CN114259906A

CN114259906A - Food additive produces heating device

Info

Publication number: CN114259906A
Application number: CN202111410963.5A
Authority: CN
Inventors: 赵俊岭
Original assignee: Jining Fortune Biotech Co ltd
Current assignee: Jining Fortune Biotech Co ltd
Priority date: 2021-11-25
Filing date: 2021-11-25
Publication date: 2022-04-01
Anticipated expiration: 2041-11-25
Also published as: CN114259906B

Abstract

The invention discloses a heating device for food additive production, which relates to the technical field of food additives.A shell comprises a first bracket, wherein a rotating mechanism is arranged on the first bracket, a transmission mechanism is arranged at the bottom of the rotating mechanism, and a heating mechanism is connected onto the transmission mechanism in a sliding manner; the vertical height and the horizontal position of the heating plate can be flexibly changed by adjusting the transmission mechanism and the heating mechanism, so that the heating efficiency is higher; the heating area of the heating plate can be changed by adjusting the heating mechanism, and the applicability is wide.

Description

Food additive produces heating device

Technical Field

The invention relates to the technical field of food additives, in particular to a heating device for food additive production.

Background

The food additive is artificially synthesized or natural substances added into food for improving the quality of the color, the fragrance, the taste and the like of the food and meeting the requirements of corrosion prevention and processing technology, at present, the food additive in China has twenty-three categories, more than two thousand categories, including an acidity regulator, an anticaking agent, an antifoaming agent, an antioxidant, a bleaching agent, a leavening agent, a coloring agent, a color fixative, an enzyme preparation, a flavoring agent, a nutrition enhancer, a preservative, a sweetening agent, a thickening agent, spice and the like, the food additive needs to be heated in the production process, the heating operation needs to be carried out in various production heating devices, the production heating devices in the existing market have the defect of low heating efficiency, and the traditional production heating devices generally adopt static heating to heat the raw materials and take a large amount of time to heat the internal raw materials, greatly reduced production heating device's heating efficiency, and the heating methods has restricted can not heat the feed bin of different width heights.

Among the prior art, as application number CN202022795563.8 discloses a production heating device is used in food additive production, the on-line screen storage device comprises a base, the top fixedly connected with bearing frame of base, the top fixedly connected with heated warehouses of bearing frame, the inside fixedly connected with sieve of heated warehouses, the first motor of top fixedly connected with of heated warehouses, the structure of stirring that the output shaft fixedly connected with one end of first motor runs through and extends to the heated warehouses inside, stir the bottom and the sieve swing joint of structure, the top fixedly connected with second motor of base, the output shaft fixedly connected with dwang of second motor, the top fixedly connected with bearing plate of dwang, the equal fixedly connected with removal slide bar in the left and right sides of bearing plate bottom. However, the heater of this design cannot be changed in position, and when the food additive is large, the heating efficiency is low when the interior is heated unevenly.

Disclosure of Invention

Aiming at the defects in the prior art, the shell can realize the function of automatic discharging; the vertical height and the horizontal position of the heating plate can be flexibly changed by adjusting the transmission mechanism and the heating mechanism, so that the heating efficiency is higher; the heating area of the heating plate can be changed by adjusting the heating mechanism, and the applicability is wide.

The technical scheme adopted by the invention for solving the technical problems is as follows: a heating device for food additive production comprises a shell, wherein a first support is provided with a rotating mechanism, the bottom of the rotating mechanism is provided with a transmission mechanism, and the transmission mechanism is connected with a heating mechanism in a sliding manner; the transmission mechanism comprises a second support fixedly installed at the bottom of the rotating mechanism, a third motor for driving a third straight gear to rotate is arranged on the second support, a fourth straight gear is installed on the second support in a rotating mode and is meshed with the third straight gear, a connecting assembly is arranged on the fourth straight gear, the other end of the connecting assembly is connected with the heating mechanism, a first belt wheel is fixedly installed on the third straight gear, a transmission shaft is installed on the second support in a rotating mode and is fixedly provided with a second belt wheel, the first belt wheel is connected with the second belt wheel through a transmission belt, a first prism is fixedly connected with the transmission shaft, a first bevel gear and a second support are slidably connected on the first prism, a hole matched with the first prism is formed in the first bevel gear, a first support is fixedly installed on the second support, a fourth motor is fixedly installed on the first support, and a second screw rod is fixedly installed on an output shaft of the fourth motor after penetrating through the first support, the support II is provided with an inner threaded hole matched with the screw rod II, the support II is in threaded connection with the screw rod II, the support I is rotatably provided with a bevel gear II, the bevel gear II is meshed with the bevel gear I, a central shaft of the bevel gear II penetrates through the support and is fixedly provided with a connecting rod I, the connecting rod I is hinged with a connecting rod II, and the connecting rod II is connected with the heating mechanism.

Further, the casing still includes the bottom plate, it is a plurality of lead screws to rotate on the bottom plate and install, a plurality of the top of lead screw is rotated with the feed bin and is connected, be provided with motor one on the feed bin, the output shaft of motor one runs through the axle head fixed connection of feed bin and one of them lead screw one, the top fixedly connected with support of feed bin just has seted up the feed inlet, is provided with temperature detector in the feed bin, and the bottom of feed bin is provided with the baffle of the control ejection of compact, set up the screw hole with corresponding and size looks adaptation in lead screw position on the baffle, baffle and a lead screw thread fit.

Furthermore, the rotating mechanism comprises a second motor, an output shaft of the second motor penetrates through the first bracket and is fixedly connected with a first straight gear, a second straight gear used for driving the transmission mechanism and the heating mechanism to do circular motion is slidably mounted on the first bracket, and the second straight gear is meshed with the first straight gear.

Further, heating mechanism includes slider one, fixed mounting has motor five on the slider one, five output shafts of motor run through slider fixed mounting in the lump have straight-teeth gear five, heating mechanism includes slider two, and fixed mounting has support three on the slider two, support three rotates with connecting rod two to be connected, rotates on the slider two to install sleeve two, the top fixed mounting of sleeve two has bevel gear three, and slider one is passed through the extension board with the slider two and is connected, it installs bevel gear four to rotate on the extension board, bevel gear four and bevel gear three-phase intermeshing, slider one, slider two all with two sliding connection of support.

Further, heating mechanism is including the tooth post and the prismatic two that run through slider one and slider two, and tooth post, prismatic two all with slider one, two sliding connection of slider, the bottom surface fixed mounting of tooth post has the connecting seat, the connecting seat rotates with prismatic two to be connected, tooth post and five intermeshing of straight-teeth gear, bevel gear three all sets up the hole with prismatic looks adaptation with the inside of sleeve two, and prismatic and bevel gear three and two sliding connection of sleeve, prismatic bottom surface fixed mounting has the chassis, prismatic inside sliding connection has the sliding shaft, the sliding shaft runs through chassis and fixedly connected with base, it has a plurality of hot plates, and is a plurality of to articulate on the base the torsional spring has all been cup jointed with the articulated department of base to the hot plate.

Furthermore, the second prism is vertically and evenly provided with first through holes, the sliding shaft is vertically and evenly provided with second through holes, and the first through holes are connected with the second through holes through bolts.

Further, coupling assembling includes three with four fixed connection's of straight-teeth gear support, slidable mounting has connecting block one on three supports, a connecting block sliding connection has ball joint first, fixed mounting has connecting rod three on three supports, it has sleeve one to rotate on three connecting rods, the equal slidable mounting in both ends of sleeve one has the ball joint shell, coupling assembling is including running through extension board and four fixed connection's of bevel gear connecting block two, slidable connection has ball joint two on two connecting blocks, two the ball joint shell is articulated with ball joint first, ball joint head two respectively.

Furthermore, the horizontal center line of the straight gear IV is coincident with or parallel to the horizontal center line of the bevel gear IV.

Compared with the prior art, the invention has the beneficial effects that: (1) the shell can realize the function of automatic discharging; (2) the vertical height and the horizontal position of the heating plate can be flexibly changed by adjusting the transmission mechanism and the heating mechanism, so that the heating efficiency is higher; (3) the heating area of the heating plate can be changed by adjusting the heating mechanism, and the applicability is wide.

Drawings

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

FIG. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a schematic view of the housing structure of the present invention.

Fig. 4 is a schematic structural view of the rotating mechanism of the present invention.

Fig. 5 is a schematic structural diagram of the transmission mechanism of the present invention.

Fig. 6 is a partial structure diagram of the transmission mechanism of the present invention.

FIG. 7 is an enlarged view of the structure of FIG. 6A according to the present invention.

Fig. 8 is another partial structure diagram of the transmission mechanism of the present invention.

Fig. 9 is a schematic structural view of the heating mechanism of the present invention.

FIG. 10 is a partial structural view of the heating mechanism of the present invention.

In the figure: 1. a housing; 2. a rotation mechanism; 3. a transmission mechanism; 4. a heating mechanism; 101. a base plate; 102. a first lead screw; 103. a storage bin; 104. a first motor; 105. a baffle plate; 106. a first bracket; 107. a feed inlet; 201. a second motor; 202. a first straight gear; 203. a second straight gear; 301. a second bracket; 302. a first support; 303. a third motor; 304. a third straight gear; 305. a fourth straight gear; 306. a connecting assembly; 307. a first belt wheel; 308. a drive shaft; 309. a second belt wheel; 310. a first prism; 311. a second support; 312. a first bevel gear; 313. a fourth motor; 314. a second screw rod; 315. a second bevel gear; 316. a first connecting rod; 317. a second connecting rod; 30601. a third bracket; 30602. a first connecting block; 30603. a first spherical hinge; 30604. a third connecting rod; 30605. a first sleeve; 30606. a spherical hinge housing; 30607. a second ball hinge head; 30608. a second connecting block; 401. a first sliding block; 402. a fifth motor; 403. a fifth spur gear; 404. a second sliding block; 405. a third support; 406. a second sleeve; 407. a third bevel gear; 408. a support plate; 409. a fourth bevel gear; 410. a tooth post; 411. a connecting seat; 412. a second prism; 413. a chassis; 414. a sliding shaft; 415. a base; 416. heating plates; 417. and (4) a bolt.

Detailed Description

In the following description of the present invention, it is to be noted that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the following description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; the connection may be direct or indirect via an intermediate medium, and the connection may be internal to the two components. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The invention will be further described with reference to the drawings and illustrative embodiments, which are provided herein to illustrate and not to limit the invention. In addition, if a detailed description of the known art is not necessary to show the features of the present invention, it is omitted.

Example (b): as shown in fig. 1-10, a heating device for food additive production, a housing 1 includes a first support 106, a rotating mechanism 2 is disposed on the first support 106, a transmission mechanism 3 is disposed at the bottom of the rotating mechanism 2, and a heating mechanism 4 is slidably connected to the transmission mechanism 3.

The shell 1 further comprises a bottom plate 101, a plurality of first lead screws 102 are rotatably mounted on the bottom plate 101, the top ends of the plurality of first lead screws 102 are rotatably connected with a storage bin 103, a first motor 104 is arranged on the bin 103, an output shaft of the first motor 104 penetrates through the bin 103 and is fixedly connected with the shaft end of one first lead screw 102, the top of the storage bin 103 is fixedly connected with a first support 106 and is provided with a feeding hole 107, a temperature detector (not shown in the figure) is arranged in the storage bin 103, the bottom of the storage bin 103 is provided with a baffle 105 for controlling discharging, the baffle 105 is provided with a threaded hole which corresponds to the position of the first screw rod 102 and has a size matched with the first screw rod 102, the baffle 105 is in threaded fit with the first screw rod 102, during the heating process of the food additive, the baffle 105 is in contact with the bottom of the silo 103, and when the food additive needs to be discharged, the baffle 105 is separated from the bottom of the silo 103.

When food additives are required to be heated, the food additives are injected into the bin 103 from the feeding hole 107, the heating mechanism 4 is started to heat the food additives, after the treatment is completed, the first motor 104 is started, the first motor 104 drives the first lead screw 102 to rotate, the first lead screw 102 drives the baffle 105 to move downwards, the food additives flow out along a gap generated between the baffle 105 and the bin 103, after the discharge is completed, the first motor 104 rotates reversely, the first lead screw 102 drives the baffle 105 to reset, and the next round of operation is facilitated.

The rotating mechanism 2 comprises a second motor 201, an output shaft of the second motor 201 penetrates through the first support 106 and is fixedly connected with a first straight gear 202, a second straight gear 203 used for driving the transmission mechanism 3 and the heating mechanism 4 to do circular motion is slidably mounted on the first support 106, and the second straight gear 203 is meshed with the first straight gear 202.

And starting the second motor 201, driving the first straight gear 202 to rotate by the second motor 201, driving the second straight gear 203 to rotate by the first straight gear 202, and driving the transmission mechanism 3 and the heating mechanism 4 to rotate by the second straight gear 203 to help the food additive to be uniformly heated.

The transmission mechanism 3 comprises a second support 301 fixedly installed at the bottom of the rotating mechanism 2, a third motor 303 driving a third straight gear 304 to rotate is arranged on the second support 301, a fourth straight gear 305 is installed on the second support 301 in a rotating mode, the third straight gear 304 is meshed with the fourth straight gear 305, a connecting assembly 306 is arranged on the fourth straight gear 305, the connecting assembly 306 comprises a third support 30601 fixedly connected with the fourth straight gear 305, a first connecting block 30602 is installed on the third support 30601 in a sliding mode, the first connecting block 30602 is connected with a first spherical hinge 30603 in a sliding mode, a third connecting rod 30604 is fixedly installed on the third support 30601, a first sleeve 30605 is installed on the third connecting rod 30604 in a rotating mode, spherical hinge housings 30606 are installed at two ends of the first sleeve 30605 in a sliding mode, the connecting assembly 306 comprises a second connecting block 30608 fixedly connected with a fourth straight gear in the heating mechanism 4, a second spherical hinge 30607 is connected on the second connecting block 30608 in a sliding mode, the two spherical hinge shells 30606 are respectively hinged with a first spherical hinge 30603 and a second spherical hinge 30607, the horizontal central line of a fourth spur gear 305 is superposed with or parallel to the horizontal central line of a fourth bevel gear 409, the transmission of the connecting component 306 is more stable, a first belt wheel 307 is fixedly arranged on a third spur gear 304, a transmission shaft 308 is rotatably arranged on a second bracket 301, a second belt wheel 309 is fixedly arranged on the transmission shaft 308, the first belt wheel 307 and the second belt wheel 309 are connected with each other through a transmission belt, a first prism 310 is fixedly connected with the transmission shaft 308, a first bevel gear 312 and a second bracket 311 are slidably connected on the first prism 310, the first bevel gear 312 is rotatably connected with the second bracket 311, a hole matched with the first prism 310 is formed in the first bevel gear 312, a hole with an outer diameter larger than that of the second prism is formed in the second bracket 311, a first bracket 302 is fixedly arranged on the second bracket 301, a fourth motor 313 is fixedly arranged on the first bracket 302, and an output shaft of the fourth motor 313 penetrates through the first bracket 302 and is fixedly arranged with a second screw 314, an inner threaded hole matched with the second screw rod 314 is formed in the second support 311, the second support 311 is in threaded connection with the second screw rod 314, a second bevel gear 315 is rotatably installed on the first support 302, the second bevel gear 315 is meshed with the first bevel gear 312, a central shaft of the second bevel gear 315 penetrates through the first support 302 and is fixedly provided with a first connecting rod 316, the first connecting rod 316 is hinged to a second connecting rod 317, and the second connecting rod 317 is connected with the heating mechanism 4.

When the temperature detector detects that the temperature in the storage bin 103 is unbalanced, the motor III 303 is started, the motor III 303 drives the spur gear III 304 to rotate, the spur gear III 304 drives the belt wheel I307 to rotate, the belt wheel I307 drives the belt wheel II 309 to rotate through the transmission belt, the belt wheel II 309 drives the transmission shaft 308 to rotate, the transmission shaft 308 drives the prism I310 to rotate, the prism I310 drives the bevel gear I312 to rotate, the bevel gear I312 drives the bevel gear II 315, the bevel gear II 315 drives the connecting rod I316 to rotate, the connecting rod I316 drives the connecting rod II 317 to swing, the connecting rod II 317 pulls the heating mechanism 4 to slide on the support II 301, the heating mechanism 4 is adjusted to a position with lower temperature in the storage bin 103, and the heating efficiency is higher; after the position of the heating mechanism 4 is adjusted, the motor III 303 is suspended, the motor IV 313 is started, the motor IV 313 drives the screw II 314 to rotate, the screw II 314 drives the bevel gear I312 to move through the support II 311, the bevel gear I312 and the bevel gear II 315 are disengaged, the motor III 303 is restarted, the motor III 303 drives the spur gear IV 305 to rotate through the spur gear III 304, the spur gear IV 305 drives the support III 30601 to rotate, the support III 30601 drives the connecting rod III 30604 to rotate, the connecting rod III 30604 drives the sleeve I30605 to rotate, the sleeve I30605 drives the spherical hinge shells 30606 at the two ends to rotate, the spherical hinge shells 30606 drive the spherical hinge I30603 and the spherical hinge II 30607 to rotate, the spherical hinge II 30607 drives the connecting block II 30608 to rotate, and the connecting block II 30608 drives the bevel gear IV 409 in the heating mechanism 4 to rotate.

The heating mechanism 4 comprises a first sliding block 401, a fifth motor 402 is fixedly mounted on the first sliding block 401, an output shaft of the fifth motor 402 penetrates through the first sliding block 401 and is fixedly provided with a fifth spur gear 403, the heating mechanism 4 comprises a second sliding block 404, a third support 405 is fixedly mounted on the second sliding block 404, the third support 405 is rotatably connected with a second connecting rod 317, a second sleeve 406 is rotatably mounted on the second sliding block 404, a third bevel gear 407 is fixedly mounted at the top end of the second sleeve 406, the first sliding block 401 is connected with the second sliding block 404 through a support plate 408, a fourth bevel gear 409 is rotatably mounted on the support plate 408, the fourth bevel gear 409 is meshed with the third bevel gear 407, the first sliding block 401 and the second sliding block 404 are both slidably connected with the second support 301, the heating mechanism 4 further comprises a tooth column 410 and a second prism 412 which penetrate through the first sliding block 401 and the second sliding block 404, and the tooth column 410 and the second prism 412 are both connected with the first sliding block 401, Two 404 sliding connection of slider, the bottom surface fixed mounting of tooth post 410 has connecting seat 411, connecting seat 411 rotates with prismatic two 412 to be connected, tooth post 410 and five 403 intermeshing of straight-teeth gear, the hole with prismatic looks adaptation is all seted up in bevel gear three 407 and the inside of sleeve two 406, and prismatic and bevel gear three 407 and sleeve two 406 sliding connection, prismatic bottom surface fixed mounting has chassis 413, prismatic inside sliding connection has sliding shaft 414, sliding shaft 414 runs through chassis 413 and fixedly connected with base 415, it has a plurality of hot plates 416 to articulate on the base 415, and is a plurality of the torsional spring (not shown in the figure) has all been cup jointed with the articulated department of base 415 to hot plate 416, prismatic 412 top perpendicular equipartition has first through-hole, and sliding shaft 414 top perpendicular equipartition has the second through-hole, and first through-hole passes through 417 with the second through-hole and is connected.

When the bevel gear IV 409 rotates, the bevel gear III 407 is driven to rotate, the bevel gear III 407 drives the bevel gear III 407 to rotate, the bevel gear III 407 drives the sleeve II 406 and the prism II 412 to rotate, the prism II 412 drives the sliding shaft 414 to rotate, the sliding shaft 414 drives the base 415 to rotate, the base 415 drives the heating plate 416 to rotate, and the heating plate 416 fully stirs the food additive in the rotating process, so that the food additive is heated more uniformly, and the heating efficiency is higher; if the heating area of the heating plate 416 needs to be increased, the pin 417 connecting the first through hole and the second through hole is pulled out, the sliding shaft 414 is lifted upwards, the sliding shaft 414 drives the base 415 to move upwards, the base 415 drives the heating plate 416 to move upwards, the side surface of the heating plate 416 is unfolded outwards under the interference of the base 413, and when the side surface is unfolded to a proper angle, the pin 417 is used to connect the first through hole and the second through hole again, so that the heating area of the heating plate 416 is larger; when the food additive in the storage bin 103 is excessive, the motor five 402 can be started, the motor five 402 drives the spur gear five 403 to rotate, the spur gear five 403 drives the toothed column 410 to move, the toothed column 410 drives the prism two 412 to move through the connecting seat 411, the prism two 412 drives the base 415 to move through the sliding shaft 414, the base 415 drives the heating plate 416 to move, the vertical height of the heating plate 416 is changed, and therefore the heating efficiency of the heating mechanism 4 is improved.

The working principle of the invention is as follows: injecting food additives into the bin 103 from the feed inlet 107, starting the second motor 201, driving the first straight gear 202 to rotate by the second motor 201, driving the second straight gear 203 to rotate by the first straight gear 202, and driving the transmission mechanism 3 and the heating mechanism 4 to rotate by the second straight gear 203 to help the food additives to be uniformly heated; when the temperature detector detects that the temperature in the storage bin 103 is unbalanced, the motor III 303 is started, the motor III 303 drives the spur gear III 304 to rotate, the spur gear III 304 drives the belt wheel I307 to rotate, the belt wheel I307 drives the belt wheel II 309 to rotate through the transmission belt, the belt wheel II 309 drives the transmission shaft 308 to rotate, the transmission shaft 308 drives the prism I310 to rotate, the prism I310 drives the bevel gear I312 to rotate, the bevel gear I312 drives the bevel gear II 315, the bevel gear II 315 drives the connecting rod I316 to rotate, the connecting rod I316 drives the connecting rod II 317 to swing, the connecting rod II 317 pulls the heating mechanism 4 to slide on the support II 301, the heating mechanism 4 is adjusted to a position with lower temperature in the storage bin 103, and the heating efficiency is higher; after the position of the heating mechanism 4 is adjusted, a motor III 303 is suspended, a motor IV 313 is started, the motor IV 313 drives a screw II 314 to rotate, the screw II 314 drives a bevel gear I312 to move through a support II 311, the bevel gear I312 and a bevel gear II 315 are disengaged, the motor III 303 is restarted, the motor III 303 drives a spur gear IV 305 to rotate through the spur gear III 304, the spur gear IV 305 drives a support III 30601 to rotate, the support III 30601 drives a connecting rod III 30604 to rotate, the connecting rod III 30604 drives a sleeve I30605 to rotate, the sleeve I30605 drives spherical hinge shells 30606 at two ends to rotate, the spherical hinge shells 30606 drive a spherical hinge I30603 and a spherical hinge II 30607 to rotate, the spherical hinge II 30607 drives a connecting block II 30608 to rotate, the connecting block II 30608 drives a bevel gear IV 409 in the heating mechanism 4 to rotate, when the bevel gear IV 409 rotates, the bevel gear III 407 is driven to rotate, the bevel gear III 407 drives the bevel gear III to rotate, the bevel gear three 407 drives the sleeve two 406 and the prism two 412 to rotate, the prism two 412 drives the sliding shaft 414 to rotate, the sliding shaft 414 drives the base 415 to rotate, the base 415 drives the heating plate 416 to rotate, and the heating plate 416 fully stirs the food additive in the rotating process, so that the food additive is heated more uniformly and the heating efficiency is higher; if the heating area of the heating plate 416 needs to be increased, the pin 417 connecting the first through hole and the second through hole is pulled out, the sliding shaft 414 is lifted upwards, the sliding shaft 414 drives the base 415 to move upwards, the base 415 drives the heating plate 416 to move upwards, the side surface of the heating plate 416 is unfolded outwards under the interference of the base 413, and when the side surface is unfolded to a proper angle, the pin 417 is used to connect the first through hole and the second through hole again, so that the heating area of the heating plate 416 is larger; when the food additive in the storage bin 103 is excessive, the motor five 402 can be started, the motor five 402 drives the spur gear five 403 to rotate, the spur gear five 403 drives the toothed column 410 to move, the toothed column 410 drives the prism two 412 to move through the connecting seat 411, the prism two 412 drives the base 415 to move through the sliding shaft 414, the base 415 drives the heating plate 416 to move, the vertical height of the heating plate 416 is changed, and therefore the heating efficiency of the heating mechanism 4 is improved. After the heating treatment is finished, the first motor 104 is started, the first motor 104 drives the first lead screw 102 to rotate, the first lead screw 102 drives the baffle 105 to move downwards, the food additive flows out along a gap between the baffle 105 and the bin 103, after the discharging is finished, the first motor 104 rotates reversely, the first lead screw 102 drives the baffle 105 to reset, and the next round of operation is convenient to perform.

It should be understood that the above embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same, and those skilled in the art can modify the technical solutions described in the above embodiments, or make equivalent substitutions for some technical features; and all such modifications and alterations are intended to fall within the scope of the appended claims.

Claims

1. A food additive produces heating device which characterized in that: the shell (1) comprises a first support (106), a rotating mechanism (2) is arranged on the first support (106), a transmission mechanism (3) is arranged at the bottom of the rotating mechanism (2), and the transmission mechanism (3) is connected with a heating mechanism (4) in a sliding manner; the transmission mechanism (3) comprises a second support (301) fixedly installed at the bottom of the rotating mechanism (2), a third motor (303) for driving a third spur gear (304) to rotate is arranged on the second support (301), a fourth spur gear (305) is installed on the second support (301) in a rotating mode, the third spur gear (304) is meshed with the fourth spur gear (305), a connecting assembly (306) is arranged on the fourth spur gear (305), the other end of the connecting assembly (306) is connected with the heating mechanism (4), a first belt wheel (307) is fixedly installed on the third spur gear (304), a transmission shaft (308) is installed on the second support (301) in a rotating mode, a second belt wheel (309) is fixedly installed on the transmission shaft (308), the first belt wheel (307) is connected with the second belt wheel (309) through a transmission belt, a first prism (310) is fixedly connected with the first prism (310), and a first bevel gear (312) and a second support (311) are connected on the first prism (310) in a rotating mode, the first bevel gear (312) is rotatably connected with the second support (311), a hole matched with the first prism (310) is formed in the first bevel gear (312), the first support (302) is fixedly installed on the second support (301), the fourth motor (313) is fixedly installed on the first support (302), an output shaft of the fourth motor (313) penetrates through the first support (302) and is fixedly provided with the second lead screw (314), an inner threaded hole matched with the second screw rod (314) is formed in the second support seat (311), the second support seat (311) is in threaded connection with the second screw rod (314), a second bevel gear (315) is rotatably mounted on the first support seat (302), the second bevel gear (315) is meshed with the first bevel gear (312), the central shaft of the bevel gear II (315) penetrates through the support I (302) and is fixedly provided with a connecting rod I (316), the first connecting rod (316) is hinged to a second connecting rod (317), and the second connecting rod (317) is connected with the heating mechanism (4).

2. A food additive production heating apparatus according to claim 1, wherein: casing (1) still includes bottom plate (101), rotate on bottom plate (101) and install a plurality of lead screw (102), it is a plurality of the top of lead screw (102) rotates with feed bin (103) and is connected, be provided with motor (104) on feed bin (103), the output shaft of motor (104) runs through feed bin (103) and the axle head fixed connection of one of lead screw (102) wherein, the top fixedly connected with support (106) of feed bin (103) just seted up feed inlet (107), is provided with temperature detector in feed bin (103), and the bottom of feed bin (103) is provided with baffle (105) of control ejection of compact, set up the corresponding screw hole of size looks adaptation with lead screw (102) position on baffle (105), baffle (105) and lead screw (102) screw-thread fit.

3. A food additive production heating apparatus according to claim 2, wherein: the rotating mechanism (2) comprises a second motor (201), an output shaft of the second motor (201) penetrates through the first support (106) and is fixedly connected with a first straight gear (202), a second straight gear (203) used for driving the transmission mechanism (3) and the heating mechanism (4) to do circular motion is slidably mounted on the first support (106), and the second straight gear (203) is meshed with the first straight gear (202).

4. A food additive production heating apparatus according to claim 3, wherein: the heating mechanism (4) comprises a first sliding block (401), a fifth motor (402) is fixedly installed on the first sliding block (401), an output shaft of the motor five (402) penetrates through the sliding block one (401) and is fixedly provided with a straight gear five (403), the heating mechanism (4) comprises a second sliding block (404), a third support (405) is fixedly arranged on the second sliding block (404), the third support (405) is rotatably connected with the second connecting rod (317), the second sliding block (404) is rotatably provided with a second sleeve (406), a bevel gear III (407) is fixedly installed at the top end of the sleeve II (406), the sliding block I (401) is connected with the sliding block II (404) through a support plate (408), a bevel gear four (409) is rotatably arranged on the support plate (408), the bevel gear four (409) is meshed with the bevel gear three (407), the first sliding block (401) and the second sliding block (404) are in sliding connection with the second support (301).

5. A food additive production heating apparatus according to claim 4, wherein: the heating mechanism (4) comprises a tooth column (410) and a prism two (412) which penetrate through a first sliding block (401) and a second sliding block (404), the tooth column (410) and the prism two (412) are in sliding connection with the first sliding block (401) and the second sliding block (404), a connecting seat (411) is fixedly installed on the bottom surface of the tooth column (410), the connecting seat (411) is rotatably connected with the prism two (412), the tooth column (410) is meshed with a straight gear five (403), holes matched with the prism are formed in the inner portions of a bevel gear three (407) and a sleeve two (406), the prism is in sliding connection with the bevel gear three (407) and the sleeve two (406), a chassis (413) is fixedly installed on the bottom surface of the prism, a sliding shaft (414) is connected with the inner portion of the prism in a sliding manner, the sliding shaft (414) penetrates through the chassis (413) and is fixedly connected with a base (415), and a plurality of heating plates (416) are hinged to the base (415), torsion springs are sleeved at the hinged parts of the heating plates (416) and the base (415).

6. A food additive production heating apparatus according to claim 5, wherein: first through holes are vertically and evenly distributed on the prism II (412), second through holes are vertically and evenly distributed on the sliding shaft (414), and the first through holes are connected with the second through holes through bolts (417).

7. A food additive production heating apparatus according to claim 4, wherein: coupling assembling (306) include with straight-gear four (305) fixed connection's support three (30601), slidable mounting has connecting block one (30602) on support three (30601), connecting block one (30602) slidable connection has ball pivot first (30603), fixed mounting has connecting rod three (30604) on support three (30601), rotatable mounting has sleeve one (30605) on connecting rod three (30604), the equal slidable mounting in both ends of sleeve one (30605) has ball pivot shell (30606), coupling assembling (306) is including running through branch board (408) and four (409) fixed connection's of bevel gear connecting block two (30608), slidable connection has ball pivot head two (30607) on connecting block two (30608), two ball pivot shell (30606) is articulated with ball pivot head one (30603), ball pivot head two (30607) respectively.

8. A food additive production heating apparatus according to claim 7, wherein: the horizontal center line of the spur gear four (305) and the horizontal center line of the bevel gear four (409) coincide or are parallel to each other.