CN215992641U - All-round irradiation device is used to food - Google Patents

Abstract

The utility model discloses an omnibearing irradiation device for food, which comprises a tank body, wherein a transmission channel is arranged in the tank body, a sleeve is nested in the transmission channel, a first strip-shaped irradiation source is nested in the sleeve, an auger is fixedly sleeved on the surface of a pipe body of the sleeve in the transmission channel, reflection convex blocks are distributed on the surface of the auger, transparent glass is nested on the upper side wall of the transmission channel, an isolation cover is arranged on the upper side of the transparent glass and fixedly connected with the outer wall of the tank body, and a second strip-shaped irradiation source is arranged in the isolation cover. According to the food irradiation device, the first strip-shaped irradiation source works to irradiate food through the sleeve, the second strip-shaped irradiation source irradiates the food through the transparent glass, and the food is stirred and transmitted through the auger on the sleeve, so that the food can be irradiated in all directions, the generation of dead angles is reduced, and the irradiation effect is improved.

Description

All-round irradiation device is used to food

Technical Field

The utility model relates to the field of food safety, in particular to an all-dimensional irradiation device for food.

Background

At present, food is a necessary product for people to live, food safety is more and more emphasized by people, biological agents such as bacteria, viruses, parasites and the like exist on food, and the current food disinfection and sterilization methods include a high-pressure method, a high-temperature method, a disinfectant method, an irradiation method and the like. Among them, the irradiation method is to directly transfer high energy of rays to food, thereby killing parasites, bacterial microorganisms, etc. on the food.

At present, when the existing radiation device irradiates food, the bottom of the food is contacted with the inner wall of a radiation cavity, so that the food cannot be irradiated, the food cannot be irradiated completely, dead corners exist, and the food irradiation effect is reduced.

Therefore, it is necessary to invent an omni-directional irradiation device for food to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an all-dimensional irradiation device for food, which irradiates food through a sleeve by a first strip-shaped irradiation source, irradiates the food through transparent glass by a second strip-shaped irradiation source, and turns and transmits the food through a packing auger on the sleeve, so that all-dimensional irradiation can be performed on the food, the generation of dead angles is reduced, and the defects in the technology are overcome.

In order to achieve the above purpose, the utility model provides the following technical scheme: an all-round irradiation device for food, includes a tank body, the inside of the tank body is provided with transmission channel, transmission channel's left is provided with the transmission chamber, be provided with the baffle between transmission chamber and the transmission channel, the inner wall fixed connection of baffle and the tank body, transmission channel's right side wall middle part is fixed with the mounting disc, transmission channel's inside nestification has the sleeve pipe, the sheathed tube right-hand member cup joints on the mounting disc through the bearing activity, the sheathed tube left end runs through the baffle through the bearing activity, the sheathed tube left end stretches into in the transmission chamber, the inside nested support column that has through the bearing activity of sheathed tube left end, the left end of support column and transmission chamber's left side inner wall fixed connection, the inside nestification of sheathed tube has first bar irradiation source, the fixed drive gear that has cup jointed of sheathed tube left end body, servo motor is installed to the upside left end of the tank body, the utility model discloses a transmission device, including servo motor, transmission channel, packing auger, transmission cover, servo motor's output stretches into the transmission intracavity, servo motor's output is connected with the driving gear, the meshing is connected between driving gear and the drive gear, the fixed auger that has cup jointed on the pipe shaft surface that the sleeve pipe is in transmission channel, the surface distribution of auger has the reflection lug, transmission channel's last lateral wall is inlayed and is had clear glass, clear glass's upside is provided with the cage, the outer wall fixed connection of cage and jar body, the internally mounted of cage has second bar irradiation source, transmission channel's inner wall is fixed with the reflector layer.

Preferably, the sleeve is transparent, and is made of polycarbonate.

Preferably, the reflection bump is provided with hemispherical glass beads.

Preferably, the reflective layer is provided as a composite reflective film.

Preferably, the upside left part of the jar body is provided with the feeder hopper, the feeder hopper is located servo motor's right-hand side, the bottom and the transmission path left end of feeder hopper link up, the discharge gate has been seted up to the downside right-hand member of the jar body, the discharge gate link up with the transmission path right-hand member mutually.

Preferably, the first bar-shaped irradiation source is positioned between the supporting column and the mounting disc, the left end of the first bar-shaped irradiation source is fixedly connected with the supporting column, and the right end of the first bar-shaped irradiation source is fixedly connected with the mounting disc.

Preferably, the two ends of the bottom of the tank body are provided with support frames.

Preferably, the driving gear is nested in the transmission cavity, and the driving gear and the transmission gear are both set to be bevel gears.

In the technical scheme, the utility model provides the following technical effects and advantages:

1. the food irradiation device comprises a transparent sleeve, a transmission channel, a packing auger, a first bar-shaped irradiation source, a second bar-shaped irradiation source, a first bar-shaped irradiation source, a second bar-shaped irradiation source and a second packing auger, wherein the first bar-shaped irradiation source is embedded in the transparent sleeve, transparent glass is embedded on the upper side wall of the transmission channel, the second bar-shaped irradiation source is arranged on the transparent glass, the first bar-shaped irradiation source works to irradiate food through the sleeve, the second bar-shaped irradiation source irradiates the food through the transparent glass, and the food is stirred and transmitted through the packing auger on the sleeve, so that the food can be irradiated in all directions, the generation of dead corners is reduced, and the irradiation effect is improved;

2. the reflective convex blocks are distributed on the surface of the packing auger, the reflective layer is fixed on the inner wall of the transmission channel, and the reflective convex blocks and the reflective layer can reflect light rays emitted by the first strip-shaped irradiation source and the second strip-shaped irradiation source, so that food can be effectively irradiated, the generation of dead angles is reduced, and the irradiation effect is improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to the drawings.

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

FIG. 2 is a front cross-sectional view of the present invention;

FIG. 3 is a connection diagram of the sleeve and the packing auger of the present invention;

FIG. 4 is a cross-sectional view of a can body of the present invention;

FIG. 5 is a schematic view of a support post of the present invention.

Description of reference numerals:

the device comprises a tank body 1, a transmission channel 2, a transmission cavity 3, a partition plate 4, a mounting disc 5, a sleeve 6, a support column 7, a first strip-shaped irradiation source 8, a transmission gear 9, a servo motor 10, a driving gear 11, a packing auger 12, a reflection bump 13, transparent glass 14, a shielding case 15, a second strip-shaped irradiation source 16, a reflection layer 17, a feed hopper 18, a discharge port 19 and a support frame 20.

Detailed Description

In order to make the technical solutions of the present invention better understood, those skilled in the art will now describe the present invention in further detail with reference to the accompanying drawings.

The utility model provides an omnibearing irradiation device for food, as shown in figures 1-5, comprising a tank body 1, a transmission channel 2 is arranged inside the tank body 1, a transmission cavity 3 is arranged at the left side of the transmission channel 2, a partition plate 4 is arranged between the transmission cavity 3 and the transmission channel 2, the partition plate 4 is fixedly connected with the inner wall of the tank body 1, a mounting disc 5 is fixed at the middle part of the right side wall of the transmission channel 2, a sleeve 6 is nested inside the transmission channel 2, the right end of the sleeve 6 is movably sleeved on the mounting disc 5 through a bearing, the left end of the sleeve 6 movably penetrates through the partition plate 4 through the bearing, the left end of the sleeve 6 extends into the transmission cavity 3, a support pillar 7 is movably nested inside the left end of the sleeve 6 through the bearing, the left end of the support pillar 7 is fixedly connected with the left side inner wall of the transmission cavity 3, a first strip irradiation source 8 is nested inside the sleeve 6, the fixed drive gear 9 that has cup jointed of the left end pipe shaft of sleeve pipe 6, servo motor 10 is installed to the upside left end of the jar body 1, servo motor 10's output stretches into in the transmission chamber 3, servo motor 10's output is connected with driving gear 11, the meshing is connected between driving gear 11 and the drive gear 9, the fixed auger 12 that has cup jointed on pipe shaft surface that sleeve pipe 6 is in transmission passageway 2, the surface distribution of auger 12 has reflection convex block 13, transmission passageway 2's last lateral wall is inlayed and is had clear glass 14, clear glass 14's upside is provided with cage 15, cage 15 and the outer wall fixed connection of the jar body 1, the internally mounted of cage 15 has second bar irradiation source 16, transmission passageway 2's inner wall is fixed with reflection stratum 17.

The sleeve 6 is transparent, the sleeve 6 is made of polycarbonate materials, the first bar-shaped irradiation source 8 can conveniently irradiate food through the sleeve 6, the sleeve 6 made of the polycarbonate materials is higher in heat deformation temperature, better in toughness and stronger in impact resistance, and the service life of the sleeve 6 is prolonged.

The reflection bump 13 is provided with hemispherical glass beads, so that light rays emitted by the first strip-shaped irradiation source 8 and the second strip-shaped irradiation source 16 can be effectively irradiated on food, dead angles are reduced, and the irradiation effect is improved.

The reflecting layer 17 is a composite reflecting film, and can effectively irradiate food for light rays emitted by the first strip-shaped irradiation source 8 and the second strip-shaped irradiation source 16, reduce the generation of dead angles and improve the irradiation effect.

The upside left part of the jar body 1 is provided with feeder hopper 18, feeder hopper 18 is located servo motor 10 right-hand, feeder hopper 18's bottom link up with transmission channel 2 left end, discharge gate 19 has been seted up to the downside right-hand member of the jar body 1, discharge gate 19 link up with transmission channel 2 right-hand member mutually, are convenient for pour food into transmission channel 2 through feeder hopper 18 in, are convenient for the discharge of material in the transmission channel 2 through discharge gate 19.

The first bar-shaped irradiation source 8 is located between the supporting column 7 and the mounting disc 5, the left end of the first bar-shaped irradiation source 8 is fixedly connected with the supporting column 7, and the right end of the first bar-shaped irradiation source 8 is fixedly connected with the mounting disc 5, so that the first bar-shaped irradiation source 8 is stably mounted, and the mounting stability of the first bar-shaped irradiation source 8 is improved.

The bottom both ends of the jar body 1 all are provided with support frame 20, are convenient for support jar body 1 for jar body 1 is placed stably.

The driving gear 11 is nested in the transmission cavity 3, the driving gear 11 and the transmission gear 9 are both set to be bevel gears, the servo motor 10 drives the driving gear 11 to rotate, and the driving gear 11 drives the transmission gear 9 to rotate through meshing with the transmission gear 9, so that the sleeve 6 is driven to rotate.

The implementation mode is specifically as follows: food to be irradiated is poured into the transmission channel 2 through the feed hopper 18, the servo motor 10 drives the driving gear 11 to rotate, the driving gear 11 drives the transmission gear 9 to rotate through meshing with the transmission gear 9, so as to drive the sleeve 6 to rotate, the sleeve 6 rotates to drive the packing auger 12 to rotate, so as to transmit the food in the transmission channel 2 from left to right, the sleeve 6 is transparent, the first strip-shaped irradiation source 8 works to irradiate the food through the sleeve 6, the second strip-shaped irradiation source 16 irradiates the food through the transparent glass 14, the packing auger 12 on the sleeve 6 turns and transmits the food, so that the food can be irradiated in all directions, the generation of dead angles is reduced, the irradiation effect is improved, the reflection convex blocks 13 are distributed on the surface of the packing auger 12, the reflection layer 17 is fixed on the inner wall of the transmission channel 2, and the reflection convex blocks 13 and the reflection layer 17 can reflect light rays emitted by the first strip-shaped irradiation source 8 and the second strip-shaped irradiation source 16, the food irradiation device has the advantages that the food irradiation device can effectively irradiate food, the generation of dead corners is further reduced, the irradiation effect is improved, the food after the irradiation is finished is discharged from the discharge hole 19, and the problems that the food cannot be irradiated due to the fact that the bottom of the food is in contact with the inner wall of the radiation cavity, the food irradiation is incomplete, the dead corners exist and the food irradiation effect is reduced in the prior art are specifically solved.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the utility model. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the utility model.

Claims (8)

1. The utility model provides an all-round irradiation device for food, includes jar body (1), its characterized in that: the utility model discloses a transmission device of a water tank, including a tank body (1), the inside of the tank body (1) is provided with transmission channel (2), the left of transmission channel (2) is provided with transmission chamber (3), be provided with baffle (4) between transmission chamber (3) and transmission channel (2), the inner wall fixed connection of baffle (4) and the tank body (1), the right side wall middle part of transmission channel (2) is fixed with mounting disc (5), the inside nested sleeve pipe (6) that has of transmission channel (2), the right-hand member of sleeve pipe (6) passes through bearing activity and cup joints on mounting disc (5), the left end of sleeve pipe (6) passes through bearing activity and runs through baffle (4), the left end of sleeve pipe (6) stretches into in transmission chamber (3), the inside bearing activity nested support column (7) that has passed through of the left end of sleeve pipe (6), the left end of support column (7) and the left side inner wall fixed connection of transmission chamber (3), the inside nested first bar irradiation source (8) that has of sleeve pipe (6), drive gear (9) have been cup jointed to the left end pipe shaft of sleeve pipe (6) is fixed, servo motor (10) are installed to the upside left end of the jar body (1), the output of servo motor (10) stretches into in transmission chamber (3), the output of servo motor (10) is connected with driving gear (11), meshing connection between driving gear (11) and drive gear (9), pipe shaft fixed surface that sleeve pipe (6) is in transmission passageway (2) has cup jointed auger (12), the surface distribution of auger (12) has reflection convex block (13), the last lateral wall of transmission passageway (2) is inlayed and is had clear glass (14), the upside of clear glass (14) is provided with cage (15), cage (15) and the outer wall fixed connection of the jar body (1), and a second strip-shaped irradiation source (16) is arranged in the isolation hood (15), and a reflecting layer (17) is fixed on the inner wall of the transmission channel (2).

2. The omni-directional irradiation device for food according to claim 1, wherein: the sleeve (6) is transparent, and the sleeve (6) is made of polycarbonate materials.

3. The omni-directional irradiation device for food according to claim 1, wherein: the reflection bump (13) is provided with hemispherical glass beads.

4. The omni-directional irradiation device for food according to claim 1, wherein: the reflective layer (17) is provided as a composite reflective film.

5. The omni-directional irradiation device for food according to claim 1, wherein: the upside left part of the jar body (1) is provided with feeder hopper (18), feeder hopper (18) are located servo motor (10) right-hand side, the bottom and the transmission path (2) left end of feeder hopper (18) link up, discharge gate (19) have been seted up to the downside right-hand member of the jar body (1), discharge gate (19) link up with transmission path (2) right-hand member mutually.

6. The omni-directional irradiation device for food according to claim 1, wherein: the first strip-shaped irradiation source (8) is located between the supporting column (7) and the mounting disc (5), the left end of the first strip-shaped irradiation source (8) is fixedly connected with the supporting column (7), and the right end of the first strip-shaped irradiation source (8) is fixedly connected with the mounting disc (5).

7. The omni-directional irradiation device for food according to claim 1, wherein: the two ends of the bottom of the tank body (1) are provided with support frames (20).

8. The omni-directional irradiation device for food according to claim 1, wherein: the driving gear (11) is nested in the transmission cavity (3), and both the driving gear (11) and the transmission gear (9) are set to be conical gears.

Images