CN220033179U - Automatic sugar-mixing feeding device for caramel treats - Google Patents

Abstract

The utility model belongs to the field of caramel treats processing devices, and discloses an automatic caramel treat feeding device which comprises a puffing module for frying embryo strips, a sugar mix module for mixing the embryo strips with sugar liquid, and a conveying unit for conveying the embryo strips from the puffing module to the sugar mix module, wherein the conveying unit comprises a first conveying mesh belt arranged right below a discharge end of the puffing module, a first lifting conveying belt arranged at the discharge end of the first conveying mesh belt, and a feeding module for conveying the embryo strips to the sugar mix module; the feeding module is positioned right below the output end of the first lifting conveyor belt, and the feeding end of the first lifting conveyor belt, the first conveying mesh belt, the discharging end of the first lifting conveyor belt and the feeding module are all provided with height intervals for scattering embryo strips; the scheme can realize the cooling and oil removal of the embryo strips during the period of conveying the embryo strips from the bulking machine to the sugar mixer, improve the sugar mixing quality of the embryo strips, and improve the loosening, taste and flavor of the caramel treats.

Description

Automatic sugar-mixing feeding device for caramel treats

Technical Field

The utility model relates to the field of caramel treats processing devices, in particular to an automatic caramel treats sugar mixing feeding device.

Background

The caramel treats is a popular snack, in the process of making the caramel treats, embryo strips made of flour are required to be fried, sugar liquid is added into a stack of embryo strips after the embryo strips are puffed, and stirring and mixing are carried out, so that the embryo strips have sweet taste, meanwhile, the embryo strips have viscosity and can be mutually bonded into blocks, oil liquid is adhered to the surface of the embryo strips output by a puffing machine, the temperature is higher, and when the embryo strips are mixed with sugar, the sugar liquid cannot adhere to and wrap the embryo strips due to the high temperature of the embryo strips and the oil liquid, so that the sugar mixing effect is poor, and the caramel treats are loose and have poor taste and taste.

Therefore, the scheme is characterized in that the cooling and oil removal of the embryo strips during the period of conveying the embryo strips from the bulking machine to the sugar mixer are realized, the sugar mixing quality of the embryo strips is improved, and the loosening, mouthfeel and taste of the caramel treats are improved.

Disclosure of Invention

The utility model aims to provide an automatic caramel treats sugar mixing feeding device, which realizes the cooling and oil removal of embryo strips during the period of conveying the embryo strips from a bulking machine to a sugar mixer, improves the sugar mixing quality of the embryo strips, and improves the loosening, taste and flavor of the caramel treats.

The technical scheme provided by the utility model is as follows: the caramel treats sugar mixing automatic feeding device comprises a puffing module for frying embryo strips, a sugar mixing module for mixing the embryo strips with sugar liquid, and a conveying unit for conveying the embryo strips from the puffing module to the sugar mixing module, wherein the conveying unit comprises a first conveying mesh belt arranged right below a discharge end of the puffing module, a first lifting conveying belt arranged at the discharge end of the first conveying mesh belt, and a feeding module for conveying the embryo strips to the sugar mixing module; the feeding module is located under the output end of the first lifting conveyor belt, and the feeding end of the first lifting conveyor belt is located at a height interval between the first conveying mesh belt, the discharging end of the first lifting conveyor belt and the feeding module, and the height interval is used for scattering embryo strips.

In the caramel treats sugar mixing automatic feeding device, an oil collecting disc is arranged right below the first conveying mesh belt, and the oil collecting disc extends to the side face of the lifting conveying belt along the length direction of the first conveying mesh belt.

In the caramel treats automatic feeding device, an oil return plate is arranged between the discharge end of the first conveying mesh belt and the lifting conveying belt, extends obliquely towards the oil collecting disc and is located right below the discharge end of the first conveying mesh belt.

In the caramel treats sugar mixing automatic feeding device, the first conveying mesh belt is obliquely arranged, the output end of the first conveying mesh belt is higher than the input end, and ribs which are arranged at intervals along the length direction of the first conveying mesh belt are arranged on the outer side surface of the first conveying mesh belt.

In the caramel treats automatic feeding device, the conveying unit further comprises a second lifting conveying belt, a storage tank arranged at the discharge end of the first lifting conveying belt, and a rake arranged in the storage tank and used for turning blank strips; the one end of stock chest is equipped with uncovered, uncovered lower border and the upper surface clearance fit of second promotion conveyer belt, the discharge end of second promotion conveyer belt is located the feeding module directly over.

In the caramel treats automatic feeding device, the bottom of the storage tank is provided with the wavy part extending to the open edge, and the edge side of the wavy part extends downwards in a slanting way and is in clearance fit with the upper surface of the second lifting conveying belt.

In the caramel treats automatic feeding device, the feeding module comprises a vibrating conveyor for receiving the embryo strips on the first lifting conveyor belt; the feeding end of the sugar mixing module is positioned at the top of the sugar mixing module; the discharging end of the vibrating conveyor is positioned at the upper side of the sugar mixing module and is correspondingly arranged with the feeding end of the sugar mixing module.

In the caramel treats sugar mixing automatic feeding device, the sugar mixing module comprises a sugar mixer positioned at the lower side of the vibration conveying belt and a feeding pipe which is arranged right above the sugar mixer and used for conveying sugar liquid to the sugar mixing module; the top of the sugar mixer is in open arrangement, and the discharge end of the vibrating conveyor is positioned at one side of the sugar mixer and is arranged at intervals; and a guide groove extending into the sugar mixer is arranged right below the discharge end of the vibrating conveyor.

In the caramel treats sugar mixing automatic feeding device, the discharging end of the sugar mixing module is positioned at the bottom of the sugar mixing module; the feeding module further comprises a climbing conveyor belt for receiving the embryo strips on the first lifting conveyor belt, and the discharge end of the climbing conveyor belt extends to the feeding end of the vibrating conveyor.

In the caramel treats automatic feeding device, the feeding module further comprises a hopper for collecting the embryo strips on the first lifting conveyor belt; the hopper is located right above the feeding end of the climbing conveyor belt.

After the technical scheme is adopted, the utility model has the following beneficial effects:

according to the scheme, the first conveying mesh belt, the first lifting conveying belt and the feeding module are arranged and matched with each other, the blank strips of the puffing module are conveyed to the sugar mixing module in sequence, the first conveying mesh belt is an endless belt of a mesh structure, a plurality of dense small holes are formed, the small holes play the roles of ventilation and heat dissipation and oil dripping on the surface of the blank strips, the blank strips and the oil are effectively separated, preliminary heat dissipation is carried out, the blank strips fall onto the feeding end of the first lifting conveying belt from the discharging end of the first conveying mesh belt, the discharging end of the first lifting conveying belt falls onto the feeding module, the blank strips are conveyed to the sugar mixing module through the feeding module, the blank strips are subjected to scattering at the feeding end and the discharging end of the first lifting conveying belt respectively, the blank strips are separated in a four-scattering mode, the contact area of the blank strips and the air is increased, the heat dissipation capacity and the heat dissipation efficiency are improved, the blank strips are continuously and rapidly fallen under the action of gravity, the relative flow velocity with the peripheral airflow of the blank strips is improved, the heat dissipation capacity is accelerated, the heat is taken away from the blank strips rapidly, the quality of the machine is improved, the quality of the heat dissipation is improved, the quality of the blank strips is improved, the quality of the machine is improved, and the quality of a machine is used for mixing the heat, and a machine is used for mixing the heat.

Drawings

FIG. 1 is a schematic layout of an automated caramel treats feeding apparatus of example 1 of the present utility model;

FIG. 2 is a schematic illustration of the height spacing of example 1 of the present utility model;

FIG. 3 is a schematic illustration of the cooperation of the first conveyor belt and the second conveyor belt of example 1 of the present utility model;

FIG. 4 is a side cross-sectional view of a wave portion of embodiment 1 of the present utility model;

FIG. 5 is a schematic structural view of a sugar module according to example 1 of the present utility model.

Reference numerals: 1. a puffing module; 2. a first conveyor belt; 3. a first lifting conveyor belt; 4. a storage tank; 5. rakes; 6. a second lifting conveyor belt; 7. a feed module; 8. a sugar mixing module;

11. a frying pool; 12. a second conveyor belt; 21. an oil return plate; 22. an oil collecting tray; 41. a wave part;

71. a hopper; 72. climbing a conveyer belt; 721. a supporting plate; 73. a vibrating conveyor; 74. a guide groove;

81. a feed pipe; 811. a sugar outlet hole; 82. a sugar mixer; 821. a discharge port; 822. a stirring shaft; 8221. and (3) a blade.

Detailed Description

The technical scheme of the present utility model will be described in further detail below with reference to the specific embodiments, but the present utility model is not limited thereto.

Example 1:

as shown in fig. 1-5, the caramel treats automatic sugar stirring feeding device comprises a puffing module 1 for frying embryo strips, a sugar stirring module 8 for mixing the embryo strips with sugar liquid, and a conveying unit for conveying the embryo strips from the puffing module 1 to the sugar stirring module 8, wherein the conveying unit comprises a first conveying mesh belt 2 arranged right below a discharge end of the puffing module 1, a first lifting conveying belt 3 arranged at the discharge end of the first conveying mesh belt 2, and a feeding module 7 for conveying the embryo strips to the sugar stirring module 8; the feeding module 7 is located under the output end of the first lifting conveyor belt 3, and the feeding end of the first lifting conveyor belt 3 is spaced from the first conveying mesh belt 2, and the height of the blank strips scattered between the discharging end of the first lifting conveyor belt 3 and the feeding module 7.

The principle of implementation is, through setting up first transport guipure 2, first promotion conveyer belt 3 and feed module 7, the three mutually support, and carry the embryo strip of bulking module 1 to mixing sugar module 8 in proper order, first transport guipure 2 is the clitellum of network structure, a plurality of intensive apertures have, the aperture plays ventilative heat dissipation and the effect that supplies the fluid drip on embryo strip surface, make embryo strip and fluid obtain effective separation, preliminary heat dissipation has been carried out simultaneously, the embryo strip drops to the feed end of first promotion conveyer belt 3 from the discharge end of first transport guipure 2, the discharge end of rethread first promotion conveyer belt 3 drops to feed module 7 on, carry to mixing sugar module 8 via feed module 7, the embryo strip utilizes high pitch to divide at the feed end and the discharge end of first promotion conveyer belt 3 to go through the scattering, the in-process at the embryo strip, the embryo strip is scattered in four, the area of embryo strip and air has been increased, thereby the embryo strip is under the effect of gravity and is constantly accelerated and is fallen, the heat dissipation rate is improved, the relative cooling rate is realized to the cooling rate of the heat spreader, the cooling rate is improved, the cooling rate of cooling rate is carried out to the cooling rate of the air flow from the embryo strip to the air mixer, the cooling rate is improved, and the cooling rate of cooling rate is carried out.

In actual use, an oil collecting disc 22 is arranged right below the first conveying mesh belt 2, and the oil collecting disc 22 extends to the side surface of the lifting conveying belt along the length direction of the first conveying mesh belt 2.

The arrangement of the oil collecting disc 22 enables oil drops dripping from the first conveying mesh belt 2 to fall into the oil collecting disc 22, so that a pool of accumulated liquid is prevented from being formed on the ground due to dripping, dust and foreign particles are prevented from being stuck to the ground due to treading of the accumulated liquid, bacterial breeding is avoided, high sanitation and safety are guaranteed, and in addition, oil in the oil collecting disc 22 can be reprocessed and utilized, and resource utilization rate is improved.

In some implementations, the drip pan 22 may also extend directly below the feed end of the first conveyor belt 2, allowing more area of the first conveyor belt 2 to fall into the open area of the drip pan 22.

Preferably, the discharge end of the puffing module 1 is located in the middle of the first conveying net belt 2, and the oil collecting disc 22 extends to the position right below the feeding end of the puffing module 1.

In a specific implementation, both sides and the feeding end of the first conveying net belt 2 are provided with first baffles for preventing the blank from falling, and both sides and the feeding end of the first lifting conveying belt 3 are provided with second baffles for preventing the blank from falling.

Further improved, an oil return plate 21 is arranged between the discharge end of the first conveying mesh belt 2 and the lifting conveying belt, and the oil return plate 21 extends obliquely towards the oil collecting disc 22 and is located right below the discharge end of the first conveying mesh belt 2.

There is the clearance between first conveyor belt 2 and the first lifting conveyor belt 3, and the setting of oil return board 21, when the drop was dripped from the discharge end of first conveyor belt 2, the easy drip was to clearance department, and the setting of oil return board 21, separation oil drop was to clearance department to with the drip water conservancy diversion to oil collecting tray 22.

In actual use, the first conveying mesh belt 2 is obliquely arranged, the output end of the first conveying mesh belt 2 is higher than the input end, and ribs which are arranged at intervals along the length direction of the first conveying mesh belt 2 are arranged on the outer side surface of the first conveying mesh belt 2.

In a certain horizontal distance, through the inclined arrangement of the first conveying mesh belt 2, the travel of the blank material to reach the first conveying mesh belt 2 is increased, and the effects of heat dissipation and oil separation are improved.

In a further improvement of the embodiment, the conveying unit further comprises a second lifting conveying belt 6, a storage tank 4 arranged at the discharge end of the first lifting conveying belt 3, and a rake 5 arranged in the storage tank 4 and used for turning and moving embryo strips; one end of the storage tank 4 is provided with an opening, the lower edge of the opening is in clearance fit with the upper surface of the second lifting conveyor belt 6, and the discharge end of the second lifting conveyor belt 6 is positioned right above the feeding module 7.

The embryo strip is scattered to the storage tank 4 from the discharge end of the first lifting conveying belt 3, the rake 5 in the storage tank 4 is turned over and raked the embryo strip in a manual mode or an automatic driving mode such as an air cylinder and a motor, so that heat dissipation of the embryo strip stack can be assisted, the embryo strip hidden at the bottom of the embryo strip stack is convenient to observe, defective products are inspected and selected, the rake 5 pushes part of the embryo strip to move to the opening of the storage tank 4 in the process of turning over and raking the embryo strip, the embryo strip falls onto the second lifting conveying belt 6, and the embryo strip is conveyed to the feeding module 7 through connection of the second conveying belt.

Preferably, the bottom of the storage tank 4 is provided with a wave part 41 extending to the open edge, and the edge side of the wave part 41 extends downwards in a tilting manner and is in clearance fit with the upper surface of the second lifting conveyor belt 6.

The wavy part 41 is arranged, so that the embryo strip falling onto the second conveying belt from the opening can stay at the wavy part 41 for a short time, and the embryo strip at the edge of the wavy part 41 is continuously taken away in the operation process of the second lifting conveying belt 6, and the embryo strip slides along the edge side due to the downward inclined extension of the edge side of the wavy part 41, the embryo strip taken away is supplemented, and after the embryo strip on the edge side is taken away, the embryo strip on the wavy part 41 is pushed by the rake 5 to be continuously stacked on the edge side.

The puffing module 1 has the specific structure that the puffing module 1 comprises a frying tank 11 and a second conveying net belt 12 for conveying the embryo strips to the frying tank 11 and then outputting the embryo strips to the frying tank 11; the second conveying mesh belt 12 penetrates through the frying pond 11, and the first conveying mesh belt 2, the second conveying mesh belt 12, the first conveying mesh belt 2 and the lifting conveying belt are arranged in a mutually perpendicular mode.

In a specific implementation, the two sides of the second lifting conveyor belt 6 are respectively provided with a third baffle for preventing the blank strip from falling off, and the third baffle is connected with the side wall of the storage tank 4.

The feeding module 7 is specifically configured in such a way that the feeding module 7 comprises a vibrating conveyor 73 for receiving the embryo strips on the first lifting conveyor 3; the feeding end of the sugar mixing module 8 is positioned at the top of the sugar mixing module 8; the discharging end of the vibrating conveyor 73 is located at the upper side of the sugar mixing module 8 and is arranged corresponding to the feeding end of the sugar mixing module 8.

In the embodiment, the vibration conveyor 73 is arranged, and the periodic horizontal reciprocating vibration of the vibration conveyor 73 is utilized to enable the embryo strips to be scattered to the sugar mixing module 8 by the interval embryo strips, so that the embryo strips falling to the sugar mixing module 8 are scattered, and the embryo strips and sugar liquid can be fully mixed conveniently.

The concrete structure of the sugar mixing module 8 is that the sugar mixing module 8 comprises a sugar mixer 82 positioned at the lower side of the vibration conveyor belt, and a feed pipe 81 arranged right above the sugar mixer 82 and used for conveying sugar liquid to the sugar mixing module 8; the top of the sugar mixer 82 is arranged in an open mode, and the discharging end of the vibrating conveyor 73 is arranged at one side of the sugar mixer 82 at intervals; a guide groove 74 extending into the sugar mixer 82 is provided directly below the discharge end of the vibrating conveyor 73.

The vibrating conveyor 73 and the guide groove 74 are matched with each other, so that the embryo strips slide into the sugar mixer 82 along the guide groove 74 after being thrown out of the vibrating conveyor 73, the collision of the thrown-out embryo strips and the feeding pipe 81 is avoided, and the embryo strips are prevented from bouncing out of the sugar mixer 82; the lower side of the feed pipe 81 is provided with a sugar outlet 811 through which sugar liquid flows downward.

In practical application, the fourth baffle for preventing the blank from falling is arranged on two sides of the vibrating conveyor 73.

The bottom of the sugar mixer 82 is provided with a discharge hole 821, a stirring shaft 822 extending horizontally towards the discharge hole 821 and a plurality of blades 8221 positioned on stirring are arranged in the sugar mixer 82, and the blades 8221 are distributed at intervals along the axial direction of the stirring shaft 822 in a spiral track.

Still preferably, the discharging end of the sugar mixing module 8 is positioned at the bottom of the sugar mixing module 8; the feeding module 7 further comprises a climbing conveyor 72 for receiving the embryo strips on the first lifting conveyor 3, the discharge end of the climbing conveyor 72 extending to the feeding end of the vibrating conveyor 73.

The discharging end of the sugar mixing module 8 is located at the bottom of the sugar mixing module 8, the sugar mixing module 8 is provided with a discharging space reserved at the lower side by lifting the height of the sugar mixing module 8, the height of the vibrating conveyor 73 is correspondingly lifted, and the climbing conveyor 72 is connected between the first lifting conveyor 3 and the vibrating conveyor 73 by arranging the climbing conveyor 72.

The outer side surface of the climbing conveyor belt 72 is provided with supporting plates 721 which are arranged at intervals along the length of the climbing conveyor belt 72, and the supporting plates 721 improve the lifting conveying capacity of the climbing conveyor belt 72 for one time in a circulating operation; the climbing conveyor 72 is provided with fifth baffles on both sides to prevent the blank from falling.

In practice, the feeding module 7 further comprises a hopper 71 for collecting the blanks on the first lifting conveyor 3; the hopper 71 is located directly above the feed end of the climbing conveyor 72.

The hopper 71 gathers the embryo strips output by the first lifting conveyor belt 3 in the hopper, and then intensively outputs the embryo strips from the bottom of the hopper 71, so that the embryo strips intensively stack and fall onto the climbing conveyor belt 72, the filling and charging space of the climbing conveyor belt 72 is fully utilized, and the conveying capacity of the climbing conveyor belt 72 is improved; the operation process of the climbing conveyor 72 is that the embryo strips at the bottom of the hopper 71 fall on the climbing conveyor 72, and the embryo strips at the bottom are continuously taken away along with the operation of the climbing conveyor 72, and the embryo strips in the hopper 71 continuously fall on the climbing conveyor 72.

The above examples are preferred embodiments of the present utility model, but the embodiments of the present utility model are not limited to the above examples, and any other changes, modifications, substitutions, combinations, and simplifications that do not depart from the spirit and principle of the present utility model should be made in the equivalent manner, and the embodiments are included in the protection scope of the present utility model.

Claims (10)

1. The caramel treats sugar mixing automatic feeding device comprises a puffing module for frying embryo strips, a sugar mixing module for mixing the embryo strips with sugar liquid and a conveying unit for conveying the embryo strips from the puffing module to the sugar mixing module, and is characterized by comprising a first conveying mesh belt, a first lifting conveying belt and a feeding module, wherein the first conveying mesh belt is arranged right below a discharge end of the puffing module, the first lifting conveying belt is arranged at the discharge end of the first conveying mesh belt, and the feeding module is used for conveying the embryo strips to the sugar mixing module; the feeding module is located under the output end of the first lifting conveyor belt, and the feeding end of the first lifting conveyor belt is located at a height interval between the first conveying mesh belt, the discharging end of the first lifting conveyor belt and the feeding module, and the height interval is used for scattering embryo strips.

2. The automated caramel treats sugar blending feeding device of claim 1, wherein an oil collection pan is disposed directly below the first conveyor belt, the oil collection pan extending along the length of the first conveyor belt to the side of the lifting conveyor belt.

3. The automatic caramel treats sugar-mixing feeding device according to claim 2, wherein an oil return plate is arranged between the discharge end of the first conveying mesh belt and the lifting conveying belt, and the oil return plate extends obliquely towards the oil collecting disc and is positioned right below the discharge end of the first conveying mesh belt.

4. The automatic caramel treats sugar mixing feeding device according to claim 1, wherein the first conveying mesh belt is obliquely arranged, the output end of the first conveying mesh belt is higher than the input end, and ribs which are arranged at intervals along the length direction of the first conveying mesh belt are arranged on the outer side surface of the first conveying mesh belt.

5. The automatic caramel treats sugar blending feeding device according to claim 1, wherein the conveying unit further comprises a second lifting conveyor belt, a storage tank arranged at the discharge end of the first lifting conveyor belt, and a rake arranged in the storage tank and used for turning the embryo strips; the one end of stock chest is equipped with uncovered, uncovered lower border and the upper surface clearance fit of second promotion conveyer belt, the discharge end of second promotion conveyer belt is located the feeding module directly over.

6. The automatic caramel treats sugar mixing feeding device of claim 5, wherein the bottom of the storage tank is provided with a wave part extending to the open edge, and the edge side of the wave part extends downwards in a tilting manner and is in clearance fit with the upper surface of the second lifting conveyor belt.

7. The automated caramel treats sugar blending feeding device of claim 1, wherein the feeding module comprises a vibratory conveyor for receiving the bars on the first lifting conveyor; the feeding end of the sugar mixing module is positioned at the top of the sugar mixing module; the discharging end of the vibrating conveyor is positioned at the upper side of the sugar mixing module and is correspondingly arranged with the feeding end of the sugar mixing module.

8. The automated caramel treats sugar blending feeding device of claim 7, wherein the sugar blending module comprises a sugar blender positioned on the underside of the vibrating conveyor belt, a feed tube positioned directly above the sugar blender for delivering sugar liquor to the sugar blending module; the top of the sugar mixer is in open arrangement, and the discharge end of the vibrating conveyor is positioned at one side of the sugar mixer and is arranged at intervals; and a guide groove extending into the sugar mixer is arranged right below the discharge end of the vibrating conveyor.

9. The automated caramel treats sugar blending feeding device of claim 7, wherein the discharge end of the sugar blending module is positioned at the bottom of the sugar blending module; the feeding module further comprises a climbing conveyor belt for receiving the embryo strips on the first lifting conveyor belt, and the discharge end of the climbing conveyor belt extends to the feeding end of the vibrating conveyor.

10. The automated caramel treats sugar blending feeding device of claim 9, wherein the feeding module further comprises a hopper for gathering the billets on the first lifting conveyor; the hopper is located right above the feeding end of the climbing conveyor belt.