicated with the first material pipe through a powder collecting pipe.

Compared with the prior art, the utility model discloses following beneficial effect has: the staff will pour into in the material machine of throwing with multiple additive raw materials in proportion, the feeder carries out preliminary vibration to the raw materials and sieves, it can effectively avoid additive raw materials to block up equipment to tentatively sieve, first negative pressure conveyor will pass through the additive raw materials of first screen cloth and carry in the blender, multiple raw materials stir in the blender, can export it to the next process after the misce bene in, this food additive throws the jam that material mixing arrangement can effectively avoid equipment, and the work efficiency is improved, effectively restrain the dust and fly upward, the production of giving food additive provides a clean and sanitary environment.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a mixing machine according to an embodiment of the present invention.

Fig. 3 is a partial cross-sectional view of a batch feeder according to an embodiment of the present invention.

Fig. 4 is a schematic structural view of a batch feeder according to an embodiment of the present invention.

The labels in the figure are: 1. a feeding frame; 2. a feeding box; 3. a feeding port; 4. a vibrating device; 5. a first material pipe; 6. a pneumatic material suction device; 7. a dust-proof device; 8. a first screen; 9. a vibration motor; 10. a vibration box; 11. a dust cover; 12. a blower; 13. a dust cover; 14. connecting blocks; 15. a cylinder; 16. a powder collecting port; 17. a powder collecting pipe; 18. a filter element mesh sheet; 101. a batch feeder; 102. a second material pipe; 201. a mixer; 202. a mixing frame; 203. a first negative pressure conveying device; 204. a stirring device; 205. a stirring box; 206. a stirring motor; 207. a stirring shaft; 208. a helical ribbon blade; 209. a first air pump; 210. a first negative pressure head; 211. a first negative pressure tube.

Detailed Description

In order to make the aforementioned and other features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

As shown in fig. 1 to 4, a food additive feeding and mixing device comprises a feeding machine 101 and a mixing machine 201, wherein the feeding machine 101 is communicated with the mixing machine 201 through a first material pipe 5, the feeding machine 101 comprises a feeding frame 1 and a feeding box 2, the feeding box 2 is arranged at the top of the feeding frame 1, a feeding port 3 is arranged on the front end surface of the feeding box 2, a first discharging port is arranged at the bottom of the feeding box 2, a vibrating device 4 is arranged below the feeding box 2, the top of the vibrating device 4 is communicated with the feeding box 2, the bottom of the vibrating device 4 is connected with the first material pipe 5, a pneumatic material suction device 6 is arranged between the first material pipe 5 and the vibrating device 4, a dustproof device 7 is arranged above the feeding box 2 in a communicating manner, the mixing machine 201 comprises a mixing machine frame 202, a first negative pressure conveying device 203 and a stirring device 204, the stirring device 204 is arranged on the mixing frame 202, the top of the stirring device 204 is connected with the first material pipe 5, the first negative pressure conveying device 203 is arranged between the first material pipe 5 and the stirring device 204, and the bottom of the stirring device 204 is connected with the second material pipe 102.

In this embodiment, the stirring device 204 includes a stirring box 205, a stirring motor 206, a stirring shaft 207 and a plurality of helical ribbon blades 208, the stirring box 205 is fixed on the mixing frame 202, the top of the stirring box 205 is provided with a first feeding hole, the bottom of the stirring box 205 is provided with a second discharging hole, a first material pipe 5 is connected to the first feeding hole, a second material pipe 102 is connected to the second discharging hole, the stirring motor 206 is fixed on one side of the stirring box 205, one end of the stirring shaft 207 is fixedly connected to the output end of the stirring motor 206, the two ends of the stirring shaft 207 are rotatably installed on the two side walls of the stirring box 205, and the helical ribbon blades 208 are installed on the stirring shaft 207 at intervals.

In the present embodiment, pneumatic valves are respectively disposed at the first discharge port and the second discharge port, and the pneumatic valves are used for controlling the discharge port to open and close, and the pneumatic valves are not detailed in the prior art.

In this embodiment, the first negative pressure conveying device 203 comprises a first air pump 209 and a first negative pressure head 210, the first negative pressure head 210 is installed between the first material pipe 5 and the stirring device 204, the first negative pressure head 210 is communicated to the first air pump 209 through a first negative pressure pipe 211, and the first air pump 209 is located on one side of the batch feeder 101.

In this embodiment, the vibrating device 4 includes a first screen 8, a vibrating motor 9 and a vibrating box 10, the vibrating box 10 is a circular truncated cone-shaped box body which is through from top to bottom, the vibrating box 10 is installed at the bottom of the feeding box 2 and is communicated with the feeding box 2, the first screen 8 is installed at the top inlet of the vibrating box 10, and the vibrating motor 9 is installed on the vibrating box 10 and is used for driving the first screen 8 to vibrate.

In the present embodiment, the dust-proof device 7 comprises a dust-proof cover 11 and a blower 12, the dust-proof cover 11 is installed on the top of the charging box 2 and is communicated with the charging box 2, the blower 12 is installed on the top of the dust-proof cover 11, and a filter net 18 is installed in the dust-proof cover 11.

In this embodiment, the feed opening 3 is provided with a dust cover 13 for opening and closing the feed opening 3, and the top of the dust cover 13 is hinged with the feed box 2.

In this embodiment, the top side of the dust cover 13 is symmetrically provided with connecting blocks 14, one end of each connecting block 14 is fixed on the dust cover 13, the other end of each connecting block 14 is hinged to one end of a cylinder 15, and the other end of each cylinder 15 is fixed on the feeding box 2.

In this embodiment, a powder collecting port 16 is formed in a rear end surface of the feeding box 2, and the powder collecting port 16 is communicated with the first material pipe 5 through a powder collecting pipe 17.

The staff will pour into batch feeder 101 with multiple additive raw materials in proportion, batch feeder 101 carries out preliminary vibration to the raw materials of throwing in the feed box 2 and sieves, the vibration of the first screen cloth 8 of vibrating motor 9 drive, first screen cloth 8 makes multiple additive raw materials pass through first screen cloth 8 in proper order in vibration process, it can effectively avoid additive raw materials to block up equipment to tentatively sieve, first negative pressure conveyor 203 will pass through first screen cloth 8's additive raw materials and carry in mixing machine 201, multiple raw materials stir in mixing machine 201, can export additive raw materials to next process through second material pipe 102 after the misce bene, this food additive throws material mixing arrangement can effectively avoid the jam of equipment, and the work efficiency is improved, effectively restrain the dust and fly upward, provide a clean and sanitary environment for the production of food additive.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and any person skilled in the art should not depart from the technical scope of the present invention, and any simple modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention should fall within the scope of the present invention.

Claims (9)

1. A food additive throws material mixing arrangement which characterized in that: the device comprises a batch feeder and a mixer, wherein the batch feeder is communicated with the mixer through a first material pipe, the batch feeder comprises a batch feeding frame and a batch feeding box, the batch feeding box is arranged at the top of the batch feeding frame, a batch feeding port is arranged on the front end surface of the batch feeding box, a first discharge port is arranged at the bottom of the batch feeding box, a vibration device is arranged below the batch feeding box, the top of the vibration device is communicated with the batch feeding box, the bottom of the vibration device is connected with the first material pipe, a pneumatic material suction device is arranged between the first material pipe and the vibration device, a dustproof device is communicated above the batch feeding box, the mixer comprises a mixing rack, a first negative pressure conveying device and a stirring device, the stirring device is arranged on the mixing rack, the top of the stirring device is connected with the first material pipe, and the first negative pressure conveying device is arranged between the first material pipe and the stirring device, the bottom of the stirring device is connected with a second material pipe.

2. A food additive dosing and mixing device as claimed in claim 1 wherein: the stirring device comprises a stirring box, a stirring motor, a stirring shaft and a plurality of spiral shell belt blades, wherein the stirring box is fixed on a mixing rack, a first feed port is formed in the top of the stirring box, a second discharge port is formed in the bottom of the stirring box, the first material pipe is connected to the first feed port, the second material pipe is connected to the second discharge port, the stirring motor is fixed on one side of the stirring box, one end of the stirring shaft is fixedly connected to the output end of the stirring motor, the two ends of the stirring shaft are rotatably installed on the two side walls of the stirring box, and the spiral shell belt blades are installed on the stirring shaft at intervals.

3. A food additive dosing and mixing device as claimed in claim 1 wherein: pneumatic valves are respectively arranged at the first discharge port and the second discharge port.

4. A food additive dosing and mixing device as claimed in claim 1 wherein: the first negative pressure conveying device comprises a first air pump machine and a first negative pressure head, the first negative pressure head is installed between the first material pipe and the stirring device, the first negative pressure head is communicated to the first air pump machine through a first negative pressure pipe, and the first air pump machine is located on one side of the batch feeder.

5. A food additive dosing and mixing device as claimed in claim 1 wherein: the vibrating device comprises a first screen, a vibrating motor and a vibrating box, the vibrating box is a circular truncated cone-shaped box body which is communicated from top to bottom, the vibrating box is installed at the bottom of the feeding box and communicated with the feeding box, the first screen is installed at the inlet of the top of the vibrating box, and the vibrating motor is installed on the vibrating box and used for driving the first screen to vibrate.

6. A food additive dosing and mixing device as claimed in claim 1 wherein: the dustproof device comprises a dustproof cover and an air blower, the dustproof cover is arranged at the top of the feeding box and communicated with the feeding box, the air blower is arranged at the top of the dustproof cover, and a filter core net piece is arranged in the dustproof cover.

7. A food additive dosing and mixing device as claimed in claim 1 wherein: the feeding port is provided with a dustproof cover used for opening and closing the feeding port, and the top of the dustproof cover is hinged with the feeding box.

8. A food additive dosing and mixing device according to claim 7, wherein: the side edge of the top of the dustproof cover is symmetrically provided with connecting blocks, one end of each connecting block is fixed on the dustproof cover, the other end of each connecting block is hinged to one end of each air cylinder, and the other end of each air cylinder is fixed on the feeding box.

9. A food additive dosing and mixing device as claimed in claim 1 wherein: the rear end face of the feeding box is provided with a powder collecting opening, and the powder collecting opening is communicated with the first material pipe through a powder collecting pipe.

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