CN219942613U - Raw material mixing device for producing and processing plum syrup - Google Patents

Abstract

The utility model discloses a raw material mixing device for producing and processing plum syrup, and relates to the technical field of producing and processing plum syrup. The crushing mechanism, the mixing mechanism and the filter plate are positioned in the box body and are sequentially distributed in a direction away from the feeding hopper. Be provided with first hang plate in the box, first hang plate slope sets up between feed hopper and crushing mechanism, has seted up the whereabouts mouth on the first hang plate, is provided with first receipts workbin in the box, and first receipts workbin is located one side that feed hopper was kept away from to first hang plate, and whereabouts mouth and first receipts workbin intercommunication. The utility model has the effect of screening and proportioning the sizes of different types of plum juice raw materials so that the finished plum juice has better taste.

Description

Raw material mixing device for producing and processing plum syrup

Technical Field

The utility model relates to the technical field of production and processing of plum juice, in particular to a raw material mixing device for production and processing of plum juice.

Background

At present, the living standard of people is greatly improved, and the street-side food is in full view, namely the plum juice becomes an indispensable delicious drink in hot pot shops and barbecue shops. The plum juice is a traditional summer heat relieving drink, and the raw materials for making the plum juice mainly comprise dark plum, hawthorn, sweet osmanthus, liquorice, rock candy and the like. The beverage has effects of eliminating oil and greasiness, promoting salivation, quenching thirst, stimulating appetite, invigorating spleen, relieving restlessness, and tranquilizing mind, and is a health beverage for hot summer.

The Chinese patent with the application number of CN202220008048.7 in the related art provides a raw material mixing device for producing and processing the plum syrup, which comprises a box body, a rectangular groove, a feeding funnel, an isolating mechanism, a crushing mechanism for crushing the raw material of the plum syrup, a mixing mechanism for mixing the raw material of the plum syrup, and a filter plate for filtering the raw material of the plum syrup. One end of the rectangular groove is fixedly provided with a feeding funnel, and the other end of the rectangular groove is fixedly arranged on the box body and is positioned above the box body. The rectangular groove is movably provided with a crushing mechanism. An isolation mechanism is arranged between the rectangular groove and the box body. The inside mixing mechanism and the filter of being provided with of box, wherein mixing mechanism is located the one end that is close to the rectangular channel in the box, and the filter box is located the one end that keeps away from the rectangular channel. The method comprises the steps of adding raw materials of the plum syrup into a rectangular groove through a feeding funnel, crushing the raw materials in the rectangular groove through a crushing mechanism, then opening an isolating mechanism to enable the crushed raw materials to fall down to be fully mixed with a mixing device, and then extracting liquid components of the fully mixed raw materials of the plum syrup production through a filtering mechanism.

Aiming at the related technology, dark plum, hawthorn and the like in the raw materials for producing the plum soup are put into a rectangular groove through a feeding funnel and crushed by a crushing device positioned in the rectangular groove, the crushed raw materials for producing the plum soup such as the dark plum and the hawthorn are fully mixed by a mixing mechanism, and then the fully mixed raw materials for producing the plum soup are filtered out liquid components by a filter plate. However, the dark plum, hawthorn and other raw materials for producing the dark plum soup have different levels, and the smaller dark plum, hawthorn and other raw materials have poor taste due to insufficient maturity, so that the dark plum soup produced by the device is poor in taste after being crushed, mixed and filtered, and the quality of the finished product is affected.

Disclosure of Invention

In order to solve the problem that the taste of the finished product of the plum juice is poor due to insufficient maturity of smaller fresh fruits in the production raw materials, the utility model provides a raw material mixing device for producing and processing the plum juice.

The utility model provides a raw material mixing device for producing and processing plum syrup, which adopts the following technical scheme:

the utility model provides a raw materials mixing arrangement is used in plum blossom soup production and processing, includes box, broken mechanism, mixing mechanism and filter, the box top is provided with feed hopper, the slope is provided with first hang plate in the box, first hang plate slope set up in feed hopper with between the broken mechanism, the drop mouth has been seted up on the first hang plate, be provided with first receipts workbin in the box, first receipts workbin is located first hang plate is kept away from one side of feed hopper, just the drop mouth with first receipts workbin intercommunication.

By adopting the technical scheme, when the raw materials of the plum juice are mixed, the raw materials of the plum juice are firstly put into a box body through a feed hopper; secondly, the plum juice raw material is discharged on the first inclined plate, when the plum juice raw material such as dark plum or hawthorn moves to a falling port on the first inclined plate, individuals smaller than the falling port in the plum juice raw material such as dark plum or hawthorn fall into a first receiving box from the falling port, and individuals larger than the falling port in size roll or slide into a subsequent crushing mechanism after jumping over the falling port, so that the screening of the plum juice raw material such as dark plum or hawthorn is completed; then the screened raw materials of the plum juice are subjected to shell breaking and crushing through a crushing mechanism, and the crushed raw materials of the plum juice are fully mixed through a mixing mechanism; and then, filtering and collecting liquid components in the raw materials of the plum juice by a filter plate, so that the produced finished plum juice has better taste.

Optionally, the first inclined plate is provided with the board that slides, the board that slides is located first inclined plate is close to one side of feed hopper, the slip direction of board that slides with the incline direction of first inclined plate is unanimous, the board that slides is close to the one end of feed hopper is directional the direction of feed hopper, have on the box and be used for the locking subassembly of board that slides.

By adopting the technical scheme, when the plum juice raw materials such as dark plum or hawthorn are screened, the size of the falling opening is required to be changed along with the change of the types of the screened plum juice raw materials due to the different sizes of dark plum and hawthorn. At this time, only the distance between the sliding plate and one end of the falling port, which is close to the feeding funnel, is required to be adjusted, and the sliding plate is locked and fixed by the locking assembly after the sliding plate is properly adjusted, so that the size of the falling port is adjusted, and different plum syrup raw materials such as dark plums or hawthorns can be screened respectively. Because the sliding plate is positioned on one side of the first inclined plate, which is close to the feeding hopper, the phenomenon that dark plum or hawthorn in the plum soup raw material with the size smaller than that of the falling opening jumps over the falling opening due to too high speed can be effectively prevented, and the screening precision is further improved.

Optionally, a housing is disposed in the box, and the housing is located between the first inclined plate and the feeding funnel, and is disposed parallel to the first inclined plate.

By adopting the technical scheme, when the dark plum or hawthorn in the raw materials of the dark plum soup moves on the first inclined plate, the cover is arranged on the first inclined plate to limit the rolling or sliding direction of the dark plum or hawthorn in the raw materials of the dark plum soup. The cover shell enables the rolling or sliding direction of the dark plum or hawthorn in the raw materials of the dark plum soup to be parallel to the inclined direction of the first inclined plate, further enables the dark plum or hawthorn in the raw materials of the dark plum soup to orderly move in the screening process, and prevents the phenomenon of lamination of the raw materials of the dark plum soup such as dark plum or hawthorn in the moving process.

Optionally, a transfer structure is disposed at an end of the sliding plate near the feeding funnel, and the transfer structure is located at a side of the sliding hole near the housing.

Through adopting above-mentioned technical scheme, remove on first hang plate like dark plum or hawthorn in the plum juice raw materials, when dark plum or hawthorn pass through the falling mouth in the plum juice raw materials like dark plum or hawthorn, dark plum or hawthorn that the size is greater than the falling mouth size can jump the falling mouth fast through the transmission structure on the board that slides, and then effectually avoided the condition that the jam takes place for the heavy-duty plum juice raw materials at the falling mouth.

Optionally, a vibration assembly is mounted on the first inclined plate, and the vibration assembly is located at one side of the falling opening, which is close to the feeding funnel.

Through adopting above-mentioned technical scheme, when the plum blossom soup raw materials removes on first hang plate, install vibration subassembly on the hang plate, vibration subassembly vibrates the hang plate, prevents that the phenomenon of wall built-up from appearing in plum blossom soup raw materials on first hang plate for the plum blossom soup raw materials can remain throughout and remove on first hang plate.

Optionally, the vibration subassembly includes spring plate and elastic component, the spring plate passes through the elastic component is connected first hang plate is close to one side of housing, still be provided with the buffer board in the box, the buffer board slope set up in between the spring plate with the feed hopper.

Through adopting above-mentioned technical scheme, when the plum blossom soup raw materials falls from the feed inlet on the spring plate that sets up on the first hang plate, the existence of buffer board can avoid the plum blossom soup raw materials to fall into between spring plate and the first hang plate, and then influences the concertina movement of elastic component. The vibration effect of vibration subassembly has effectually been guaranteed in the setting up of buffer board.

Optionally, be provided with weighing assembly in the box, weighing assembly is located first hang plate with between the crushing mechanism, be provided with the valve in the discharge gate department of feed hopper on the box, the valve with weighing assembly electricity is connected, be provided with in the box and be used for with the raw materials of weighing assembly department shifts to the transfer subassembly of crushing mechanism department.

By adopting the technical scheme, the raw materials of the plum juice after screening can fall onto the weighing assembly. When the weight of the plum juice raw material falling onto the weighing assembly reaches the preset weight, an electric signal is transmitted to a valve positioned at a discharge hole of the feeding funnel through electric connection, so that the valve is closed, and feeding is stopped; and then the transfer assembly is started, so that the plum juice raw material on the weighing assembly falls into the crushing mechanism for crushing.

Optionally, a second inclined plate is arranged in the box body, and the second inclined plate is fixedly installed between the first material receiving box and the weighing assembly and is obliquely arranged towards the weighing assembly.

Through adopting above-mentioned technical scheme, after the plum blossom soup raw materials is followed the landing on the first hang plate, buffering direction is carried out via the second hang plate for the plum blossom soup raw materials slowly slide to weighing assembly department for weighing assembly is quick accurate discernment the weight of the plum blossom soup raw materials of piling up of its top.

In summary, the present utility model includes at least one of the following beneficial technical effects:

1. when the plum or hawthorn passes through the first inclined plate, the size of the plum or hawthorn in the plum soup raw material can be screened due to the existence of the falling port, so that the processed plum soup finished product has better taste;

2. the size of the falling opening on the first inclined plate can be adjusted by sliding the sliding plate, so that the screening of different types of plum syrup raw materials such as dark plums or haws is realized;

3. the weighing assembly arranged between the first inclined plate and the crushing mechanism is electrically connected with the valve arranged at the discharge port of the feeding hopper, and when the weight of the plum syrup raw material on the weighing assembly reaches a preset threshold value, the valve electrically connected with the weighing assembly is closed to stop feeding, so that the proportion of the plum syrup raw material is realized.

Drawings

Fig. 1 is a schematic overall structure of an embodiment of the present utility model.

Fig. 2 is an enlarged schematic view of the portion a in fig. 1.

Fig. 3 is a schematic cross-sectional view of a tank according to an embodiment of the present utility model, mainly for showing the first inclined plate, the weighing assembly, the crushing mechanism, the mixing mechanism and the filter plate structure.

Fig. 4 is a schematic view of the structure of the first inclined plate and the feed hopper in the embodiment of the present utility model.

Fig. 5 is a schematic view of an exploded view of a slip sheet and vibration assembly in accordance with an embodiment of the present utility model.

Fig. 6 is an enlarged schematic view of the portion B in fig. 5.

FIG. 7 is a schematic view of an exploded view of a weighing assembly and a transfer assembly in accordance with an embodiment of the present utility model.

Fig. 8 is a schematic view of an exploded construction of a crushing mechanism, a mixing mechanism and a filter plate in an embodiment of the utility model.

Reference numerals: 1. a case; 2. a crushing mechanism; 21. a motor; 22. a driving wheel; 23. a belt; 24. a drive gear; 25. a driven gear; 26. a first snap post; 27. a second snap post; 3. a mixing mechanism; 31. a follower wheel; 32. a stirrer; 4. a filter plate; 5. a feed hopper; 6. a first inclined plate; 7. a drop port; 8. a first receiving bin; 9. a second receiving bin; 10. a slip plate; 11. a locking assembly; 111. a slip groove; 112. a locking screw; 113. a locking backing plate; 114. scale marks; 115. a double orifice plate; 12. a housing; 13. a transfer structure; 131. a ball; 14. a vibration assembly; 15. a spring plate; 16. an elastic member; 17. a buffer plate; 18. a weighing assembly; 181. a display screen; 182. a bearing plate; 183. an electronic scale; 19. a valve; 40. a transfer assembly; 401. a slide block; 402. a slide rail; 403. an electric telescopic rod; 41. a second inclined plate; 42. a vibrator; 43. a falling channel; 44. a cross bar.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-8.

The embodiment of the utility model discloses a raw material mixing device for producing and processing plum juice. Referring to fig. 1 and 3, the raw material mixing device for producing and processing the plum syrup includes a case 1, a crushing mechanism 2, a mixing mechanism 3, a filter plate 4, a feed hopper 5 located at the top of the case 1, and a first inclined plate 6 welded and fixed inside the case 1. The crushing mechanism 2, the mixing mechanism 3 and the filter plates 4 are located in the housing 1 and are in turn distributed in a direction away from the feed hopper 5. The feeding funnel 5 is located at one side of the top of the box body 1, the cross section of a discharge hole of the feeding funnel 5 can be round or rectangular, and the embodiment of the utility model adopts the feeding funnel 5 with the rectangular cross section of the discharge hole. The first inclined plate 6 is inclined towards a direction away from the feeding funnel 5, and one end of the first inclined plate, which is close to the feeding funnel 5, is located below the discharge hole of the feeding funnel 5, so that the plum juice raw material can fall on the first inclined plate 6 after being discharged from the feeding funnel 5. The first inclined plate 6 is provided with a drop-off opening 7. A first material receiving box 8 is slidably arranged in the box body 1. The first receiving box 8 is located between the first inclined plate 6 and the crushing mechanism 2 and is in communication with the drop opening 7. A falling channel 43 for the raw materials of the smoked plum to slide down is arranged between the end part of the first inclined plate 6 and the inner wall of the box body 1.

When the raw materials of the plum juice are mixed, the raw materials of the plum juice are firstly put into the box body 1 through the feeding funnel 5, and the raw materials of the plum juice fall on the first inclined plate 6 from the discharge hole of the feeding funnel 5 and move along the inclined direction of the first inclined plate 6. When the dark plum or hawthorn fruit in the raw material of the dark plum or hawthorn fruit moves to the falling opening 7 on the first inclined plate 6, the individual smaller than the falling opening 7 in the raw material of the dark plum or hawthorn fruit falls into the first material receiving box 8 from the falling opening 7, and the individual larger than the falling opening 7 in the raw material of the dark plum or hawthorn fruit jumps the falling opening 7 and moves to the falling channel 43 to reach the crushing mechanism 2. Then the screened raw materials of the plum juice are subjected to shell breaking and crushing through the crushing mechanism 2, the crushed raw materials of the plum juice are fully mixed through the mixing mechanism 3, and then liquid components in the raw materials of the plum juice are filtered and collected through the filter plate 4.

Referring to fig. 3 and 4, the first inclined plate 6 is provided with a cover 12, the cover 12 is welded to the inner wall of the case 1, and the cover 12 is disposed at a side of the drop port 7 near the feed hopper 5. The end surface of the housing 12 near the first inclined plate 6 may be a plane or a curved surface, and the embodiment of the utility model adopts the housing 12 with the end surface near the first inclined plate 6 being a curved surface. A plurality of arc-shaped channels are arranged on the end face, close to the first inclined plate 6, of the housing 12 in parallel, and the length direction of each arc-shaped channel is consistent with the inclined direction of the first inclined plate 6. The movement direction of the raw materials of the plum juice is consistent with the inclination direction of the first inclined plate 6 under the common limitation of the first inclined plate 6 and the cover 12.

Referring to fig. 3, 4 and 5, the first inclined plate 6 is mounted with a vibration assembly 14. The vibration assembly 14 includes a spring plate 15, an elastic member 16, and a vibrator 42. The spring plate 15 and the elastic member 16 are located between the housing 12 and the first inclined plate 6, and the elastic member 16 may be an air bag or a spring, and the embodiment of the present utility model adopts a spring as the elastic member 16 and the spring is provided in plurality. The springs are uniformly distributed on one surface of the first inclined plate 6 close to the feeding funnel 5, and are positioned on one side of the falling opening 7 close to the feeding funnel 5. One end of the spring is fixedly mounted on the first inclined plate 6 and the other end is fixedly mounted on the spring plate 15. The vibrator 42 is fixedly mounted on the side of the first inclined plate 6 remote from the feed hopper 5 and on the side of the drop port 7 close to the feed hopper 5. In order to prevent the raw materials of the plum juice from falling into the gap between the spring plate 15 and the first inclined plate 6 in the process of falling onto the spring plate 15 from the feeding funnel 5, a buffer plate 17 is movably arranged on one side of the discharge port of the feeding funnel 5 away from the housing 12 through a hinge, and the buffer plate 17 can be rectangular or trapezoidal, and the embodiment of the utility model adopts a trapezoid shape. The shorter straight edge of the buffer plate 17 is connected with the discharge port of the feed hopper 5, and the longer straight edge is lapped on the spring plate 15.

In order to be able to adjust the size of the drop opening 7, referring to fig. 3 and 5, the first inclined plate 6 is provided with a sliding plate 10 sliding on the end surface close to the feed hopper 5. The sliding plate 10 is positioned at one side of the falling opening 7 away from the feed hopper 5, and the sliding direction of the sliding plate 10 is consistent with the tilting direction of the first tilting plate 6. The sliding plate 10 can be trapezoid, rectangle or the like, and the rectangular sliding plate 10 is adopted in the embodiment of the utility model. The lateral wall of the sliding plate 10 is fixedly adhered with a cross bar 44, the box body 1 is provided with a sliding groove 111 matched with the cross bar 44, and the length direction of the sliding groove 111 is consistent with the sliding direction of the sliding plate 10. The cross bar 44 is provided through the sliding groove 111. The case 1 is provided with graduation marks 114 on one side of the sliding groove 111 so that the sliding distance of the sliding plate 10 can be accurately controlled.

Referring to fig. 2, the crossbar 44 is provided with a locking assembly 11. The locking assembly 11 comprises a double-hole plate 115 fixedly sleeved on the cross bar 44, a locking screw 112 threaded through the double-hole plate 115 and a locking base plate 113 fixedly adhered to the box body 1. The locking pad 113 may be an asbestos plate or a rubber plate, and the present embodiment employs a rubber plate. When the sliding plate 10 needs to be locked, the locking screw 112 only needs to be turned, so that the end of the locking screw 112 abuts against the locking base plate 113.

Referring to fig. 6, a transfer structure 13 is provided at one end of the sliding plate 10 near the drop port 7, and the transfer structure 13 is located at one side of the sliding plate 10 near the housing 12. The transmission structure 13 may be rounded or may be balls 131, and the balls 131 are used in the embodiment of the present utility model. The balls 131 are movably embedded in the edges of the rectangular sliding plate 10, which are close to the cover shell 12, so that the plum juice raw material with the size larger than that of the falling opening 7 can smoothly and quickly jump over the falling opening 7.

The sliding plate 10 is moved to adjust the size of the falling opening 7, and the falling opening is locked and fixed through the locking assembly 11 after being adjusted to a proper size. When the raw material of the sour plum is fed from the feed hopper 5, the raw material of the sour plum falls from the discharge port of the feed hopper 5 onto the spring plate 15 provided on the first slope. At this time, the vibrator 42 is turned on to drive the first inclined plate 6 to vibrate, and the vibration effect is amplified by the spring plate 15 and the elastic member 16, so that the raw material of the plum juice rapidly slides down to the falling opening 7. At this time, the individual smaller than the size of the drop port 7, such as dark plum or hawthorn, in the raw material of the plum soup, falls into the first receiving box 8, and the individual larger than the size of the drop port 7 jumps over the drop port 7 through the transfer structure 13 on the sliding plate 10.

Referring to fig. 3 and 7, a weighing assembly 18 is provided within the housing 1, the weighing assembly 18 being located between the first receiving bin 8 and the crushing mechanism 2, the weighing assembly 18 comprising a carrier plate 182, an electronic scale 183 and a display screen 181. The bearing plate 182 is movably arranged on the inner wall of the box body 1, which is close to the falling channel 43, through the hinge piece, the electronic scale 183 is fixedly arranged on the bearing plate 182, and the display screen 181 is arranged on the outer surface of the box body 1, so that the weight of the plum juice raw material on the electronic scale 183 and the weight of the preset plum juice raw material can be read. A valve 19 is arranged at the discharge port of the feed hopper 5 of the box body 1, and the valve 19 is electrically connected with an electronic scale 183.

Referring to fig. 3 and 7, a second inclined plate 41 is disposed in the case 1, the second inclined plate 41 is located between the first receiving box 8 and the electronic scale 183, one end of which is fixedly installed on the inner wall of the case 1 near the falling channel 43, and the other end of which is inclined to be directed toward the electronic scale 183. A transfer assembly 40 is arranged in the box 1, the transfer assembly 40 is positioned between the bearing plate 182 and the crushing mechanism 2, and the transfer assembly 40 comprises two sliding rails 402, two sliding blocks 401 and two groups of electric telescopic rods 403. Two slide rails 402 are fixedly arranged on one surface, far away from the electronic scale 183, of the bearing plate 182 at intervals, a sliding block 401 is slidably arranged on the slide rails 402, one end of an electric telescopic rod 403 is hinged with the sliding block 401, and the other end of the electric telescopic rod is hinged with the inner wall, close to the falling channel 43, of the box body 1.

Firstly, the weight of a certain required plum juice raw material is preset on a display screen 181, then the plum juice raw material falls onto an electronic scale 183 through a falling channel 43 and a second inclined plate 41, the electronic scale 183 weighs the plum juice raw material falling onto a weighing assembly 18 at any time, when the weight reaches the preset weight, the weighing assembly 18 controls a valve 19 at a feeding funnel 5 through electric connection, so that the valve 19 is closed immediately, the feeding of the feeding funnel 5 is stopped, and the accurate proportioning of the plum juice raw material is realized. The transfer assembly 40 is then activated and the extended end of the electric telescopic rod 403 is retracted, so that the weighing assembly 18 is tilted, and the raw plum soup material on the weighing assembly 18 will move in the tilting direction and drop into the crushing mechanism 2.

Referring to fig. 3 and 8, the crushing mechanism 2 includes a motor 21, a driving gear 24, a driven gear 25, a first engagement post 26, and a second engagement post 27. The first engagement post 26 and the second engagement post 27 are movably erected inside the case 1 through a rotating shaft, the rotating shaft penetrates through two opposite side walls of the case 1, and the first engagement post 26 and the second engagement post 27 are engaged with each other and arranged. The driving gear 24 and the driven gear 25 are arranged on the side wall of the box body 1 close to the falling channel 43, the driving gear 24 is fixedly arranged on the rotating shaft of the first engagement post 26, the driven gear 25 is fixedly arranged on the rotating shaft of the second engagement post 27, and the driving gear 24 and the driven gear 25 are engaged. The motor 21 is disposed on a side wall of the case 1 far from the falling channel 43, and the motor 21 is fixedly connected to the rotation shaft of the first engagement post 26, so that the motor 21 can drive the first engagement post 26 to rotate.

Referring to fig. 3 and 8, the tank 1 is provided with a mixing mechanism 3, the mixing mechanism 3 being located on the side of the crushing mechanism 2 remote from the feed hopper 5. The mixing mechanism 3 includes a stirrer 32, a driving wheel 22, a belt 23, and a follower wheel 31. The stirrer 32 is erected in the case 1 by a rotating shaft, and the rotating shaft of the stirrer 32 penetrates through two opposite side walls of the case 1. The driving wheel 22 is provided on a side wall of the case 1 remote from the falling passage 43, and the driving wheel 22 is fixedly mounted on the rotation shaft of the second engagement post 27. The follower wheel 31 is provided on a side wall of the case 1 remote from the falling passage 43, and the follower wheel 31 is fixedly mounted on a rotation shaft of the agitator 32. The belt 23 is sleeved between the follower wheel 31 and the driving wheel 22, and when the driving wheel 22 rotates, the belt 23 drives the follower wheel 31 to rotate. The filter plate 4 is movably arranged in the box body 1, the filter plate 4 can be a net-shaped filter plate 4 or a hole-shaped filter plate 4, and the filter plate 4 combining holes and nets is adopted in the embodiment of the utility model. The filter plate 4 may be made of metal or plastic, and the metal filter plate 4 is adopted in the embodiment of the utility model. The filter plate 4 is located on the side of the mixing mechanism 3 remote from the feed hopper 5. The inner wall of the circumference of the box body 1 is provided with a clamping groove, the filter plate 4 can be erected in the clamping groove, and the side wall of the box body 1 is provided with an opening for extracting the filter plate 4. The box 1 is located the filter 4 and is kept away from the side slip of feed hopper 5 and is provided with second receipts workbin 9, has also offered the opening that is used for taking out second receipts workbin 9 on the lateral wall of box 1.

The motor 21 drives the first engaging post 26 to rotate, the rotating direction faces the direction close to the second engaging post 27, so that the driving gear 24 fixed on the rotating shaft of the first engaging post 26 rotates, and then the driven gear 25 engaged with the driving gear is driven to rotate, the driven gear 25 drives the second engaging post 27 to rotate towards the direction of the first engaging post 26, and the raw materials of the plum juice falling down to the crushing mechanism 2 can be crushed by the two engaging posts. When the motor 21 drives the first engaging post 26 to rotate, the driving wheel 22 fixedly connected to the rotating shaft of the second engaging post 27 rotates, and then the belt 23 drives the following wheel 31 to rotate. The following wheel 31 drives the stirrer 32 to rotate together, so that the raw materials of the plum soup falling into the mixing mechanism 3 are mixed. The well-mixed raw materials of the plum soup fall down to the filter plate 4 so that the resulting liquid components are filtered into the second receiving tank 9.

The embodiment of the utility model relates to a raw material mixing device for producing and processing plum syrup, which is implemented according to the following principle: the sliding plate 10 is moved first to adjust the size of the drop opening 7, and when the size of the drop opening 7 is adjusted to a proper size, the locking assembly 11 is used for fixing locking. Then, the raw materials of the plum juice begin to be discharged from the feeding funnel 5, the raw materials of the plum juice fall from the feeding funnel 5 onto the spring plate 15 arranged on the first inclined plate 6, and the vibrator 42 is started, so that the raw materials of the plum juice continuously move to the falling opening 7 on the spring plate 15. At this time, the raw materials of the plum soup with individual size smaller than the size of the falling opening 7 fall into the first material receiving box 8, and the raw materials of the plum soup with individual size larger than the size of the falling opening 7 jump over the falling opening 7 through the transmission structure 13 on the sliding plate 10, and then move to the falling channel 43 for discharging.

Then, the raw material of the plum syrup falls onto the electronic scale 183 under the buffer action of the second inclined plate 41, and when the weight of the raw material of the plum syrup reaches the preset weight of the electronic scale 183, the electronic scale 183 transmits an electric signal to the valve 19 positioned at the discharge port of the feeding funnel 5 through the electric connection, so that the valve 19 is closed, and the feeding is stopped. The transfer assembly 40 is then activated and the extended end of the electric telescopic rod 403 is retracted, so that the support plate 182 and the electronic scale 183 fixedly arranged on the support plate 182 are tilted, and the raw material of the plum syrup on the electronic scale 183 is dropped into the crushing mechanism 2.

And then the motor 21 is started, and the motor 21 drives the first engagement post 26 to rotate and the second engagement post 27 to rotate in an engaged manner, so that the raw material of the plum juice falling into the crushing mechanism 2 can be crushed by the two engagement posts. When the motor 21 drives the first engaging post 26 to rotate, the driving wheel 22 fixedly connected to the rotating shaft of the second engaging post 27 rotates, and the rotating driving wheel 22 drives the following wheel 31 to rotate through the belt 23, so as to drive the stirrer 32 to rotate together, thereby mixing the raw materials of the plum syrup falling into the mixing mechanism 3. The well-mixed raw materials of the plum soup fall down to the filter plate 4 so that the resulting liquid components are filtered into the second receiving tank 9.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (8)

1. The utility model provides a raw materials mixing arrangement is used in plum blossom soup production and processing, includes box (1), crushing mechanism (2), mixing mechanism (3) and filter (4), its characterized in that: the utility model discloses a feeding hopper, including box (1), feed hopper (5), box (1) top is provided with feed hopper (5), the slope of box (1) is provided with first hang plate (6), first hang plate (6) slope set up in feed hopper (5) with between crushing mechanism (2), drop mouth (7) have been seted up on first hang plate (6), be provided with first receipts workbin (8) in box (1), first receipts workbin (8) are located first hang plate (6) are kept away from one side of feed hopper (5), just drop mouth (7) with first receipts workbin (8) intercommunication.

2. The raw material mixing device for producing and processing the plum juice according to claim 1, wherein: the utility model discloses a feeding hopper, including first inclined plate (6), feed hopper (5), box (1) and box, first inclined plate (6) are gone up in falling mouth (7) department slides and is provided with sliding plate (10), sliding plate (10) are located first inclined plate (6) are close to one side of feed hopper (5), the slip direction of sliding plate (10) with the incline direction of first inclined plate (6) is unanimous, be used for the locking on box (1) locking subassembly (11) of sliding plate (10).

3. The raw material mixing device for producing and processing the plum juice according to claim 2, wherein: the novel feeding hopper is characterized in that a housing (12) is arranged in the box body (1), the housing (12) is located between the first inclined plate (6) and the feeding hopper (5), and the housing (12) is parallel to the first inclined plate (6).

4. The raw material mixing device for producing and processing the plum juice according to claim 3, wherein: one end of the sliding plate (10) close to the feeding funnel (5) is provided with a transmission structure (13), and the transmission structure (13) is positioned on one side of the sliding plate (10) close to the housing (12).

5. The raw material mixing device for producing and processing the plum juice according to claim 4, wherein: and a vibration assembly (14) is arranged on the first inclined plate (6), and the vibration assembly (14) is positioned at one side of the falling opening (7) close to the feeding funnel (5).

6. The raw material mixing device for producing and processing the plum juice according to claim 5, wherein: the vibration assembly (14) comprises a spring plate (15) and an elastic piece (16), the spring plate (15) is connected to one side, close to the housing (12), of the first inclined plate (6) through the elastic piece (16), a buffer plate (17) is further arranged in the box body (1), and the buffer plate (17) is obliquely arranged between the spring plate (15) and the feeding hopper (5).

7. The raw material mixing device for producing and processing the plum juice according to claim 1, wherein: be provided with in box (1) weighing assembly (18), weighing assembly (18) are located first hang plate (6) with between broken mechanism (2), on box (1) in discharge gate department of feed hopper (5) is provided with valve (19), valve (19) with weighing assembly (18) electricity is connected, be provided with in box (1) be used for with raw materials of weighing assembly (18) department shifts to transfer subassembly (40) of broken mechanism (2) department.

8. The raw material mixing device for producing and processing the plum juice according to claim 7, wherein: the second inclined plate (41) is arranged in the box body (1), and the second inclined plate (41) is fixedly arranged between the first material receiving box (8) and the weighing assembly (18) and is obliquely arranged towards the weighing assembly (18).