CN111450735A

CN111450735A - Food processing dyeing equipment

Info

Publication number: CN111450735A
Application number: CN202010403857.3A
Authority: CN
Inventors: 卞铭
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-05-13
Filing date: 2020-05-13
Publication date: 2020-07-28

Abstract

The invention provides food processing and dyeing equipment which comprises a main body, a cavity and a rotating shaft, wherein the middle part of the top end of the main body is fixedly connected with the cavity; the main part is including the discharge port, base and motor, the intracavity is including swivel becket and clearance piece, rotatory ring is including rotatory screw thread and spout, the clearance piece is including scraping the groove, the restriction axle, reset groove and reset block, the rotation axis is including the (mixing) shaft, the cover spiale, rotary disk and counter shaft, the (mixing) shaft is including contracting the groove, flexible guide arm and driving disc, the rotary disk is including the gomphosis gear, the device is provided with rotatory ring, positive and negative mutual crisscross rotation that produces through two rotatory rings lets the clearance piece of its one side increase its frictional speed and the speed of contact, make the more comprehensive of clearance.

Description

Food processing dyeing equipment

Technical Field

The invention relates to the technical field of food processing, in particular to food processing dyeing.

Background

Food processing refers to grain milling, feed processing, vegetable oil and sugar processing, slaughtering, meat processing, aquatic product processing and food processing activities of vegetables, fruits, nuts and the like which are directly carried out by taking agricultural, forestry, animal husbandry and fishery products as raw materials, and is a type of generalized agricultural product processing industry. The food processing and dyeing means that the raw materials with certain day-heating pigments such as fruits are extracted, then the food is processed to change the original color of the food, so that the food is changed in appearance, but the existing food dyeing stirrer can cause different pigments to be attached to the inner wall of the stirrer due to repeated use when stirring and dyeing are carried out, so that the colors of the natural pigments can be mixed together, and the dyed colors can have certain influence.

Disclosure of Invention

The invention aims to solve the technical problem that the colors of the food are mixed because pigments with different colors are repeatedly used when the food is processed, dyed, stirred and mixed.

The purpose and the effect of the food processing and dyeing equipment are achieved by the following specific technical means:

a food processing and dyeing device comprises a main body, a cavity and a rotating shaft, wherein the middle part of the top end of the main body is fixedly connected with the cavity, and the rotating shaft is embedded in the middle part inside the cavity;

the main body comprises a discharge port, a base and a motor, the discharge port is fixedly connected to one side of the main body, the base is fixedly connected to the bottom end of the main body, and the motor is embedded in the middle of the base;

the cavity comprises a rotating ring and a cleaning block, the rotating ring is embedded around the inner wall of the middle part of the cavity, and the cleaning block is embedded on one side of the surface of the middle part of the rotating ring;

the rotating ring comprises a rotating thread and a sliding groove, the opening of the rotating thread is arranged on the surface of one side of the rotating ring, and the sliding groove is fixedly connected to one side of the rotating ring;

the cleaning block comprises a scraping groove, a limiting shaft, a reset groove and a reset block, the scraping groove is fixedly connected to one side of the cleaning block, the limiting shaft is embedded in the middle of the cleaning block, an opening of the reset groove is formed in one side of the limiting shaft, and the reset block is fixedly connected to one side of the middle of the cleaning block;

the rotating shaft comprises a stirring shaft, a sleeve shaft, a rotating disc and a reverse shaft, the stirring shaft is fixedly connected to the periphery of the rotating shaft, an opening of the sleeve shaft is formed in the middle of the rotating shaft and close to the top end, the rotating disc is fixedly connected to the top end of the sleeve shaft, and the reverse shaft is embedded in the periphery of the middle of the sleeve shaft;

the stirring shaft comprises a contraction groove, a telescopic guide rod and a transmission disc, an opening of the contraction groove is formed in one end of the stirring shaft, the telescopic guide rod is embedded in the middle of the contraction groove, and the transmission disc is embedded in one end of the telescopic guide rod;

the rotating disc comprises an embedded gear, and the embedded gear is embedded and arranged around the bottom end of the middle of the rotating disc.

Further preferred embodiments: the rotating rings are hollow cylinders which are embedded on the surfaces of the inner walls of the cavities, and one sides, attached to each other, of the two rotating rings are embedded into the grooves of the sliding grooves through the convex blocks to be connected with each other.

Further preferred embodiments: the rotating thread is a slot with one rectangular side surface of the rotating ring, and the surface of one side of the slot is provided with slot marks which are mutually embedded with the periphery of the edge of the transmission disc.

Further preferred embodiments: the cleaning block is connected to one side of the inner wall surfaces of the two rotating rings through a limiting shaft.

Further preferred embodiments: the reset groove is a groove with a smaller diameter and a smaller circular shaft part on one side of the limiting shaft, the groove and the cleaning block are connected to limit the reset block lug of the shaft part to be embedded with each other, and one end of the reset groove is connected with the reset block through a spring.

Further preferred embodiments: the shrinkage groove is a round shaft with a smaller diameter at the top end part of the rotating shaft, and the round shaft is embedded with the hollow part in the reverse shaft.

Further preferred embodiments: the rotary disk is a disk connected with the top end of the contraction groove through a cylindrical protrusion, and the bottom end of the rotary disk is attached to the top end of the reverse shaft.

Further preferred embodiments: the embedded gear is a gear which is annularly arranged in the hollow part of the middle part of the bottom end of the rotating disk, and the embedded gear is meshed with a gear which is arranged around the middle part of the top end of the reverse shaft.

Has the advantages that:

(1) this kind of food processing dyeing apparatus is provided with the clearance piece, can laminate in another rotatory ring's surface in rotatory through the clearance piece, will rotate the pigment that the ring surface attached through its removal and scrape off for its pigment can not mutual mixture in the used repeatedly main part.

(2) The device is provided with the reverse axle, can carry out the rotation in the opposite direction when the rotation axis is rotatory through the reverse axle, lets the (mixing) shaft around the reverse axle drive another rotatory ring and carries out the rotation in the opposite direction for its two rotatory rings can be the crisscross rotation of positive and negative direction, let the clearance piece more have efficiency when the laminating surface is cleared up.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is an enlarged schematic view of a portion a in fig. 1 according to the present invention.

Fig. 3 is a schematic view of the overall structure in the chamber of the present invention.

Fig. 4 is an enlarged schematic view of the structure at B in fig. 3 according to the present invention.

FIG. 5 is a schematic view of the overall structure of the cleaning block of the present invention.

Fig. 6 is a schematic view of the overall structure of the limiting shaft of the present invention.

Fig. 7 is a schematic view of the overall structure of the rotating shaft and the counter shaft according to the present invention.

In FIGS. 1-7: the cleaning machine comprises a main body 1, a discharge port 101, a base 102, a motor 103, a cavity 2, a rotating ring 201, a rotating thread 2011, a sliding groove 2012, a cleaning block 202, a scraping groove 2021, a limiting shaft 2022, a reset groove 2023, a reset block 2024, a rotating shaft 3, a stirring shaft 301, a contraction groove 3011, a telescopic guide rod 3012, a transmission disc 3013, a sleeving shaft 302, a rotating disc 303, a jogged gear 3031 and a reverse shaft 304.

Detailed Description

As shown in figures 1 to 7:

the invention provides food processing and dyeing equipment, which comprises a main body 1, a cavity 2 and a rotating shaft 3, wherein the middle part of the top end of the main body 1 is fixedly connected with the cavity 2, and the rotating shaft 3 is embedded in the middle part inside the cavity 2;

the main body 1 comprises a discharge port 101, a base 102 and a motor 103, wherein the discharge port 101 is fixedly connected to one side of the main body 1, the base 102 is fixedly connected to the bottom end of the main body 1, and the motor 103 is embedded in the middle of the base 102;

the cavity 2 comprises a rotating ring 201 and a cleaning block 202, the rotating ring 201 is embedded around the inner wall of the middle part of the cavity 2, and the cleaning block 202 is embedded on one side of the surface of the middle part of the rotating ring 201;

the rotating ring 201 comprises a rotating thread 2011 and a chute 2012, the opening of the rotating thread 2011 is arranged on the surface of one side of the rotating ring 201, and the chute 2012 is fixedly connected to one side of the rotating ring 201;

the cleaning block 202 comprises a scraping groove 2021, a limiting shaft 2022, a resetting groove 2023 and a resetting block 2024, the scraping groove 2021 is fixedly connected to one side of the cleaning block 202, the limiting shaft 2022 is embedded in the middle of the cleaning block 202, the opening of the resetting groove 2023 is arranged on one side of the limiting shaft 2022, and the resetting block 2024 is fixedly connected to one side of the middle of the cleaning block 202;

the rotating shaft 3 comprises a stirring shaft 301, a sleeve shaft 302, a rotating disc 303 and a reverse shaft 304, the stirring shaft 301 is fixedly connected around the rotating shaft 3, an opening of the sleeve shaft 302 is formed in the middle of the rotating shaft 3 and close to the top end, the rotating disc 303 is fixedly connected to the top end of the sleeve shaft 302, and the reverse shaft 304 is embedded in and arranged around the middle of the sleeve shaft 302;

the stirring shaft 301 comprises a contraction groove 3011, a telescopic guide rod 3012 and a transmission disc 3013, an opening of the contraction groove 3011 is arranged inside one end of the stirring shaft 301, the telescopic guide rod 3012 is embedded in the middle of the contraction groove 3011, and the transmission disc 3013 is embedded in one end of the telescopic guide rod 3012;

the rotating disc 303 includes a fitting gear 3031, and the fitting gear 3031 is embedded around the bottom end of the middle portion of the rotating disc 303.

Wherein, the rotatory ring 201 sets up the hollow form cylinder on 2 inner wall surfaces in intracavity for the gomphosis, and the one side that two rotatory rings 201 laminated each other carries out interconnect in the fluting of spout 2012 through the lug embedding, can let the clearance piece 202 of connection at a side surface together remove when rotatory ring 201, and the other parts of clearance piece 202 are laminated on the surface of another rotatory ring 201, scrape the groove 2021 through clearance piece 202 its one side when removing and can scrape the pigment of attaching to on the rotatory ring 201 surface through its inclined plane, make it cause the colour mixture because the pigment attaches to the surface in the intracavity in the in-process of carrying out the dyeing repeatedly.

Wherein, rotatory screw thread 2011 is the fluting that rotatory ring 201 side surface is rectangular form, and slotted one side surface sets up the groove mark with the mutual gomphosis around the driving plate 3013 edge, the driving plate 3013 of its one end can carry out the rotational movement along the rotatory screw thread 2011 of its rotatory ring 201 one side when (mixing) shaft 301 carries out the rotational movement at intracavity 2, make its driving plate 3013 rotate on the inner wall of intracavity 2 when moving the rotation because the groove mark of the mutual gomphosis of both surfaces makes its driving plate 3013 drive its rotatory ring 201.

Wherein the cleaning block 202 is connected to one side of the inner wall surface of the two rotating rings 201 by a limiting shaft 2022.

Wherein, the reset groove 2023 is a groove which defines one side of the shaft 2022 and is a smaller circular shaft part with a smaller diameter, and the groove is mutually embedded with the lug of the reset block 2024 of the part which is connected with the cleaning block 202 and limits the shaft 2022, meanwhile, one end of the reset groove 2023 is connected with the reset block 2024 through a spring, when the stirring shaft 301 moves to a certain distance, it will be abutted against one side of the cleaning block 202, and the cleaning block 202 will be driven to rotate along the limited shaft 2022 by its force application, while being rotationally offset by the reset block 2024 moving in the middle of the reset groove 2023, when the cleaning block 202 is rotationally offset, a gap is generated to allow the stirring shaft 301 to continue to move and rotate without obstruction, and the attached spring is compressed when the reset block 2024 moves in the reset groove 2023, so that the stirring shaft 301 can be reset after moving, and the cleaning block 202 is not driven to deviate when the surface of the rotating ring 201 is rubbed by the elastic pressure of the spring.

The shrinking slot 3011 is a circular shaft with a smaller diameter at the top end of the rotating shaft 3, and the circular shaft is embedded in the hollow part inside the counter shaft 304, when the driving disc 3013 at one end of the stirring shaft 301 abuts against the cleaning block 202, the driving disc 3013 shrinks through the telescopic guide rod 3012 because of the inclined surface of the scraping slot 2021 at one side of the cleaning block 202, so that the driving disc 3013 shrinks towards the shrinking slot 3011 to reduce the contact time between the driving disc 3011 and the cleaning block 202, and the stirring shaft 301 does not jam when abutting against the cleaning block 202 during the rotating movement.

The rotating disc 303 is a disc formed by connecting the top ends of the shrinkage slots 3011 through cylindrical protrusions, and the bottom end of the rotating disc 303 is attached to the top end of the reverse shaft 304.

The engaging gear 3031 is a gear arranged in a ring shape in the hollow portion of the bottom end of the rotating disc 303, and the engaging gear 3031 is engaged with a gear arranged around the top end of the reverse shaft 304 near the middle portion, when the rotating disc 303 rotates, because the reverse shaft 304 is sleeved on the shrinkage slot 3011, the engaging gear 3031 at the bottom end of the rotating disc 303 is engaged with a gear around the middle portion of the top end of the reverse shaft 304, so that the rotating shaft 3 can drive the reverse shaft 304 to rotate in the opposite direction, and the stirring shaft around the reverse shaft 304 can make the other rotating ring 201 rotate in the opposite direction, so that the two rotating rings 201 can rotate in the opposite direction.

The working principle is as follows:

the specific use mode and action of this embodiment, firstly, the food material to be dyed and the natural pigment to be dyed are put into the cavity 2 of the main body 1, then the rotation of the motor 103 drives the rotation shaft 3 to rotate, the rotation of the rotation shaft 3 moves the stirring shaft 301 to fully mix the food and the natural pigment in the cavity 2, the driving disc 3013 at one end rotates along the rotation thread 2011 at one side of the rotation ring 201 when the stirring shaft 301 rotates in the cavity 2, the driving disc 3013 drives the rotation ring 201 to rotate on the inner wall of the cavity 2 when the driving disc 3013 rotates due to the groove marks embedded between the surfaces of the two, and the cleaning block 202 connected to one side surface moves together when the rotation ring 201 rotates, the other part of the cleaning block 202 is attached to the surface of the other rotating ring 201, the scraping groove 2021 on one side of the cleaning block 202 scrapes off the pigment attached to the surface of the rotating ring 201 through the inclined surface of the cleaning block, so that the pigment is attached to the surface in the cavity to cause color mixing in the process of repeated dyeing, meanwhile, when the stirring shaft 301 moves to a certain distance and is abutted to one side of the cleaning block 202, the cleaning block 202 is driven to rotate along the limiting shaft 2022 by the force application of the stirring shaft, and when the stirring shaft rotates, the resetting block 2024 moves in the middle of the resetting groove 2023 to generate rotational offset, when the cleaning block 202 rotates and offsets, a gap is generated to allow the stirring shaft 301 to continue to move and rotate without obstruction, and when the resetting block 2024 moves in the resetting groove 2023, the connected spring is compressed, the stirring shaft 301 can be reset after moving, meanwhile, the cleaning block 202 cannot be driven to generate offset when the surface of the rotating ring 201 rubs through the elastic pressure of the spring, meanwhile, when the driving disc 3013 at one end of the stirring shaft 301 abuts against the cleaning block 202, the driving disc 3013 can be contracted through the telescopic guide rod 3012 because the driving disc 3013 abuts against the inclined surface of the scraping groove 2021 at one side of the cleaning block 202, the driving disc 3013 is contracted towards the contraction groove 3011 to reduce the contact time between the driving disc 3011 and the cleaning block 202, and the stirring shaft 301 cannot be blocked due to abutting against the cleaning block 202 when rotating and moving; finally, when the rotating shaft 3 rotates, the top end shrinkage slot 3011 of the rotating shaft 3 can drive the rotating disc 303 to rotate together, when the rotating disc 303 rotates, because the reverse shaft 304 of the rotating shaft is sleeved on the shrinkage slot 3011, the embedded gear 3031 at the bottom end of the rotating disc 303 can be meshed with the gear around the middle of the top end of the reverse shaft 304, so that the rotating shaft 3 can drive the reverse shaft 304 to rotate in the reverse direction, the stirring shaft around the reverse shaft 304 can enable the other rotating ring 201 to rotate in the reverse direction, the two rotating rings 201 can rotate in the forward and reverse directions, stirring is more comprehensive and uniform, and meanwhile, the pigment attached to the surface of the rotating ring can be scraped off more efficiently by friction movement generated when the cleaning blocks 202 on the two rotating rings 201 abut against the surface of the other rotating ring 201.

Claims

1. A food processing and dyeing apparatus comprising a main body (1), a cavity (2) and a rotating shaft (3), characterized in that: the middle part of the top end of the main body (1) is fixedly connected with a cavity (2), and a rotating shaft (3) is embedded in the middle part of the interior of the cavity (2);

the main body (1) comprises a discharge port (101), a base (102) and a motor (103), the discharge port (101) is fixedly connected to one side of the main body (1), the base (102) is fixedly connected to the bottom end of the main body (1), and the motor (103) is embedded in the middle of the base (102);

the cavity (2) comprises a rotating ring (201) and a cleaning block (202), the rotating ring (201) is embedded around the inner wall of the middle part of the cavity (2), and the cleaning block (202) is embedded on one side of the surface of the middle part of the rotating ring (201);

the rotating ring (201) comprises a rotating thread (2011) and a sliding groove (2012), the opening of the rotating thread (2011) is arranged on the surface of one side of the rotating ring (201), and the sliding groove (2012) is fixedly connected to one side of the rotating ring (201);

the cleaning block (202) comprises a scraping groove (2021), a limiting shaft (2022), a resetting groove (2023) and a resetting block (2024), the scraping groove (2021) is fixedly connected to one side of the cleaning block (202), the limiting shaft (2022) is embedded in the middle of the cleaning block (202), an opening of the resetting groove (2023) is arranged on one side of the limiting shaft (2022), and the resetting block (2024) is fixedly connected to one side of the middle of the cleaning block (202);

the rotating shaft (3) comprises a stirring shaft (301), a sleeve shaft (302), a rotating disc (303) and a reverse shaft (304), the stirring shaft (301) is fixedly connected to the periphery of the rotating shaft (3), an opening of the sleeve shaft (302) is formed in the middle of the rotating shaft (3) and close to the top end of the rotating shaft, the rotating disc (303) is fixedly connected to the top end of the sleeve shaft (302), and the reverse shaft (304) is embedded in the periphery of the middle of the sleeve shaft (302);

the stirring shaft (301) comprises a contraction groove (3011), a telescopic guide rod (3012) and a transmission disc (3013), an opening of the contraction groove (3011) is formed in one end of the stirring shaft (301), the telescopic guide rod (3012) is embedded in the middle of the contraction groove (3011), and the transmission disc (3013) is embedded in one end of the telescopic guide rod (3012);

the rotating disc (303) comprises an embedded gear (3031), and the embedded gear (3031) is embedded and arranged around the bottom end of the middle part of the rotating disc (303).

2. The food processing and dyeing apparatus of claim 1, wherein: the rotating rings (201) are hollow cylinders which are embedded and arranged on the inner wall surface of the cavity (2), and one sides, attached to each other, of the two rotating rings (201) are embedded in the grooves of the sliding grooves (2012) through the bumps to be connected with each other.

3. The food processing and dyeing apparatus of claim 1, wherein: the rotating thread (2011) is a rectangular groove on one side surface of the rotating ring (201), and groove marks which are mutually embedded with the periphery of the edge of the transmission disc (3013) are arranged on one side surface of the groove.

4. The food processing and dyeing apparatus of claim 1, wherein: the cleaning block (202) is connected to one side of the inner wall surfaces of the two rotating rings (201) through a limiting shaft (2022).

5. The food processing and dyeing apparatus of claim 1, wherein: the reset groove (2023) is a groove with a smaller diameter round shaft part at one side of the limit shaft (2022), the groove and a lug of the reset block (2024) of the limit shaft (2022) part connected with the cleaning block (202) are mutually embedded, and simultaneously one end of the reset groove (2023) is connected with the reset block (2024) through a spring.

6. The food processing and dyeing apparatus of claim 1, wherein: the contraction groove (3011) is a round shaft with a small diameter at the top end part of the rotating shaft (3), and the round shaft is embedded with the hollow part in the reverse shaft (304).

7. The food processing and dyeing apparatus of claim 1, wherein: the rotating disc (303) is a disc connected with the top end of the contraction groove (3011) through a cylindrical protrusion, and the bottom end of the rotating disc (303) is attached to the top end of the reverse shaft (304).

8. The food processing and dyeing apparatus of claim 1, wherein: the embedded gear (3031) is a gear which is annularly arranged in the hollow part of the middle part of the bottom end of the rotating disc (303), and the embedded gear (3031) is meshed with a gear which is arranged around the middle part of the top end of the reverse shaft (304).