CN216836264U - Feeding device is used in production of VC calcium granule - Google Patents

Abstract

The utility model provides a feeding device is used in production of VC calcium granule, feeding device is used in production of VC calcium granule includes a processing section of thick bamboo and support column, a processing section of thick bamboo is including processing main part shell, material standing groove, first symmetrical groove and heating coil, material standing groove internally mounted has the agitating unit who is used for the stirring, agitating unit installs the rotating device who is used for stably passing the material in the below, the feeding device who is used for the defeated material is installed to the processing bobbin base portion, the utility model provides a feeding device is used in production of VC calcium granule is through installing agitating unit, rabbling mechanism, rotating device and feeding device, and VC calcium granule is at defeated material in-process, and feeding device conveniently carries out drying process to VC calcium granule, guarantees VC calcium granule, the advantage of convenient follow-up packing processing.

Description

Feeding device is used in production of VC calcium granule

Technical Field

The utility model relates to a feeding device technical field especially relates to a feeding device is used in production of VC calcium granule.

Background

In the production process of VC calcium particles, a material conveying device is required to be used for conveying, and due to the environment, the VC calcium particles absorb excessive moisture in the material conveying process, so that the quality is unqualified, and the existing material conveying device is inconvenient for drying the VC calcium particles.

Therefore, there is a need for a new feeding device for VC calcium granule production to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a feeding device is used in production of VC calcium granule with stoving function.

The utility model provides a feeding device is used in production of VC calcium granule includes: the processing barrel comprises a processing main body shell, a material placing groove, a first symmetrical groove and a heating coil, a material placing groove is arranged in the processing main body shell, a first symmetrical groove is symmetrically arranged on the inner wall of the material placing groove, a heating coil is arranged in the processing main body shell, a stirring device for stirring is arranged in the material placing groove, a rotating device for stably conveying materials is arranged below the stirring device, a material conveying device for conveying materials is arranged at the bottom of the processing cylinder, VC calcium particles are placed in the material placing groove, the heating coil is started to heat the VC calcium particles, the VC calcium particles are uniformly stirred by matching with the stirring device, the VC calcium particles are dried and opened by controlling the rotating device, so that the VC calcium particles can conveniently enter the material conveying device for conveying, and the VC calcium particles are kept dry.

Preferably, cooling fan is installed to material standing groove inner wall equidistance, discharges the inside steam that produces owing to the heating coil heating of material standing groove has cooling fan, prevents that steam from contacting material standing groove inner wall, and the condensation once more becomes the globule, gets into inside the VC calcium granule, leads to the unable use of VC calcium granule humidity.

Preferably, agitating unit is including stirring processing shell, stirring processing groove, agitator motor, drive plate and rabbling mechanism, the stirring processing shell is installed to material standing groove inner wall, the stirring processing groove has been seted up to stirring processing shell inside, agitator motor is installed to stirring processing groove inner wall, stirring processing groove inner wall rotates and is connected with the drive plate, and agitator motor and drive plate pass through the bevel gear meshing and connect, stirring processing groove internally mounted has rabbling mechanism, and drive plate and rabbling mechanism structure cooperation start agitator motor, and agitator motor drives the drive plate and rotates, and drive plate control rabbling mechanism clockwise rotates earlier, and anticlockwise rotates again, stirs VC calcium granule repeatedly, and the cooperation heating coil makes things convenient for VC calcium granule to keep dry.

Preferably, rabbling mechanism includes stirring trace, first driving wheel, second trace and puddler, the stirring processing inslot wall rotates and is connected with the stirring trace, first driving wheel is installed at stirring trace top, first driving wheel below is provided with the second trace, and stirs trace and second trace fixed connection, first driving wheel and second trace and the cooperation of drive plate structure, the puddler is installed to second trace bottom, and the drive plate rotates, drives first driving wheel clockwise rotation, and the stirring trace then rotates, and second trace anticlockwise rotates, drives stirring trace anticlockwise rotation, drives the stirring rod and clockwise rotates again earlier, guarantees that the stirring of VC calcium granule is even, and the cooperation of coil that generates heat makes VC calcium granule keep dry.

Preferably, the rotating device comprises a rotating groove, a rotating motor, a material conveying disc, a second symmetrical groove and a third symmetrical groove, the rotating groove is formed in the machining main body shell, the rotating motor is installed on the inner wall of the rotating groove, the material conveying disc is fixedly connected with an output shaft of the rotating motor, the rotating groove is rotatably connected with the material conveying disc, the four second symmetrical grooves are symmetrically formed in the surface of the material conveying disc, the four third symmetrical grooves are symmetrically formed in the machining main body shell, the first symmetrical groove and the second symmetrical groove are structurally matched with the third symmetrical groove, the rotating motor is started, the output shaft of the rotating motor drives the material conveying disc to rotate, the material conveying disc drives the second symmetrical groove to rotate, the second symmetrical groove is matched with the first symmetrical groove, and VC calcium particles which are conveniently dried enter the material conveying device through the third symmetrical groove.

Preferably, the diameters of the second symmetrical groove and the third symmetrical groove are the same, so that the first symmetrical groove, the second symmetrical groove and the third symmetrical groove can conveniently convey materials, the problem that the aperture of the second symmetrical groove or the third symmetrical groove is small, the material conveying speed is slow, the material conveying speed of the VC calcium particles is reduced, and the subsequent packaging efficiency of the VC calcium particles is influenced is solved.

Preferably, the feeding device is including defeated material shell, defeated silo, defeated material spread groove, defeated material motor and defeated material auger, processing main part shell bottom installs defeated material shell, defeated silo has been seted up to defeated material shell inside, defeated silo inner wall has seted up defeated material spread groove, and defeated material spread groove and rotating device structure cooperation, defeated silo inner wall fixedly connected with fails the material motor, defeated material motor output shaft installs defeated material auger, and defeated silo and defeated material spread groove rotate the VC calcium granule of connecting after the drying process and get into defeated material spread groove, and inside the defeated silo of entering from defeated material spread groove again, start defeated material motor, defeated material motor output shaft drives defeated material auger and rotates, and defeated material auger carries stably the VC calcium granule.

Preferably, defeated material spread groove is the round platform form, makes things convenient for inside VC calcium granule gets into defeated material groove fast, carries out defeated material through defeated material auger, prevents that VC calcium granule from piling up at defeated material spread groove inner wall, causes the jam, influences feeding device's normal defeated material, has improved feeding device's practicality.

Compared with the prior art, the utility model provides a feeding device is used in production of VC calcium granule has following beneficial effect:

the utility model provides a feeding device is used in VC calcium granule production:

1. through installation agitating unit, rabbling mechanism, rotating device and feeding device, VC calcium granule is at defeated material in-process, and feeding device conveniently carries out drying process to VC calcium granule, guarantees VC calcium granule, convenient follow-up packing processing.

2. Through defeated material spread groove for the round platform form, make things convenient for inside VC calcium granule gets into defeated material groove fast, defeated material through defeated material auger carries out, prevents that VC calcium granule from piling up at defeated material spread groove inner wall, causes the jam, influences feeding device's normal defeated material, has improved feeding device's practicality.

Drawings

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

fig. 2 is a schematic overall sectional structural view provided by the present invention;

FIG. 3 is a schematic structural view of a processing cylinder provided by the present invention;

fig. 4 is a schematic structural view of a stirring device provided by the present invention;

fig. 5 is a schematic structural view of the stirring mechanism provided by the present invention;

fig. 6 is a schematic structural view of a rotating device provided by the present invention;

fig. 7 is a schematic structural view of the feeding device of the present invention.

Reference numbers in the figures: 1. processing the cylinder; 11. processing the main body shell; 12. a material placing groove; 13. a first symmetric slot; 14. a heat generating coil; 2. a stirring device; 21. stirring the processed shell; 22. stirring the processing tank; 23. a stirring motor; 24. a drive plate; 25. a stirring mechanism; 251. a stirring linkage rod; 252. a first linkage wheel; 253. a second linkage wheel; 254. a stirring rod; 3. a rotating device; 31. a rotating groove; 32. rotating the motor; 33. a material conveying disc; 34. a second symmetrical groove; 35. a third symmetrical groove; 4. a feeding device; 41. a feeding shell; 42. a material conveying groove; 43. a material conveying connecting groove; 44. a material conveying motor; 45. a material conveying auger; 5. a support pillar; 6. a heat radiation fan.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and embodiments.

Please refer to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6 and fig. 7 in combination, wherein fig. 1 is a schematic diagram of an overall structure provided by the present invention; fig. 2 is a schematic overall sectional structural view provided by the present invention; FIG. 3 is a schematic view of the structure of the processing cylinder provided by the present invention; fig. 4 is a schematic structural view of a stirring device provided by the present invention; fig. 5 is a schematic structural view of the stirring mechanism provided by the present invention; fig. 6 is a schematic structural view of a rotating device provided by the present invention; fig. 7 is a schematic structural view of the feeding device of the present invention. VC calcium granule production is with feeding device includes: a processing cylinder 1 and a support column 5.

In the specific implementation process, as shown in fig. 1, fig. 2 and fig. 3, four support columns 5 are symmetrically installed below the processing barrel 1, the processing barrel 1 includes a processing main body shell 11, a material placing groove 12, a first symmetric groove 13 and a heating coil 14, the material placing groove 12 is opened inside the processing main body shell 11, the first symmetric groove 13 is opened symmetrically on the inner wall of the material placing groove 12, the heating coil 14 is installed inside the processing main body shell 11, a stirring device 2 for stirring is installed inside the material placing groove 12, a rotating device 3 for stably conveying materials is installed below the stirring device 2, a material conveying device 4 for conveying materials is installed at the bottom of the processing barrel 1, VC calcium particles are placed inside the material placing groove 12, the heating coil 14 is started to heat, the VC calcium particles are uniformly stirred in cooperation with the stirring device 2 to dry the VC calcium particles, by controlling the opening of the rotating device 3, the VC calcium particles can conveniently enter the material conveying device 4 for conveying, so that the VC calcium particles are kept dry.

As shown in fig. 1, heat dissipation fan 6 is installed to material holding tank 12 inner wall equidistance, and the inside steam that produces because the heating of heating coil 14 has heat dissipation fan 6 to discharge material holding tank 12, prevents that steam from contacting material holding tank 12 inner wall, condenses into the globule once more, gets into inside the VC calcium granule, leads to the unable use of VC calcium granule humidity.

As shown in fig. 4, the stirring device 2 includes a stirring processing shell 21, a stirring processing tank 22, a stirring motor 23, a transmission disc 24 and a stirring mechanism 25, a stirring processing shell 21 is arranged on the inner wall of the material placing groove 12, a stirring processing groove 22 is arranged inside the stirring processing shell 21, a stirring motor 23 is arranged on the inner wall of the stirring processing tank 22, a transmission disc 24 is rotatably connected on the inner wall of the stirring processing tank 22, and the stirring motor 23 and the transmission disc 24 are engaged and connected through a bevel gear, a stirring mechanism 25 is arranged in the stirring processing tank 22, and the transmission disc 24 is matched with the stirring mechanism 25 in structure, the stirring motor 23 is started, the stirring motor 23 drives the transmission disc 24 to rotate, the transmission disc 24 controls the stirring mechanism 25 to rotate clockwise firstly and then rotate anticlockwise, VC calcium particles are repeatedly stirred and are convenient to keep dry by being matched with the heating coil 14.

As shown in fig. 4 and 5, the stirring mechanism 25 includes a stirring linkage 251, a first linkage 252, a second linkage 253 and a stirring rod 254, the inner wall of the stirring processing tank 22 is rotatably connected with the stirring linkage 251, the first linkage 252 is installed at the top of the stirring linkage 251, the second linkage 253 is installed below the first linkage 252, the stirring linkage 251 and the second linkage 253 are fixedly connected, the first linkage 252 and the second linkage 253 are structurally matched with the driving disc 24, the stirring rod 254 is installed at the bottom of the second linkage 253, the driving disc 24 rotates to drive the first linkage 252 to rotate clockwise, the stirring linkage 251 rotates accordingly, the second linkage 253 rotates counterclockwise to drive the stirring linkage 251 to rotate counterclockwise, the stirring rod 254 rotates clockwise and counterclockwise, so as to ensure uniform stirring of the VC calcium particles, and the VC calcium particles are matched with the heating coil 14, the VC calcium particles were kept dry.

As shown in fig. 6, the rotating device 3 comprises a rotating groove 31, a rotating motor 32, a material conveying disc 33, a second symmetrical groove 34 and a third symmetrical groove 35, a rotating groove 31 is arranged in the processing main body shell 11, a rotating motor 32 is arranged on the inner wall of the rotating groove 31, a material conveying disc 33 is fixedly connected with an output shaft of the rotating motor 32, the rotating groove 31 is rotationally connected with the material conveying disc 33, four second symmetrical grooves 34 are symmetrically arranged on the surface of the material conveying disc 33, four third symmetrical grooves 35 are symmetrically arranged inside the processing main body shell 11, and the first symmetrical groove 13 and the second symmetrical groove 34 are matched with the third symmetrical groove 35 in structure, the rotating motor 32 is started, the output shaft of the rotating motor 32 drives the material conveying disc 33 to rotate, the material conveying disc 33 drives the second symmetrical groove 34 to rotate, the second symmetrical groove 34 is matched with the first symmetrical groove 13, and VC calcium particles which are conveniently dried enter the material conveying device 4 through the third symmetrical groove 35.

As shown in fig. 6, the diameters of the second symmetrical groove 34 and the third symmetrical groove 35 are the same, so that the first symmetrical groove 13, the second symmetrical groove 34 and the third symmetrical groove 35 can conveniently transmit materials, the problem that the aperture of the second symmetrical groove 34 or the third symmetrical groove 35 is small, the transmission speed is slow, the transmission speed of the VC calcium particles is reduced, and the subsequent packaging efficiency of the VC calcium particles is affected is solved.

As shown in fig. 7, the feeding device 4 includes a feeding shell 41, a feeding groove 42, a feeding connecting groove 43, a feeding motor 44 and a feeding auger 45, the feeding shell 41 is installed at the bottom of the processing main body shell 11, the feeding groove 42 is formed inside the feeding shell 41, the feeding connecting groove 43 is formed in the inner wall of the feeding groove 42, the feeding connecting groove 43 is matched with the structure of the rotating device 3, the feeding motor 44 is fixedly connected to the inner wall of the feeding groove 42, the feeding auger 45 is installed on the output shaft of the feeding motor 44, and the feeding groove 42 and the feeding connecting groove 43 are rotatably connected with the VC calcium particles after drying treatment to enter the feeding connecting groove 43, and then enter the feeding groove 42 from the feeding connecting groove 43, the feeding motor 44 is started, the output shaft of the feeding motor 44 drives the feeding auger 45 to rotate, and the feeding auger 45 stably conveys the VC calcium particles.

As shown in fig. 7, defeated material spread groove 43 is round platform form, makes things convenient for inside VC calcium granule gets into defeated material groove 42 fast, carries out the defeated material through defeated material auger 45, prevents that VC calcium granule from piling up at defeated material spread groove 43 inner wall, causes the jam, influences the normal defeated material of feeding device 4, has improved feeding device 4's practicality.

The working principle is as follows: placing VC calcium particles into the material placing groove 12, starting the heating coil 14 for heating, matching with the stirring device 2 for uniform stirring, drying the VC calcium particles, starting the stirring motor 23, driving the transmission disc 24 to rotate by the stirring motor 23, controlling the stirring mechanism 25 to rotate clockwise first and then anticlockwise, repeatedly stirring the VC calcium particles, matching with the heating coil 14, facilitating the VC calcium particles to keep dry, driving the transmission disc 24 to rotate, driving the first connecting wheel 252 to rotate clockwise, driving the stirring linkage 251 to rotate clockwise and then anticlockwise, driving the stirring linkage 251 to rotate anticlockwise, driving the stirring rod 254 to rotate clockwise and then anticlockwise, ensuring the VC calcium particles to be uniformly stirred, matching with the heating coil 14, keeping the VC calcium particles dry, opening by controlling the rotating device 3, facilitating the VC calcium particles to enter the material conveying device 4, starting the rotating motor 32, driving the material conveying disc 33 to rotate by the output shaft of the rotating motor 32, driving the second symmetrical groove 34 to rotate by the material conveying disc 33, matching the second symmetrical groove 34 with the first symmetrical groove 13, allowing the dried VC calcium particles to enter the material conveying device 4 through the third symmetrical groove 35 for conveying, allowing the dried VC calcium particles to keep dry, allowing the dried VC calcium particles to enter the material conveying connecting groove 43, then entering the material conveying groove 42 from the material conveying connecting groove 43, starting the material conveying motor 44, driving the material conveying auger 45 to rotate by the output shaft of the material conveying motor 44, stably conveying the VC calcium particles by the material conveying auger 45, installing the heat dissipation fans 6 at equal intervals on the inner wall of the material placing groove 12, discharging the hot gas generated by heating the heating coil 14 in the material placing groove 12 by the heat dissipation fans 6, preventing the hot gas from contacting the inner wall of the material placing groove 12, condensing into small water drops again, and entering the VC calcium particles, lead to the moist unable use of VC calcium granule, it is the same with third symmetrical groove 35 diameter through second symmetrical groove 34, make things convenient for first symmetrical groove 13, second symmetrical groove 34 and third symmetrical groove 35 to pass the material, it is less to prevent second symmetrical groove 34 or third symmetrical groove 35 aperture, lead to passing the material speed slow, the defeated material speed of VC calcium granule has been reduced, influence the follow-up packing efficiency of VC calcium granule, be round platform form through defeated material spread groove 43, make things convenient for VC calcium granule to get into inside defeated material groove 42 fast, carry out the defeated material through defeated material auger 45, prevent that VC calcium granule from piling up at defeated material spread groove 43 inner wall, cause the jam, influence the normal defeated material of feeding device 4, the practicality of feeding device 4 has been improved.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims (8)

1. A feeding device for VC calcium particle production comprises: processing section of thick bamboo (1) and support column (5), four support columns (5) are installed to processing section of thick bamboo (1) below symmetry, its characterized in that, processing section of thick bamboo (1) is including processing main part shell (11), material standing groove (12), first symmetric groove (13) and heating coil (14), processing main part shell (11) inside has seted up material standing groove (12), first symmetric groove (13) have been seted up to material standing groove (12) inner wall symmetry, processing main part shell (11) internally mounted has heating coil (14), material standing groove (12) internally mounted has agitating unit (2) that are used for the stirring, agitating unit (3) that are used for stably passing the material are installed to agitating unit (2) below, feeding device (4) that are used for the defeated material are installed to processing section of thick bamboo (1) bottom.

2. The conveying device for VC calcium particle production as recited in claim 1, wherein the inner wall of said material placing groove (12) is equidistantly provided with heat radiation fans (6).

3. The conveying device for VC calcium particle production as claimed in claim 1, wherein said stirring device (2) comprises a stirring processing shell (21), a stirring processing tank (22), a stirring motor (23), a transmission disc (24) and a stirring mechanism (25), said stirring processing shell (21) is installed on the inner wall of said material placing tank (12), said stirring processing tank (22) is opened inside said stirring processing shell (21), said stirring motor (23) is installed on the inner wall of said stirring processing tank (22), said inner wall of said stirring processing tank (22) is rotatably connected with said transmission disc (24), and said stirring motor (23) and said transmission disc (24) are connected through bevel gear engagement, said stirring processing tank (22) is internally installed with said stirring mechanism (25), and said transmission disc (24) and said stirring mechanism (25) are structurally matched.

4. The conveying device for VC calcium particle production as recited in claim 3, wherein said stirring mechanism (25) comprises a stirring linkage (251), a first linkage wheel (252), a second linkage wheel (253) and a stirring rod (254), said stirring linkage (251) is rotatably connected to the inner wall of said stirring processing tank (22), said first linkage wheel (252) is installed on the top of said stirring linkage (251), said second linkage wheel (253) is installed under said first linkage wheel (252), and said stirring linkage wheel (251) and said second linkage wheel (253) are fixedly connected, said first linkage wheel (252) and said second linkage wheel (253) are structurally engaged with said driving disc (24), and said stirring rod (254) is installed at the bottom of said second linkage wheel (253).

5. The conveying device for VC calcium particle production as recited in claim 1, wherein said rotating device (3) comprises a rotating groove (31), a rotating motor (32), a material conveying disc (33), a second symmetrical groove (34) and a third symmetrical groove (35), said rotating groove (31) is formed inside said processing main body shell (11), said rotating motor (32) is installed on the inner wall of said rotating groove (31), said rotating motor (32) has a material conveying disc (33) fixedly connected to the output shaft of said rotating motor (32), said rotating groove (31) is rotatably connected to said material conveying disc (33), said material conveying disc (33) has four second symmetrical grooves (34) symmetrically formed on the surface thereof, said processing main body shell (11) has four third symmetrical grooves (35) symmetrically formed inside thereof, and said first symmetrical groove (13) and said second symmetrical groove (34) are structurally matched with said third symmetrical grooves (35).

6. The feeding device for VC calcium production as recited in claim 5, wherein said second symmetrical trough (34) and said third symmetrical trough (35) have the same diameter.

7. The conveying device for VC calcium particle production as claimed in claim 1, wherein said conveying device (4) comprises a conveying shell (41), a conveying trough (42), a conveying connecting trough (43), a conveying motor (44) and a conveying auger (45), said conveying shell (41) is installed at the bottom of the processing main body shell (11), said conveying trough (42) is installed inside the conveying shell (41), said conveying connecting trough (43) is installed on the inner wall of the conveying trough (42), and said conveying connecting trough (43) is structurally matched with the rotating device (3), said conveying motor (44) is fixedly connected to the inner wall of the conveying trough (42), said conveying auger (45) is installed on the output shaft of the conveying motor (44), and said conveying trough (42) and said conveying connecting trough (43) are rotatably connected.

8. The feeding device for VC calcium particle production as recited in claim 7, wherein said feeding connecting trough (43) is truncated cone-shaped.

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