CN218245409U - Core injection coating production line and food production line - Google Patents

Abstract

The utility model relates to an annotate core coating production line and food production line relates to notes core coating food production facility field, annotates core coating production line including notes core equipment, first coating equipment and the first refrigeration equipment that sets gradually and connect through conveying equipment. The food production line comprises a core-injection coating production line. The beneficial effects are that: hollow food is through annotating core equipment, first coating equipment and first refrigeration plant in proper order under conveying equipment's drive, carries out the inside core of annotating of food, the food outside forms the frozen process of first layer coating and first layer coating, and from this, the total three-layer of inside and outside of this food, the taste is abundanter. The first freezing device can make the first coating on the outer side of the food solidify rapidly, so that the first coating is firmly attached to the surface of the food. And the first coating can also cover the through holes left on the surface of the food during core injection, so that the surface of the food is more attractive.

Description

Core injection coating production line and food production line

Technical Field

The utility model relates to an annotate core coating food production facility field, concretely relates to annotate core coating production line and food production line.

Background

For products that are hollow on the inside (e.g., puffs, filled breads, etc.), it is common to produce them by a single means, i.e., filling the hollow product with a filling. After filling with the stuffing, a hole for filling the core is left on the surface of the food, and the appearance is poor. And the taste of the external hollow food is single, the core-filled food can only taste the unique taste of the internal stuffing, and the user experience is relatively common.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of how to enrich the taste of the hollow food.

The utility model provides an above-mentioned technical problem's technical scheme as follows: the utility model provides a notes core coating production line, notes core coating production line is including the notes core equipment, first coating equipment and the first refrigeration equipment that set gradually and connect through conveying equipment.

The utility model has the advantages that: hollow food is through annotating core equipment, first coating equipment and first refrigeration plant in proper order under conveying equipment's drive, carries out the frozen process of the inside notes core of food, food outside formation first layer coating and first layer coating, from this, the total three-layer of inside and outside of this food, the taste is abundanter. The first freezing device can make the first coating on the outer side of the food solidify rapidly, so that the first coating is firmly attached to the surface of the food. And the first coating can also cover the through holes left on the surface of the food during core injection, so that the surface of the food is more attractive.

On the basis of the technical scheme, the utility model discloses can also do following improvement.

Furthermore, the core injection coating production line also comprises a second coating device and a second refrigerating device, wherein the first refrigerating device, the second coating device and the second refrigerating device are sequentially connected through a conveying device.

The beneficial effect of adopting the above further scheme is: the second coating equipment is used for forming a second coating on the first coating, and the second freezing equipment freezes the second coating to solidify the second coating. The first coating layer and the second coating layer can adopt the same or different materials, so that the thickness of the coating layer is increased or the mouthfeel of the coating layer is enriched.

Furthermore, notes core coating production line still includes the equipment of spilling the material, spill the material equipment set up in first coating equipment with between the first refrigeration equipment, first coating equipment spill the material equipment with first refrigeration equipment connects gradually through conveying equipment.

The beneficial effect of adopting the above further scheme is: the material spreading device spreads the material onto the first coating layer, the material is attached to the first coating layer which is not solidified, and then the first freezing device freezes the first coating layer and the material. The second coating is processed on the outer side of the material, so that the oxidative decay of the material can be slowed down.

Furthermore, annotate core coating production line still includes to spill material equipment and spills material branch road conveying equipment, first coating equipment spill material equipment with first refrigeration equipment passes through spill material branch road conveying equipment connects gradually.

The beneficial effect of adopting the further scheme is that: in the production process, whether can spill the material according to the nimble switching of product demand, food from first coating equipment back of coming out can be through conveying equipment direct to first refrigeration equipment, perhaps spill the material equipment through spilling on the branch road conveying equipment of expecting and spill the material after, carried first refrigeration equipment again.

Further, annotate core coating production line still includes oil injection equipment, oil injection equipment annotate the core equipment first coating equipment with first refrigeration equipment connects gradually.

The beneficial effect of adopting the further scheme is that: the oil spraying equipment can perform oil spraying operation on the surface of the food.

Furthermore, the core injection coating production line also comprises core injection coating feeding equipment, and the core injection coating feeding equipment is respectively connected with the oil injection equipment or the core injection equipment.

The beneficial effect of adopting the further scheme is that: the hollow food can be directly conveyed to the core injection equipment through the core injection coating feeding equipment to be injected with the core, or can be conveyed into the oil injection equipment to be injected with the core after oil injection.

Further, notes core equipment includes notes core subassembly, drawing of patterns dish, notes core mould and notes core conveying equipment, it has notes core station to annotate core equipment, annotate core conveying equipment with annotate the core mould and be connected and make it can move to be located annotate the core station or leave annotate the core station, annotate the core subassembly and be located annotate the top of core station and can follow vertical direction and remove, drawing of patterns dish fixed set up in annotate the core subassembly with annotate between the core station.

The beneficial effect of adopting the further scheme is that: after food is conveyed to the core injection mold, the core injection conveying equipment drives the core injection mold to move to the core injection station, the core injection assembly moves downwards until the core injection needle of the core injection assembly pierces the food, the filling is injected into the food, then the core injection assembly moves upwards, the demolding plate blocks the food on the core injection mold, the food is prevented from moving along with the core injection assembly, the food is separated from the core injection assembly, and the core injection conveying equipment drives the core injection mold to move backwards.

Further, annotate core equipment still includes the take-up (stock) pan, it has a plurality of mould chambeies to annotate the core mould, and is a plurality of the mould chamber can remove in proper order to being located annotate the core station, every the bottom surface in mould chamber has the hole of leaking material, the take-up (stock) pan is fixed in annotate the below of core station.

The beneficial effect of adopting the further scheme is that: if there is not food in the mould intracavity, mould cavity vacancy promptly, then annotate filling material accessible hourglass material hole that the core subassembly injected and fall into the take-up (stock) pan of below to avoid the mould intracavity to pile up the filling material and influence the recycling of annotating the core mould.

Further, the core injection assembly is a plurality of core injection assemblies arranged side by side along a direction perpendicular to the moving direction of the core injection mold.

The beneficial effect of adopting the further scheme is that: the core injection assembly is provided in a plurality of numbers, so that the core injection efficiency can be increased.

The utility model also provides a food production line, include notes core coating production line.

Drawings

FIG. 1 is a schematic diagram of a core-injection coating production line of the present invention;

fig. 2 is the structure schematic diagram of the core-injection coating production line of the utility model.

In the drawings, the components represented by the respective reference numerals are listed below:

100. a core-injection coating production line; 101. oil injection equipment; 102. core injecting equipment; 121. a core injection assembly; 122. a demoulding disc; 123. a core injection mold; 124. a take-up pan; 103. a first coating device; 104. material spreading equipment; 105. a first refrigeration device; 106. a second coating device; 107. a second refrigeration device.

Detailed Description

The principles and features of the present invention are described below in conjunction with the following drawings, the examples given are only intended to illustrate the present invention and are not intended to limit the scope of the present invention.

As shown in fig. 1 and 2, the present embodiment provides a core injection coating line 100, which includes a core injection device 102, a first coating device 103 and a first freezing device 105, which are arranged in sequence and connected by a conveying device.

Hollow food is through annotating core equipment 102, first coating equipment 103 and first refrigeration equipment 105 under conveying equipment's drive in proper order, carries out the frozen process of the inside notes core of food, food outside formation first layer coating and first layer coating, from this, the total three-layer of inside and outside of this food, and the taste is abundanter. The first freezing device 105 can rapidly solidify the first coating on the outer side of the food product so that the first coating is firmly attached to the surface of the food product. And the first coating can also cover through holes left on the surface of the food during core injection, so that the surface of the food is more attractive.

Wherein, the conveying device can be a conveying belt or a conveying chain plate and the like which can drive the food to move.

Wherein, the filling in the first coating device 103 can be melted chocolate, syrup or other raw materials which can be used as food shower. The first coating apparatus 103 may employ an existing food coating machine.

Wherein, food passes through notes core equipment 102, first coating equipment 103 and first refrigeration equipment 105 in proper order under conveying equipment's drive, or, conveying equipment divides into the multistage, and wherein one section conveying equipment connects the export of annotating core equipment 102 and the import of first coating equipment 103, and another section conveying equipment connects the export of first coating equipment 103 and the import of first refrigeration equipment 105.

On the basis of the technical scheme, the core injection coating production line 100 further comprises a second coating device 106 and a second freezing device 107, and the first freezing device 105, the second coating device 106 and the second freezing device 107 are sequentially connected through a conveying device.

The second coating device 106 is used for forming a second coating layer on the first coating layer, and the second freezing device 107 freezes the second coating layer to be solidified. The first coating layer and the second coating layer can adopt the same or different materials, so that the thickness of the coating layer is increased or the mouthfeel of the coating layer is enriched.

Wherein, the filling in the second coating device 106 can be melted chocolate, syrup or other raw materials which can be used as food shower. The second coating apparatus 106 can employ an existing food coating machine.

On the basis of the above technical solution, optionally, the core injection coating production line 100 further includes a material scattering device 104, the material scattering device 104 is disposed between the first coating device 103 and the first freezing device 105, and the first coating device 103, the material scattering device 104, and the first freezing device 105 are sequentially connected through a conveying device. The spreading device 104 spreads the material onto the first coating layer, the material adhering to the first coating layer which has not yet solidified, and then the first freezing device 105 freezes the first coating layer and the material. The second coating is processed on the outer side of the material, so that the oxidative decay of the material can be slowed down.

Or, the core-injection coating production line 100 further includes a material scattering device 104 and a material scattering branch conveying device, and the first coating device 103, the material scattering device 104 and the first freezing device 105 are connected in sequence through the material scattering branch conveying device.

The first coating device 103 can be switched into communication with the spreading device 104 or the first freezing device 105 and deliver the food product. In the production process, whether to spill the material can be flexibly switched according to the product requirement, and after the food comes out from the first coating equipment 103, the food can be directly conveyed to the first refrigerating equipment 105 through conveying equipment, or after the food is sprinkled through the material scattering equipment 104 on the material scattering branch conveying equipment, the food is conveyed to the first refrigerating equipment 105.

The material in the dispensing device 104 may be, for example, dried fruit pieces (e.g., ground peanuts, ground nuts, etc.), dried fruit pieces (e.g., dried grapes, dried cranberries, etc.), or other powdery or granular materials.

In connection with the first coating device 103 being switchable into communication with the spreading device 104 or the first freezing device 105, in particular, the first coating device 103 has two outlets, a first of which is connected to the conveying device between the first coating device 103 and the first freezing device 105 and a second of which is connected to the spreading branch conveying device. Optionally, a channel similar to a Y shape is provided at a position close to the outlet of the first coating device 103, and both outlets are provided with a first coating control door capable of being opened and closed, and the first coating control door at the corresponding outlet is opened, so that the food can be discharged from the corresponding outlet; alternatively, the first coating device 103 may be provided with a lane-changing device near the outlet, the lane-changing device may be a conveyor belt or a conveyor chain plate, the feeding end of the lane-changing device is fixed, and the lane-changing device is rotatable and aligned with the discharging end of the first coating device 103 at one of the outlets, so as to discharge the food from the one of the outlets.

On the basis of the technical scheme, the core injection coating production line 100 further comprises an oil injection device 101, and the oil injection device 101, the core injection device 102, the first coating device 103 and the first refrigerating device 105 are sequentially connected.

The oil spraying apparatus 101 may perform an oil spraying operation on the surface of the food.

On the basis of the above technical solution, the core injection coating production line 100 further includes core injection coating feeding equipment, and the core injection coating feeding equipment is respectively connected with the oil injection equipment 101 or the core injection equipment 102.

The hollow food can be directly conveyed to the core injecting device 102 for core injection through the core injecting coating feeding device, or can be conveyed to the oil injection device 101 for oil injection before the core is injected.

The core injection coating feeding equipment is provided with a feeding end and two feeding ends, the feeding end can be switched to feed to one of the feeding ends, optionally, the core injection coating feeding equipment is of a Y-shaped structure, the two feeding ends are both provided with switchable core injection coating control doors, and the core injection coating control doors at the corresponding feeding ends are opened, so that the food can be discharged from the corresponding feeding ends; alternatively, the feeding device for the core-injection coating can be a conveyor belt or a conveyor chain plate, the feeding end of the feeding device for the core-injection coating is fixed, the feeding device for the core-injection coating can rotate, and the other end of the feeding device for the core-injection coating is aligned with one of the feeding ends, so that the food is discharged from the one of the feeding ends.

On the basis of the above technical solution, the core injection device 102 includes a core injection assembly 121, a demolding disc 122, a core injection mold 123 and a core injection conveying device, the core injection device 102 has a core injection station, the core injection conveying device is connected with the core injection mold 123 and enables the core injection mold 123 to move to be located at the core injection station or leave the core injection station, the core injection assembly 121 is located above the core injection station and can move in a vertical direction, and the demolding disc 122 is fixedly disposed between the core injection assembly 121 and the core injection station.

After the food is conveyed to the core injection mold 123, the core injection conveying equipment drives the core injection mold 123 to move to the core injection station, the core injection assembly 121 moves downwards until the core injection needle of the core injection assembly pierces the food, the filling is injected into the food, then the core injection assembly moves upwards, the demolding disc 122 blocks the food on the core injection mold 123 at the moment, the food is prevented from moving together with the core injection assembly 121, the food is separated from the core injection assembly 121, and the core injection conveying equipment drives the core injection mold 123 to move backwards.

Specifically, annotate core subassembly 121 and include the feed cylinder, annotate the core needle and press the material pole, store filling in the feed cylinder, press the material pole to slide and set up in the feed cylinder and sealed with the feed cylinder inner wall, annotate the core needle and be connected and communicate with the lower extreme of feed cylinder, press the removal of material pole can extrude filling in the feed cylinder. The pressure pin can also set up the feed supplement hole, and the one end in feed supplement hole and the former feed cylinder intercommunication of storage filling material, the regional intercommunication of the storage filling material in the other end and the feed cylinder, the feed cylinder accessible is pressed and is gone up to the interior supplementary filling material of feed cylinder on the pressure pin, can set up the check valve on the pipeline between feed supplement hole or feed supplement hole and the former feed cylinder, avoids the filling material to extrude out the feed cylinder from the feed supplement hole. The core injection assembly moving mechanism is connected with the core injection assembly 121 and drives the core injection assembly 121 to vertically reciprocate.

On the basis of the technical scheme, the core injection equipment 102 further comprises a material receiving disc 124, the core injection mould 123 is provided with a plurality of mould cavities, the mould cavities can sequentially move to be located at the core injection station, the bottom surface of each mould cavity is provided with a material leaking hole, and the material receiving disc 124 is fixed below the core injection station.

The mould chamber is the open groove structure of top surface, if there is not food in the mould chamber, and the mould chamber has the vacancy promptly, then annotates filling material accessible hourglass material hole that core subassembly 121 injected and falls into take-up pan 124 of below to avoid piling up filling material in the mould chamber and influence the circulation of annotating core mould 123 and use.

It should be noted that the size of the material leaking hole is smaller than that of the processed hollow food, and the hollow food cannot fall down from the material leaking hole.

Specifically, the core injection conveying device may be a conveyor belt or a conveyor chain, and the plurality of core injection molds 123 are sequentially fixed on the conveyor belt or the conveyor chain. Optionally, a core injection baffle plate may be disposed at the feed end of the core injection conveying equipment, and the core injection baffle plate is fixedly disposed at a position slightly higher than the core injection mold 123, so that food which does not fall into the mold cavity can be blocked, and is prevented from reaching the core injection station along with the core injection mold 123; alternatively, the feed end of the injection core delivery apparatus may be inclined in the feed direction, and food that has not entered the mold cavity may fall by gravity to other empty mold cavities below, and the food that has entered the mold cavity may be carried along by the injection core mold 123.

Optionally, notes core conveying equipment and other conveying equipment linking department can set up the striker plate, avoid food to drop to produce the line.

On the basis of the above technical solution, the core injection assembly 121 is a plurality of core injection modules arranged side by side along a direction perpendicular to the moving direction of the core injection mold 123.

Specifically, a plurality of core injection assemblies 121 are arranged side by side along a direction perpendicular to the food conveying direction, so that the core injection efficiency can be increased.

Specifically, a plurality of the mold cavities are arranged at intervals along the moving direction of the core injection mold 123 to form a row of mold cavities, a plurality of rows of mold cavities are arranged on the core injection mold 123 along the direction perpendicular to the food conveying direction, and the number of the mold cavity rows is the same as that of the core injection assemblies 121 and corresponds to that of the core injection assemblies one by one.

The utility model also provides a food production line, include notes core coating production line.

Specifically, the food production line further comprises dough kneading equipment, forming equipment and cooking equipment which are sequentially arranged in front of the core injection coating production line.

In the description of the present invention, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present application, unless expressly stated or limited otherwise, the first feature may be directly on or directly under the second feature or indirectly via intermediate members. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. A core-injection coating line, characterized in that the core-injection coating line (100) comprises a core-injection device (102), a first coating device (103) and a first freezing device (105) which are arranged in sequence and connected by a conveying device.

2. Core-injection coating line according to claim 1, characterized in that the core-injection coating line (100) further comprises a second coating device (106) and a second freezing device (107), said first freezing device (105), said second coating device (106) and said second freezing device (107) being connected in sequence by a conveying device.

3. The core-injection coating line according to claim 2, wherein the core-injection coating line (100) further comprises a spreading device (104), said spreading device (104) being arranged between said first coating device (103) and said first freezing device (105), said first coating device (103), said spreading device (104) and said first freezing device (105) being connected in sequence by a conveying device.

4. The core-injection coating line according to claim 2, characterized in that the core-injection coating line (100) further comprises a spreading device (104) and a spreading branch conveying device, through which the first coating device (103), the spreading device (104) and the first freezing device (105) are connected in sequence.

5. A core-injection coating line according to claim 1, characterized in that said core-injection coating line (100) further comprises an oil injection device (101), said core-injection device (102), said first coating device (103) and said first freezing device (105) being connected in sequence.

6. A core-injection coating line according to claim 5, characterized in that the core-injection coating line (100) further comprises a core-injection coating feeding device, which is connected to the oil injection device (101) or the core-injection device (102), respectively.

7. A core-injection coating line according to any one of claims 1-6, characterized in that the core-injection apparatus (102) comprises a core-injection assembly (121), a stripper plate (122), a core-injection mold (123) and a core-injection conveying apparatus, the core-injection apparatus (102) having a core-injection station, the core-injection conveying apparatus being connected to the core-injection mold (123) and being movable to and from the core-injection station, the core-injection assembly (121) being located above the core-injection station and being movable in a vertical direction, the stripper plate (122) being fixedly arranged between the core-injection assembly (121) and the core-injection station.

8. The core-injection coating production line of claim 7, wherein said core-injection apparatus (102) further comprises a take-up pan (124), said core-injection mold (123) having a plurality of mold cavities, a plurality of said mold cavities being sequentially movable to be located at said core-injection station, a bottom surface of each said mold cavity having a weep hole, said take-up pan (124) being fixed below said core-injection station.

9. A core-injection coating line according to claim 7, wherein said core-injection assembly (121) is a plurality arranged side by side in a direction perpendicular to the direction of movement of said core-injection mould (123).

10. A food product line comprising a core-injection coating line according to any one of claims 1 to 9.

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