CN115025985A - Raw materials edulcoration device is used in food seasoning production - Google Patents

Abstract

The invention discloses a raw material impurity removing device for food seasoning production, which belongs to the technical field of food seasoning production and comprises a bottom plate, wherein a shell is fixedly arranged on the bottom plate, a screening component, a fastening component, a slag receiving component and a driving component are arranged in the shell, the fastening component and the driving component are matched with each other, so that the funnel can be attached to a circular sieve cylinder, seasoning raw materials can not fall down all around when unloading is facilitated, the slag receiving component and the driving component are matched with each other, the slag receiving cylinder can approach and yield to the circular sieve cylinder, the slag receiving cylinder can also be driven to rotate to dump crushed slag, the crushed slag in the slag receiving cylinder is prevented from overflowing, the screening component, the fastening component, the slag receiving component and the driving component are matched with each other, the seasoning raw materials after impurity removal are automatically unloaded, and workers are prevented from generating discomfort when contacting the seasoning raw materials with pungent smell for a long time.

Description

Raw materials edulcoration device is used in food seasoning production

Technical Field

The invention relates to the technical field of food seasoning production, in particular to a raw material impurity removing device for food seasoning production.

Background

Flavorings, also known as seasonings, refer to food ingredients that are used to add small amounts to other foods to improve taste. The raw materials of condiment can produce the piece after drying process to the raw materials of condiment can have great pungent smell a bit, and current edulcoration device can't realize carrying out automatic unloading to the raw materials after the edulcoration, and the workman can produce uncomfortable feeling after long-term contact has the condiment raw materials of great pungent smell.

Chinese patent with application number CN201920145332.7 discloses a raw material impurity removing device for food seasoning production, which comprises a base, wherein two sides of the top of the base are both connected with a supporting column through bolts, the tops of the two pillars are both connected with fixed arms through bolts, the bottoms of the two fixed arms close to one end are both connected with rockers through pin shafts, the bottoms of the two rocking bars close to one side are both connected with hooks through bolts, the circumferences of the bottoms of the two hooks are both sleeved with lantern rings, and the outer wall of one side of the two lantern rings close to each other is welded with the same sieve barrel, the bottom of the sieve barrel is provided with sieve pores which are uniformly distributed, although the patent can realize the impurity removal of the seasoning raw material, the seasoning raw material after the impurity removal needs to be manually unloaded, and the crushed slag is easy to fall out of the collecting box due to the longer distance between the screening barrel and the collecting box during screening, so the invention provides the raw material impurity removing device for producing the food seasoning.

Disclosure of Invention

The invention provides a raw material impurity removal device for food seasoning production, aiming at overcoming the defects in the prior art that the raw material of the seasoning after impurity removal needs to be manually unloaded, and crushed slag is easy to fall out of a collection box due to the long distance between a sieve barrel and the collection box during screening.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a raw materials edulcoration device is used in food seasoning production, includes the bottom plate, and fixed mounting has the casing on the bottom plate, and inside screening subassembly and the lock joint subassembly of being provided with of casing, the screening subassembly includes a circular sieve section of thick bamboo, and a circular sieve section of thick bamboo shake is used for screening the edulcoration to the material of adjusting, and the lock joint subassembly is including the transposition board, and slidable mounting has the funnel on the transposition board, and the transposition board rotates so that funnel and a circular sieve section of thick bamboo joint.

Further, the inside sediment subassembly and the drive assembly that connect that still is provided with of casing connects the sediment subassembly including connecting a sediment section of thick bamboo and pressing from both sides the sediment carriage, presss from both sides to rotate on the sediment carriage and installs and press from both sides sediment drive column gear, presss from both sides axle head fixed connection that sediment drive column gear connects a sediment section of thick bamboo, presss from both sides the sediment carriage and slides so that connect a sediment section of thick bamboo to the round sieve section of thick bamboo pivoted stepping down, presss from both sides sediment drive column gear and rotates so that connect a sediment section of thick bamboo to empty the disintegrating slag.

Further, the screening subassembly still includes the drive frame, is provided with a plurality of extension springs between a circular sieve section of thick bamboo and the drive frame, and the upper end fixed mounting of drive frame has shock dynamo, and shock dynamo is used for making a circular sieve section of thick bamboo shake the screening.

Further, the fastening assembly further comprises a pushing ring frame, the shifting plate and the pushing ring frame are both rotatably mounted on the driving frame, an arc-shaped hole is formed in the shifting plate, a cylindrical block is arranged on the pushing ring frame, the cylindrical block on the pushing ring frame is slidably mounted in the arc-shaped hole of the shifting plate, a spring is arranged between the cylindrical block on the pushing ring frame and the shifting plate, and a limiting block is fixedly arranged on the side face of the driving frame.

Further, be provided with the spring between funnel and the transposition board, the one end fixed connection of spring is on the funnel, and the other end fixed connection of spring is on the transposition board, and the funnel is laminated with the promotion ring frame, and the funnel rotates for the transposition board and makes the funnel slide on the transposition board.

Further, connect the sediment subassembly still includes the backup pad, and backup pad fixed mounting is inboard at the casing, and fixed mounting has to connect the sediment mount in the backup pad, presss from both sides sediment carriage slidable mounting on connecting the sediment mount, connects fixed mounting to have spacing vertical bar on the sediment mount, spacing vertical bar and press from both sides sediment drive column gear sliding fit, and spacing vertical bar is used for the restriction to press from both sides sediment drive column gear and rotates.

Furthermore, a Z-shaped rack is slidably mounted on the slag receiving cylinder, a transmission shaft is rotatably mounted on the supporting plate, a slag receiving sliding column gear and a slag receiving rotating column gear are fixedly mounted on the transmission shaft, a rack is fixedly mounted on the slag clamping sliding frame, the slag receiving sliding column gear and the rack of the slag clamping sliding frame form a gear-rack pair, the Z-shaped rack and the slag receiving rotating column gear form a gear-rack pair, the slag clamping driving column gear can be meshed with the Z-shaped rack to form a gear-rack pair, and the slag clamping driving column gear is separated from the limit of the limiting straight bar when the slag clamping driving column gear is meshed with the Z-shaped rack.

Further, drive assembly includes intermittent type commentaries on classics board, intermittent type commentaries on classics board rotates and installs on the transmission shaft, be provided with the arc hole on the intermittent type commentaries on classics board, fixed mounting has the drive to change the board on the transmission shaft, be provided with the cylinder piece on the drive changes the board, cylinder piece slidable mounting on the drive changes the board is downthehole at the arc on the intermittent type commentaries on classics board, fixed mounting has the fixed box of clockwork spring in the backup pad, be provided with the flat spiral spring between the fixed box of clockwork spring and the intermittent type commentaries on classics board, the one end fixed connection of flat spiral spring is inboard at the fixed box of clockwork spring, the other end fixed connection of flat spiral spring is in the intermittent type commentaries on classics board outside.

Furthermore, the driving frame is rotatably installed on the transmission column gear and the driving column gear, the pushing ring frame is provided with the column gear, the transmission column gear and the column gear on the pushing ring frame respectively form a gear pair, the driving column gear and the transmission shaft are provided with belt wheels, a torsion spring is arranged between the belt wheel of the driving column gear and the driving column gear, a transmission belt II is arranged between the belt wheel of the driving column gear and the belt wheel of the transmission shaft, the driving frame is rotatably installed on the supporting plate, the driving frame and the intermittent rotating plate are provided with the belt wheels, and a transmission belt III is arranged between the belt wheel of the driving frame and the belt wheel of the intermittent rotating plate.

Furthermore, the upper surface of the shell is fixedly provided with a dust collector which is used for absorbing dust generated by screening, and the shell is symmetrically and rotatably provided with double doors.

Compared with the prior art, the invention has the beneficial effects that: (1) according to the invention, the buckling component and the driving component are matched with each other, so that the funnel can be attached to the circular screen drum, and seasoning raw materials can not fall down around conveniently during discharging; (2) according to the invention, through the mutual matching of the slag receiving assembly and the driving assembly, the slag receiving cylinder can approach and give way to the circular sieve cylinder, and the slag receiving cylinder can also be driven to rotate to dump crushed slag, so that the crushed slag in the slag receiving cylinder is prevented from overflowing; (3) according to the automatic unloading device, the screening assembly, the buckling assembly, the slag receiving assembly and the driving assembly are matched with one another, so that the seasoning raw materials subjected to impurity removal are automatically unloaded, and the phenomenon that workers feel uncomfortable after contacting the seasoning raw materials with pungent smell for a long time is avoided.

Drawings

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

Fig. 2 is a partially enlarged view of a portion a in fig. 1.

FIG. 3 is a schematic view of a half section of a part of the structure of the present invention.

Fig. 4 is a schematic structural view of the inside of the housing of the present invention.

Fig. 5 is a first schematic structural diagram of the driving assembly of the present invention.

Fig. 6 is a schematic structural diagram of a driving assembly according to the present invention.

Fig. 7 is a schematic structural view of the fastening assembly of the present invention.

Fig. 8 is a partially enlarged view of the portion B in fig. 7.

FIG. 9 is a schematic structural view of a slag receiving assembly according to the present invention.

Fig. 10 is a side view of the drive assembly of the present invention.

Fig. 11 is an elevational view of the fastening assembly of the present invention.

Figure 12 is a schematic view of the screening assembly of the present invention.

Fig. 13 is a partially enlarged view of C in fig. 12.

Fig. 14 is a side view of the drive assembly transmission portion of the present invention.

FIG. 15 is a schematic view of the pushing ring rack of the present invention.

Reference numerals: 101-a base plate; 102-a housing; 103-double door; 104-a dust collector; 105-a drive motor; 106-a drive belt one; 107-a drive shaft; 108-a funnel; 109-round screen cylinder; 110-a slag receiving cylinder; 111-a support plate; 112-a drive shaft; 113-a slag receiving fixing frame; 114-slag carriage; 115-slag inclusion driving column gear; 116-limit straight bars; 117-Z rack; 118-a slag-receiving sliding column gear; 119-slag receiving rotary column gear; 120-a transposition board; 121-a driving frame; 122-spring fixing box; 123-pushing the ring frame; 124-flat spiral spring; 125-intermittent rotating plate; 126-driving the rotating plate; 127-a vibration motor; 128-tension spring; 129-drive column gear; 130-drive column gear; 131-a second transmission belt; 132-drive belt three; 133-a stopper.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b): referring to fig. 1 and 3, a raw material impurity removing device for producing food seasoning comprises a base plate 101, a shell 102 is fixedly mounted on the base plate 101, supporting plates 111 are symmetrically and fixedly mounted inside the shell 102, a dust collector 104 is fixedly mounted on the upper surface of the shell 102 and used for absorbing dust generated by screening, double doors 103 are symmetrically mounted on the shell 102 in a rotating mode, a collecting cylinder is respectively arranged at a position, close to the double doors 103 at two sides, on the base plate 101, one collecting cylinder is used for collecting seasoning raw materials after impurity removal, and the other collecting cylinder is used for collecting crushed slag.

Referring to fig. 3, fig. 4, fig. 12, fig. 13, the inside screening subassembly that is provided with of casing 102, the screening subassembly includes a circular sieve section of thick bamboo 109 and a drive frame 121, drive frame 121 rotates and installs on backup pad 111, circular sieve section of thick bamboo 109 bilateral symmetry is provided with the cylinder, the cylinder of a circular sieve section of thick bamboo 109 inserts the drive frame 121 inboard, be provided with a plurality of extension springs 128 between the cylinder of a circular sieve section of thick bamboo 109 and the drive frame 121, extension spring 128 is used for stabilizing a circular sieve section of thick bamboo 109 on drive frame 121, the upper end fixed mounting of drive frame 121 has shock dynamo 127, the fixed spheroid that sets up in output shaft front end of shock dynamo 127, the surface laminating of spheroid is a circular sieve section of thick bamboo 109 surface, start shock dynamo 127, can drive a circular sieve section of thick bamboo 109 and shake the screening to the material.

With reference to figures 4, 7 and 8, fig. 11, fig. 15, the inside fastening assembly that is provided with of casing 102, the fastening assembly includes transposition board 120 and promotion ring frame 123, transposition board 120 and promotion ring frame 123 all rotate and install on drive frame 121, be provided with the bar hole on the transposition board 120, slidable mounting has funnel 108 on the bar hole of transposition board 120, be provided with the spring between funnel 108 and the transposition board 120, the one end fixed connection of spring is on funnel 108, the other end fixed connection of spring is on transposition board 120, be provided with the arc hole on the transposition board 120, be provided with the cylinder piece on the promotion ring frame 123, cylinder piece slidable mounting on the promotion ring frame 123 is in the arc hole of transposition board 120, be provided with the spring between cylinder piece on the promotion ring frame 123 and the transposition board 120, be provided with the arc strip on the promotion ring frame 123, the laminating of funnel 108 and the arc strip that promotes ring frame 123, the fixed stopper 133 that is provided with in side of drive frame 121.

When the pushing ring frame 123 rotates, because the spring that sets up between pushing ring frame 123 and the transposition board 120, make transposition board 120 and pushing ring frame 123 rotate synchronously, after transposition board 120 rotates 90 degrees, side contact stopper 133 of transposition board 120, make transposition board 120 can't continue to rotate, the spring between funnel 108 and the transposition board 120 under the initial condition is stretched, pushing ring frame 123 continues to rotate, transposition board 120 can't rotate, the arc strip that pushes ring frame 123 this moment rotates has loosened the support to funnel 108, funnel 108 slowly presses close to circular sieve section of thick bamboo 109 under the spring action between funnel 108 and transposition board 120, finally after pushing ring frame 123 rotates 90 degrees for transposition board 120, funnel 108 laminates circular sieve section of thick bamboo 109 completely.

Referring to fig. 4, 5, 7, 9 and 10, a slag receiving assembly is arranged inside the housing 102, the slag receiving assembly includes a slag receiving fixing frame 113 and a slag receiving cylinder 110, the slag receiving fixing frame 113 is fixedly mounted on the supporting plate 111, a slag clamping sliding frame 114 is slidably mounted on the slag receiving fixing frame 113, a spring is arranged between the slag receiving fixing frame 113 and the slag clamping sliding frame 114, a slag clamping driving column gear 115 is rotatably mounted on the slag clamping sliding frame 114, shaft ends of the slag receiving cylinder 110 and the slag clamping driving column gear 115 are fixedly connected, a limiting straight bar 116 is fixedly mounted on the slag receiving fixing frame 113, a strip-shaped hole is formed in the slag clamping driving column gear 115, when the strip-shaped hole of the slag clamping driving column gear 115 is in a vertical state, the limiting straight bar 116 is in sliding fit with the slag clamping driving column gear 115, and the limiting straight bar 116 is used for limiting the rotation of the slag clamping driving column gear 115.

Referring to fig. 9, a Z-shaped rack 117 is slidably mounted on the slag receiving cylinder 110, a transmission shaft 107 is rotatably mounted on the support plate 111, a slag receiving sliding column gear 118 and a slag receiving rotating column gear 119 are fixedly mounted on the transmission shaft 107, a rack is fixedly mounted on the slag clamping sliding frame 114, the racks of the slag receiving sliding column gear 118 and the slag clamping sliding frame 114 form a rack-and-pinion pair, the Z-shaped rack 117 and the slag receiving rotating column gear 119 form a rack-and-pinion pair, the slag clamping driving column gear 115 can be meshed with the Z-shaped rack 117 to form a rack-and-pinion pair, and the slag clamping driving column gear 115 is separated from the limit of the limit straight bar 116 when the slag clamping driving column gear 115 is meshed with the Z-shaped rack 117.

The transmission shaft 107 rotates to drive the slag clamping sliding frame 114 to move downwards to drive the slag receiving barrel 110 to move downwards, the slag receiving barrel 110 moves downwards to give way to the rotation of the circular screen barrel 109, the slag clamping driving column gear 115 cannot rotate under the action of the limiting straight strip 116, when the rack of the slag clamping sliding frame 114 moves to the position below the slag receiving rotating column gear 119, the slag receiving rotating column gear 119 continues to rotate, and the slag clamping rotating column gear 119 cannot drive the slag clamping sliding frame 114 to move downwards any more, at the moment, the slag clamping driving column gear 115 can freely rotate without the limitation of the limiting straight bar 116, and the Z-shaped rack 117 moves upwards under the action of the slag receiving rotating column gear 119, the slag clamping driving column gear 115 and the Z-shaped rack 117 form a rack-and-pinion pair while being separated from the limit of the limit straight bar 116, and the transmission shaft 107 continues to rotate so that the slag clamping driving column gear 115 rotates, namely the slag receiving cylinder 110 is driven to rotate to dump crushed slag in the slag receiving cylinder 110.

Referring to fig. 4, 5, 10, and 14, a driving assembly is disposed inside the housing 102, the driving assembly includes an intermittent rotation plate 125, the intermittent rotation plate 125 is rotatably mounted on the transmission shaft 107, an arc hole is disposed on the intermittent rotation plate 125, a driving rotation plate 126 is fixedly mounted on the transmission shaft 107, a cylindrical block is disposed on the driving rotation plate 126, the cylindrical block on the driving rotation plate 126 is slidably mounted in the arc hole on the intermittent rotation plate 125, a spring fixing case 122 is fixedly mounted on the support plate 111, a spiral spring 124 is disposed between the spring fixing case 122 and the intermittent rotation plate 125, one end of the spiral spring 124 is fixedly connected to the inner side of the spring fixing case 122, and the other end of the spiral spring 124 is fixedly connected to the outer side of the intermittent rotation plate 125.

Referring to fig. 6, 10 and 11, a driving column gear 129 and a driving column gear 130 are rotatably mounted on a driving frame 121, a column gear is disposed on a pushing ring frame 123, the driving column gear 129 and the pushing ring frame 123 form a gear pair, the driving column gear 129 and the driving column gear 130 form a gear pair, the gear ratio of the driving column gear 130 to the driving column gear 129 is 2: 1, so that the driving column gear 130 rotates one circle, the driving column gear 129 rotates 2 circles, the driving column gear 123 and the driving column gear 130 rotate in the same direction under the action of the driving column gear 129, the driving column gear 130 and the driving shaft 107 are both provided with pulleys, a torsion spring is disposed between the pulley of the driving column gear 130 and the driving column gear 130, the strength of the torsion spring is greater than that disposed between the index plate 120 and the pushing ring frame 123, a second driving belt 131 is disposed between the pulley of the driving column gear 130 and the pulley of the driving shaft 107, the driving frame 121 and the intermittent rotation plate 125 are both provided with belt wheels, a third transmission belt 132 is arranged between the belt wheel of the driving frame 121 and the belt wheel of the intermittent rotation plate 125, the transmission shaft 107 rotates, when the driving rotation plate 126 rotates for 90 degrees, the intermittent rotation plate 125 cannot rotate under the action of the flat spiral spring 124, the transmission shaft 107 continues to rotate after rotating for 90 degrees, the intermittent rotation plate 125 is driven by the driving rotation plate 126 to rotate, the flat spiral spring 124 is compressed, after the pushing ring frame 123 rotates for 180 degrees, the pushing ring frame 123 continues to rotate, the pushing ring frame 123 cannot rotate under the action of the shifting plate 120, and a torsion spring between the driving column gear 130 and the belt wheel on the driving column gear 130 is compressed.

Referring to fig. 1-4, a driving motor 105 is fixedly mounted on a side surface of the housing 102, a driving shaft 112 is rotatably mounted on the housing 102, an output shaft of the driving motor 105 is fixedly connected with the driving shaft 112, belt pulleys are disposed on the housing 102 and the driving shaft 107, a driving belt 106 is disposed between the belt pulley of the housing 102 and the belt pulley of the driving shaft 107, and the housing 102 is used for synchronously driving the driving shafts 107 on two sides.

The working principle is as follows: when the seasoning raw materials are subjected to impurity removal, the illustration is an initial working state, the double door 103 on the side without the funnel 108 is opened, a worker pours the seasoning raw materials onto the circular sieve cylinder 109, the double door 103 is closed, the vibration motor 127 is started to shake the circular sieve cylinder 109, crushed slag mixed with the seasoning raw materials falls into the slag receiving cylinder 110 below the crushed slag, the vibration motor 127 is started, and meanwhile, the dust collector 104 is started to extract and filter dust generated by shaking of the seasoning raw materials.

After the set shaking screening time is over, the vibration motor 127 is turned off, the driving motor 105 is started, the driving shaft 112 is driven to rotate counterclockwise, the driving shaft 107 is driven to rotate counterclockwise through the first driving belt 106, at this time, the intermittent rotation plate 125 can drive the driving rotation plate 126 to rotate only after the driving rotation plate 126 rotates 90 degrees, and before the driving rotation plate 126 rotates 90 degrees counterclockwise, the intermittent rotation plate 125 cannot rotate under the action of the spiral spring 124.

The driving shaft 107 drives the driving post gear 130 to rotate anticlockwise through the driving belt II 131, the driving post gear 130 drives the driving post gear 129 to rotate clockwise, the driving post gear 129 drives the pushing ring frame 123 to rotate anticlockwise, when the pushing ring frame 123 rotates anticlockwise, the shifting plate 120 and the pushing ring frame 123 synchronously rotate due to the spring arranged between the pushing ring frame 123 and the shifting plate 120, so that the funnel 108 rotates right above the circular sieve tube 109, after the shifting plate 120 rotates for 90 degrees, the side surface of the shifting plate 120 contacts the limiting block 133, so that the shifting plate 120 cannot continue to rotate, the spring between the funnel 108 and the shifting plate 120 is stretched in an initial state, the pushing ring frame 123 continues to rotate, the arc-shaped strip of the pushing ring frame 123 rotates to release the support of the funnel 108, the funnel 108 slowly approaches to the circular sieve tube 109 under the spring action between the funnel 108 and the shifting plate 120, finally, after the pushing ring 123 rotates 90 degrees relative to the shifting plate 120, the funnel 108 completely fits the circular screen cylinder 109.

When the pushing ring frame 123 rotates 180 degrees relative to the driving frame 121, the slag receiving sliding column gear 118 and the slag receiving rotating column gear 119 on the transmission shaft 107 rotate 90 degrees, the slag receiving sliding column gear 118 drives the slag clamping sliding frame 114 to move downwards to drive the slag receiving barrel 110 to move downwards, the slag receiving barrel 110 moves downwards to give way to the circular screen barrel 109 in a rotating way, the slag clamping driving column gear 115 cannot rotate under the action of the limiting straight bar 116, when the rack of the slag clamping sliding frame 114 moves to the position below the slag receiving rotating column gear 119, the slag receiving rotating column gear 119 continues to rotate and cannot drive the slag clamping sliding frame 114 to move downwards, at the moment, the slag clamping driving column gear 115 can freely rotate without the limitation of the limiting straight strip 116, and the Z-shaped rack 117 moves upwards under the action of the slag receiving rotating column gear 119, and the slag inclusion driving column gear 115 and the Z-shaped rack 117 form a rack-and-pinion pair while being separated from the limit of the limit straight bar 116.

After the transmission shaft 107 rotates by 90 degrees, the slag receiving barrel 110 is positioned at the lowest part, the funnel 108 is attached to the circular screen barrel 109, and at the moment, the cylindrical block of the driving rotating plate 126 moves to the other end of the arc-shaped hole of the intermittent rotating plate 125.

The transmission shaft 107 continues to rotate, the driving rotating plate 126 drives the intermittent rotating plate 125 to rotate, the flat spiral spring 124 is compressed, the intermittent rotating plate 125 drives the driving frame 121 to rotate through the third transmission belt 132, and then drives the funnel 108 and the circular sieve cylinder 109 to finally rotate 160 degrees, so that the funnel opening of the funnel 108 is positioned above the collecting cylinder, the vibration motor 127 is started, the circular sieve cylinder 109 shakes, seasoning materials in the circular sieve cylinder 109 fall into the collecting cylinder through the funnel 108, the transmission shaft 107 drives the slag receiving rotating cylindrical gear 119 to drive the Z-shaped rack 117 to continue to move upwards while continuing to rotate, the slag clamping driving cylindrical gear 115 is driven to also rotate 160 degrees, and then the slag receiving cylinder 110 rotates 160 degrees, crushed slag in the slag receiving cylinder 110 is poured into another collecting cylinder, and the slag receiving cylinder 110 synchronously rotates 160 degrees, so that excessive accumulation of crushed slag in the slag receiving cylinder 110 can be effectively avoided.

After the transmission shaft 107 rotates 90 degrees, namely the pushing ring frame 123 rotates 180 degrees, the pushing ring frame 123 cannot rotate under the action of the transposition plate 120, the transmission shaft 107 continues to drive the belt wheels on the driving column gear 130 to rotate through the transmission belt II 131, the torsion springs between the driving column gear 130 and the belt wheels on the driving column gear 130 are compressed, after a collecting cylinder for containing seasoning raw materials or a collecting cylinder for containing crushed slag is full, the double door 103 is opened to clean the collecting cylinder, and the seasoning raw materials can be subjected to impurity removal by repeating the steps.

The present invention is not limited to the above-described embodiments, and those skilled in the art will be able to make various modifications without creative efforts from the above-described conception, and fall within the scope of the present invention.

Claims (9)

1. The utility model provides a raw materials edulcoration device is used in food seasoning production, includes bottom plate (101), and fixed mounting has casing (102) on bottom plate (101), its characterized in that:

the screening assembly and the fastening assembly are arranged inside the shell (102), the screening assembly comprises a circular screen cylinder (109), the circular screen cylinder (109) is shaken to be used for screening and removing impurities of the seasoning raw materials, the fastening assembly comprises a shifting plate (120), a funnel (108) is slidably mounted on the shifting plate (120), and the shifting plate (120) rotates to enable the funnel (108) to be connected with the circular screen cylinder (109);

casing (102) inside still is provided with connects sediment subassembly and drive assembly, connect the sediment subassembly including connecing a sediment section of thick bamboo (110) and pressing from both sides sediment carriage (114), press from both sides sediment carriage (114) and go up to rotate and install and press from both sides sediment drive column gear (115), press from both sides the axle head fixed connection of sediment drive column gear (115) and connect a sediment section of thick bamboo (110), press from both sides sediment carriage (114) and slide so that connect a sediment section of thick bamboo (110) to the round sieve section of thick bamboo (109) pivoted stepping down, press from both sides sediment drive column gear (115) and rotate so that connect a sediment section of thick bamboo (110) to empty the disintegrating slag.

2. The raw material impurity removing device for producing food seasoning as claimed in claim 1, wherein: the screening subassembly still includes drive frame (121), is provided with a plurality of extension springs (128) between circular sieve section of thick bamboo (109) and drive frame (121), and the upper end fixed mounting of drive frame (121) has shock dynamo (127), and shock dynamo (127) are used for making circular sieve section of thick bamboo (109) shake the screening.

3. The raw material impurity removing device for producing food seasoning as claimed in claim 2, wherein: the fastening assembly further comprises a pushing ring frame (123), the shifting plate (120) and the pushing ring frame (123) are installed on the driving frame (121) in a rotating mode, an arc-shaped hole is formed in the shifting plate (120), a cylindrical block is arranged on the pushing ring frame (123), the cylindrical block on the pushing ring frame (123) is installed in the arc-shaped hole of the shifting plate (120) in a sliding mode, a spring is arranged between the cylindrical block on the pushing ring frame (123) and the shifting plate (120), and a limiting block (133) is fixedly arranged on the side face of the driving frame (121).

4. The impurity removing device for the raw materials for producing the food seasoning as claimed in claim 3, wherein: be provided with the spring between funnel (108) and transposition board (120), the one end fixed connection of spring is on funnel (108), and the other end fixed connection of spring is on transposition board (120), and funnel (108) and promotion ring frame (123) laminating rotate for transposition board (120) and make funnel (108) slide on transposition board (120).

5. The impurity removing device for the raw materials for producing the food seasonings according to claim 4, wherein the impurity removing device comprises: connect the sediment subassembly still includes backup pad (111), and backup pad (111) fixed mounting is inboard in casing (102), and fixed mounting is gone up in backup pad (111) has and connects sediment mount (113), press from both sides sediment carriage (114) slidable mounting on connecting sediment mount (113), connect on sediment mount (113) fixed mounting have spacing vertical bar (116), spacing vertical bar (116) and press from both sides sediment drive column gear (115) sliding fit, and spacing vertical bar (116) are used for the restriction to press from both sides sediment drive column gear (115) and rotate.

6. The impurity removing device for the raw materials for producing the food seasoning as claimed in claim 5, wherein: connect a sediment section of thick bamboo (110) go up slidable mounting have Z type rack (117), it installs transmission shaft (107) to rotate on backup pad (111), fixed mounting connects sediment slip column gear (118) and connects sediment rotation column gear (119) on transmission shaft (107), it has the rack to press from both sides fixed mounting on sediment carriage (114), it constitutes the rack and pinion to connect sediment slip column gear (118) and the rack that presss from both sides sediment carriage (114), Z type rack (117) and connect sediment rotation column gear (119) constitute the rack and pinion, it drives column gear (115) and can constitute the rack and pinion with Z type rack (117) meshing to press from both sides sediment, press from both sides sediment when sediment drive column gear (115) and Z type rack (117) meshing and drive column gear (115) and break away from the restriction of spacing vertical (116).

7. The device for removing impurities from raw materials for producing food seasonings according to claim 6, wherein: the driving assembly comprises an intermittent rotating plate (125), the intermittent rotating plate (125) is rotatably installed on a transmission shaft (107), an arc-shaped hole is formed in the intermittent rotating plate (125), a driving rotating plate (126) is fixedly installed on the transmission shaft (107), a cylindrical block is arranged on the driving rotating plate (126), the cylindrical block on the driving rotating plate (126) is slidably installed in the arc-shaped hole in the intermittent rotating plate (125), a spring fixing box (122) is fixedly installed on a supporting plate (111), a plane scroll spring (124) is arranged between the spring fixing box (122) and the intermittent rotating plate (125), one end of the plane scroll spring (124) is fixedly connected to the inner side of the spring fixing box (122), and the other end of the plane scroll spring (124) is fixedly connected to the outer side of the intermittent rotating plate (125).

8. The impurity removing device for the raw materials for producing the food seasoning as claimed in claim 7, wherein: the driving rack (121) is rotatably installed on a transmission column gear (129) and a driving column gear (130), a column gear is arranged on the pushing ring rack (123), the transmission column gear (129) and the column gear on the pushing ring rack (123) and the driving column gear (130) form a gear pair respectively, a belt wheel is arranged on the driving column gear (130) and the transmission shaft (107), a torsion spring is arranged between the belt wheel of the driving column gear (130) and the driving column gear (130), a transmission belt II (131) is arranged between the belt wheel of the driving column gear (130) and the belt wheel of the transmission shaft (107), the driving rack (121) is rotatably installed on the supporting plate (111), a belt wheel is arranged on the driving rack (121) and the intermittent rotating plate (125), and a transmission belt III (132) is arranged between the belt wheel of the driving rack (121) and the belt wheel of the intermittent rotating plate (125).

9. The raw material impurity removing device for producing food seasoning as claimed in claim 1, wherein: the upper surface fixed mounting of casing (102) has dust catcher (104), and dust catcher (104) are used for absorbing the dust that the screening produced, and the rotation of symmetry is installed two door (103) on casing (102).

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