CN114732077B - Automatic production machine for sugarcoated haws - Google Patents

Abstract

The application discloses an automatic sugarcoated haws production machine, which comprises a sugar furnace, a sugar dipping mechanism and an automatic feeding mechanism, wherein the sugar furnace is a cavity with an opening at the upper end and used for accommodating syrup; the sugar dipping mechanism comprises a material guide piece and a track piece which is approximately in a U-shaped structure, wherein the track piece is provided with a track groove which can partially enter the containing cavity, and a material inlet and a material outlet which can allow haws to enter and exit from the track groove; the material guide piece is used for stirring the haws in the track groove and pushing the haws entering the track groove out of the discharge hole; the automatic feeding mechanism is used for conveying hawthorns to the feeding port; the application provides an automatic production machine of sugarcoated haws, which aims to improve the qualification rate of the haws in strings, reduce the manual contact (food) and improve the sanitary grade.

Description

Automatic production machine for sugarcoated haws

Technical Field

The application relates to the technical field of food processing, in particular to an automatic sugarcoated haw production machine.

Background

The sugarcoated haws are also called as sugar piers and sugar balls. The processing method comprises the steps of fruit screening, sugar boiling, sugar dipping, fruit stringing, cooling and the like, wherein in the processing procedure of taking hawthorns as wild fruits, generally, the cleaned hawthorns are put into the boiling syrup for rolling for one circle after being penetrated by bamboo sticks, and sesame is scattered on the hawthorns wrapped with the syrup and taken down after cooling.

However, the existing sugarcoated haws on a stick production machine has the problems that: if the bamboo sticks for the haws are well signed, then the syrup is put in, the haws are easy to fall out of the bamboo sticks in the turning process, the qualification rate of the strings is low, in addition, the existing sugarcoated haws production machine mostly needs manual intervention, and the degree of automation is low.

Disclosure of Invention

The application mainly aims at solving the problems and provides an automatic sugarcoated haw production machine which aims at improving the qualification rate of haw strings, reducing the manual contact (food) and improving the sanitary grade.

In order to achieve the above object, the present application provides an automatic sugarcoated haw production machine, comprising:

the sugar furnace is a cavity with an opening at the upper end and used for accommodating syrup;

the sugar dipping mechanism comprises a material guide piece and a track piece which is approximately in a U-shaped structure, wherein the track piece is provided with a track groove which can partially enter the containing cavity, and a material inlet and a material outlet which can allow haws to enter and exit from the track groove; the material guide piece is used for stirring the haws in the track groove and pushing the haws entering the track groove out of the discharge hole; and

the automatic feeding mechanism is used for conveying haws to the feed inlet.

Further, the sugar furnace further comprises a lifting mechanism, wherein the lifting mechanism is used for driving the sugar furnace to ascend so that the track groove enters the containing cavity.

Further, the lifting mechanism is a scissor fork type lifting mechanism.

Further, automatic feeding mechanism includes oblique conveyer belt and drive the conveyer of oblique conveyer belt transport material, be provided with flexible horizontal bar on the oblique conveyer belt, oblique conveyer belt slope sets up, the upper end of oblique conveyer belt with the feed inlet links up, the lower extreme is provided with the hawthorn and send the workbin, the hawthorn send the workbin to have the cavity of storing the hawthorn, just the hawthorn send the workbin to be provided with the lower opening and the upper opening that hold partial oblique conveyer belt to wear to establish, the size of lower opening is less than the size of hawthorn and is less than flexible horizontal bar and is in the length that extends on the oblique conveyer belt.

Further, a blocking cover for covering part of the upper opening is arranged at the upper end of the haw feeding box.

Further, the baffle cover is hinged with the hawthorn feeding box.

Further, the bottom plate of the haw feeding box is obliquely arranged towards the lower opening, and one side plate of the haw feeding box is attached to the inner side of the oblique conveying belt.

Further, still include the installation the conveyer with the frame of hawthorn send the workbin, be equipped with the adjustment groove in the frame, the conveyer includes the bearing frame and connects the transmission shaft of oblique conveyer belt, the transmission shaft passes through the bearing frame locates the adjustment groove, wherein the bearing frame is adjustable to be fixed on the adjustment groove.

Further, the rail piece comprises at least four steel wires and a steel wire fixing piece for fixing at least the four steel wires, and the at least four steel wires form a U-shaped rail.

Further, the guide piece comprises a motor and a rotating shaft connected with the output end of the motor, a plurality of groups of connecting plates are arranged on the shaft wall of the rotating shaft, the plurality of groups of connecting plates form an annular installation part for installing a plurality of rotating wheels, a plurality of guide rods are distributed on the periphery of the rotating wheels, and a stirring part extending into the track groove and stirring the hawthorn to slide out of the track groove is arranged on the guide rods.

Compared with the prior art, the automatic sugar-coated haws production machine provided by the application has the advantages that haws are conveyed to the track piece with the U-shaped structure, when the haws fall into the containing cavity with syrup, the haws slide and turn over in the track groove with the U-shaped structure under the stirring of the material guiding piece, and when the haws dipped with sugar come out from the containing cavity, the excessive syrup falls back into the containing cavity again, so that the waste of the syrup is avoided, and the improvement of the sanitary grade is facilitated.

Drawings

FIG. 1 shows a perspective view of an automatic sugarcoated haw production machine according to the present application.

Fig. 2 is a schematic perspective view of an automatic feeding mechanism.

Fig. 3 is a cross-sectional view of the connection between the haw feeding box and the inclined conveyor belt.

FIG. 4 is a schematic perspective view of a sugar dipping mechanism.

FIG. 5 is a front view of a mechanism for dipping candy according to the present disclosure.

Fig. 6 is a schematic structural view of a rail member according to a first embodiment of the present disclosure.

Fig. 7 is a schematic structural view of a rail member according to a second embodiment of the present disclosure.

FIG. 8 is a schematic diagram of the connection structure of the sugar furnace and the lifting mechanism.

Fig. 9 is a schematic perspective view of the lifting mechanism.

Reference numerals shown in the drawings:

1. a frame; 101. an adjustment tank;

100. an automatic feeding mechanism; 10. an inclined conveyor belt; 11. a conveyor; 12. a cross bar; 13. feeding the hawthorns into a feed box; 14. a shield; 15. a bottom plate; 16. a side plate; 110. a bearing seat; 111. a transmission shaft; 130. an upper opening; 131. a lower opening;

200. a sugar dipping mechanism; 20. a track member; 21. a material guide; 22. a wire fixing member; 201. a track groove; 202. a feed inlet; 203. a discharge port; 204. a steel wire; 205. a through hole; 210. a rotating wheel; 211. a motor; 212. a material guide rod; 213. a toggle part; 214. a rotating shaft; 215. and (5) connecting a plate.

300. A lifting mechanism; 30. an upper connecting plate; 31. a lower connecting plate; 32. arm support; 33. a travel bar; 34. a screw; 35. an upper mounting plate; 36. a lower mounting plate; 37. a guide block; 310. a travel hole;

400. a sugar furnace; 401. a cavity; 500. a heating device.

Detailed Description

The following detailed description of the present application, taken in conjunction with the accompanying drawings, will clearly and fully describe the technical solutions of the embodiments of the present application, it being evident that the described embodiments are only some, but not all, embodiments of the present application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When a component is considered to be "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

The technical scheme of the present disclosure will be described below by taking hawthorn and an automatic sugarcoated haw production machine disclosed in the present application as examples. Of course, the automatic production machine of the application is not limited to haws, but also includes strawberries, bananas, oranges, candied jujubes, cashew nuts, walnuts and the like.

According to an example of the present disclosure, as can be seen from the perspective view of the sugar beet armyworm automatic production machine shown in fig. 1 to 9, the sugar beet armyworm automatic production machine includes an automatic feeding mechanism 100, a sugar dipping mechanism 200, a lifting mechanism 300, and a sugar furnace 400.

In this embodiment, the sugar furnace 400 is a cavity 401 having an upper end opening and containing syrup, and a heating device 500 is provided at a lower end thereof. Before production, adding sugar water, sugarcane juice, fruit juice or other plant juice into stirring tank or directly into stirring cavity 401, and decocting or other techniques to obtain viscous solution containing high concentration sugar.

After syrup is cooked, the haw is transported to the sugar dipping mechanism 200 by the automatic feeding mechanism 100, and the composition and connection relationship of the automatic feeding mechanism 100 will be described in detail with reference to specific examples.

According to the example of the present disclosure, as can be seen from the perspective views of the automatic haw feeding machine 100 shown in fig. 2-3, the automatic haw feeding machine 100 includes a diagonal conveyor 10 and a conveyor 11 driving the diagonal conveyor 10 to convey haws, the diagonal conveyor 10 is used as a guide belt for conveying haws by providing flexible cross bars 12, when the diagonal conveyor 10 is obliquely arranged, the haws in a bottom position are lifted to a high position, and the haws can enter a haws feeding box 13 by the cross bars 12 of flexible material, in particular, the haws feeding box 13 is arranged at the lower end of the diagonal conveyor 10 and has a cavity therein, and an operator can throw haws into the cavity so that the flexible cross bars 12 on the diagonal conveyor 10 convey haws in the cavity. The haw feed box 13 is provided with an upper opening 130 and a lower opening 131, the upper opening 130 is used for conveying the haw out of the flexible horizontal bar 12 and putting the haw into the cavity, the lower opening 131 is used for the inclined conveyor belt 10 and the flexible horizontal bar 12 to enter the cavity, the size of the lower opening 131 is designed to be smaller than the size of the haw and the length of the horizontal bar 12 extending on the inclined conveyor belt, so that the haw stored in the cavity is prevented from falling out of the lower opening 131, and when the horizontal bar 12 touches the haw feed box, the horizontal bar 12 is deformed to enter the cavity due to the characteristic of the flexible material and is restored to the original state after entering the cavity; the size of the upper opening 130 is larger than that of the crataegus pinnatifida so that the crataegus pinnatifida can be removed.

Preferably, the hawthorn in the cavity is ejected at the moment when the cross bar 12 deforms to return to the initial state, and a blocking cover 14 covering the upper opening 130 of the part is arranged at the upper end of the hawthorn feed box 13, and the blocking cover 14 can be arranged at the upper opening 130 in a direct covering manner or can be covered on the upper opening 130 in a movable hinging manner with the hawthorn feed box 13.

Preferably, in order to automatically collect the haws in the haws feed box 13 at the position of the lower opening 131, the haws feed box 13 of the present embodiment is inclined, and the bottom plate 15 thereof faces the lower opening. One side plate 16 of the hawthorn feed box 13 is attached to the inner side of the inclined conveyor belt 10 to increase the feeding strength of the inclined conveyor belt 10 for improving the hawthorn.

In some embodiments, the inclined conveyor belt 10 on the driving shaft 111 may be set according to the number of haws to be conveyed.

The composition and connection of the sugar-dipping mechanism 200 will be described in detail with reference to specific examples.

As can be seen from the perspective views of the dipping mechanism 200 shown in fig. 4-7, the haw dipping mechanism 200 comprises a rail member 20 and a guide member 21, wherein the rail member 20 has a rail groove 201 and a feed port 202 and a discharge port 203 for receiving haws into and out of the rail groove 201; the material guiding piece 21 stretches into the track groove 201, and the hawthorn entering the track groove 201 is pushed out of the material outlet 203.

The application provides a schematic structural view of a first track member 20, the track member 20 comprises at least four steel wires 204, the steel wires 204 are bent into a U-shaped structure, wherein two steel wires 204 bent into the U-shaped structure are arranged up and down and concentric, as a first group, the other two steel wires 204 bent into the U-shaped structure are used as another group in the same way, the two groups of steel wires are arranged side by side through a steel wire fixing piece 22, a track groove 201 for containing hawthorns is formed, the bottom of the U-shaped structure track groove 201 is immersed into syrup in a cavity 401 of a sugar furnace 400, and in the process of removing hawthorns from the track groove 201, the excess syrup falls back into the sugar furnace 400 again, so waste is avoided, sanitation is kept, the hawthorns are dipped in the sugar furnace 400 through the steel wire tracks, contact surfaces can be reduced by the steel wires, and the hawthorns are convenient to use and clean.

The present application also provides a schematic structural view of a second rail member 20, as shown in fig. 7, wherein the rail member 20 is stamped from a steel sheet, and is also in a U-shaped structure, and the bottom of the rail groove 201 is provided with a through hole 205 for allowing syrup to be immersed therein.

With continued reference to fig. 4 and 5, the guide member 21 includes a rotating wheel 210 and a motor 211 for driving the rotating wheel 210 to rotate, the rotating wheel 210 is provided with a guide rod 212, the guide rod 212 is provided with a stirring portion 213 extending into the track groove 201 to stir the hawthorn to slide out of the track groove 201, and the stirring portion 213 has a fork structure. The material guiding member 21 further comprises a rotating shaft 214 connected with the output end of the motor 211, the rotating wheels 210 are bent into a ring by steel wires, the number of the rotating wheels is multiple, a plurality of material guiding rods 212 are uniformly arranged on the outer circle of each rotating wheel 210, the inner circles of the rotating wheels 210 are connected into a whole through a plurality of connecting plates 215, and the connecting plates 215 are arranged on the rotating shaft 214 and rotate along with the rotating shaft 214.

The composition and connection of the lifting mechanism 300 will be described in detail with reference to specific examples.

According to the example of the present disclosure, as can be seen from the three-dimensional structure of the lifting mechanism 300 shown in fig. 8 and 9, the lifting mechanism 300 is used for lifting the sugar furnace 400 during production, so that the track groove 201 with a partial U-shaped structure enters the accommodating cavity 401.

Specifically, the lifting mechanism 300 includes an upper mounting plate 35 and a lower mounting plate 36 for placing the sugar furnace 400, an upper connecting plate 30 and a lower connecting plate 31 are arranged between the upper mounting plate 35 and the lower mounting plate 36, two sets of arm supports 32 stacked in an 'X' -shape are arranged between the upper connecting plate 30 and the lower connecting plate 31, the upper end of one arm support 32 is rotationally connected with the upper connecting plate 30, the upper end of the other arm support 32 is movably connected with a travel hole 310 of the upper connecting plate 30, the lower end of the other arm support 32 is rotatably arranged on the lower connecting plate 31, the lower end of the other arm support 32 is movably arranged with a travel hole 310 of the lower connecting plate 30, the arm support 32 is movably arranged on the travel hole 310 through a travel rod 33, two guide blocks 37 are arranged on the lower mounting plate 36, a screw rod 34 is arranged in a penetrating way of one guide block 37 and the other guide block 37 in a bearing way, the screw rod 34 is also in penetrating way of the travel rod 33 in a threaded way, and the purpose of pushing can be achieved through a servo motor driving screw rod 34.

With continued reference to fig. 2, the machine frame 1 is further provided with a conveyor 11 and a haw feeding box 13, the machine frame 1 is provided with an adjusting groove 101, the conveyor 11 comprises a bearing seat 110 and a transmission shaft 111 connected with the inclined conveyor belt 10, the transmission shaft 111 is erected on the adjusting groove 101 through the bearing seat 110 and is adjustable to adjust the inclination angle of the inclined conveyor belt 10, and the position of the sugar dipping mechanism 200 can be adjusted.

The present application may be readily implemented by those skilled in the art upon reading the above detailed description. It should be understood that the application is not limited to such specific embodiments. On the basis of the disclosed embodiments, a person skilled in the art of basic can combine different technical features at will, so that different technical solutions are realized, and other technical solutions can be formed by combining additional functions in different forms. Accordingly, the scope of the application is limited only by the scope of the appended claims.

The foregoing description of the application has been presented for purposes of illustration and description, and is not intended to be limiting. Several simple deductions, modifications or substitutions may also be made by a person skilled in the art to which the application pertains, based on the idea of the application.

Claims (8)

1. An automatic sugarcoated haws production machine, comprising:

the sugar furnace is a cavity with an opening at the upper end and used for accommodating syrup;

the sugar dipping mechanism comprises a material guide piece and a track piece which is approximately in a U-shaped structure, wherein the track piece is provided with a track groove which can partially enter the containing cavity, and a material inlet and a material outlet which can allow haws to enter and exit from the track groove; the material guide piece is used for stirring the haws in the track groove and pushing the haws entering the track groove out of the discharge hole; and

the automatic feeding mechanism is used for conveying haws to the feed inlet;

the track piece comprises at least four steel wires and a steel wire fixing piece for fixing at least the four steel wires, and the at least four steel wires form a U-shaped track;

the guide piece comprises a motor and a rotating shaft connected with the output end of the motor, a plurality of groups of connecting plates are arranged on the shaft wall of the rotating shaft, the plurality of groups of connecting plates form an annular installation part for installing a plurality of rotating wheels, a plurality of guide rods are distributed on the periphery of the rotating wheels, and stirring parts extending into the track grooves and stirring the haws to slide out of the track grooves are arranged on the guide rods.

2. The automatic sugarcoated haws production machine according to claim 1, further comprising a lifting mechanism for driving the sugar furnace to rise so that the track groove enters the containing cavity.

3. The automatic sugarcoated haws production machine according to claim 2, wherein the lifting mechanism is a scissor lift mechanism.

4. The automatic candy bottle gourd production machine according to claim 1, wherein the automatic feeding mechanism comprises an inclined conveyor belt and a conveyor for driving the inclined conveyor belt to convey materials, a flexible cross bar is arranged on the inclined conveyor belt, the inclined conveyor belt is obliquely arranged, the upper end of the inclined conveyor belt is connected with the feeding hole, a hawthorn feeding box is arranged at the lower end of the inclined conveyor belt, the hawthorn feeding box is provided with a cavity for storing hawthorn, the hawthorn feeding box is provided with a lower opening and an upper opening, the lower opening is penetrated by the inclined conveyor belt, and the size of the lower opening is smaller than that of the hawthorn and the length of the flexible cross bar extending on the inclined conveyor belt.

5. The automatic sugarcoated haws production machine according to claim 4, wherein a cover for covering the upper opening of the haws feed box is provided at the upper end of the haws feed box.

6. The automatic sugarcoated haws production machine according to claim 5, wherein the shielding cover is hinged with the hawthorn feed box.

7. The automatic sugarcoated haws production machine according to claim 4, wherein the bottom plate of the haw feed box is inclined towards the lower opening, and a side plate of the haw feed box is attached to the inner side of the inclined conveyor belt.

8. The automatic candy bottle gourd production machine according to claim 4, further comprising a frame for mounting the conveyor and the haw feed box, wherein an adjusting groove is formed in the frame, the conveyor comprises a bearing seat and a transmission shaft connected with the inclined conveyor belt, the transmission shaft is arranged in the adjusting groove through the bearing seat, and the bearing seat is adjustably fixed on the adjusting groove.