CN213785324U - Point material device and food processing equipment - Google Patents

Abstract

The utility model discloses a point material device and food processing equipment relates to automation equipment technical field. The point material device includes: drop feed mechanism, receiving agencies and the feed mechanism of setting between drop feed mechanism and receiving agencies, drop feed mechanism includes the blowing dish, be equipped with a plurality of pan feeding holes on the blowing dish, a plurality of pan feeding holes are used for holding the core material, feed mechanism is including dividing the flitch, be equipped with a plurality of punishment in advance holes that can correspond with a plurality of pan feeding holes on dividing the flitch, receiving agencies is including receiving the charging tray, be equipped with a plurality of receipts material holes that can correspond with a plurality of punishment in advance holes on the receiving tray, a plurality of material holes are used for holding the outsourcing, the pan feeding hole, under the state that punishment in advance hole and material hole projection correspond, the core material that sets up on the blowing dish can loop through the pan feeding hole, the punishment in advance hole falls into the cavity of the outsourcing on the receiving tray. The material counting device can enable core materials to automatically enter the cavity of the outer materials, achieves the automatic material counting function, is safe and sanitary, improves the production efficiency of composite food, and reduces the production cost.

Description

Point material device and food processing equipment

Technical Field

The utility model relates to an automation equipment technical field particularly, relates to a point material device and food processing equipment.

Background

The areca contains various nutrient elements and beneficial substances required by human body and also has certain medicinal value. In order to enrich the taste and nutrition of betel nut foods, raisins, medlar and other dried fruits are usually added into betel nuts. However, the dried fruit particles are irregular, and are in a bulk state during storage and transportation and are easy to stick, so that the automation of the process of putting the dried fruit into the betel nuts is difficult in the betel nut food manufacturing industry.

At present, the method generally adopted in the areca-nut food manufacturing industry is to manually put raisins or Chinese wolfberries and other dried fruits into areca-nuts one by one, the manual material counting mode is low in efficiency and unsanitary, a large amount of time is consumed in the production process, the safety and sanitation problems need to be controlled, and the manufacturing cost of the areca-nut food is increased.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a point material device and food processing equipment to among the solution prior art, artifical point material inefficiency and the higher technical problem of cost.

The embodiment of the utility model is realized like this:

the utility model discloses an aspect provides a point material device, include: drop feed mechanism, receiving agencies and the feed mechanism of setting between drop feed mechanism and receiving agencies, drop feed mechanism includes the blowing dish, be equipped with a plurality of pan feeding holes on the blowing dish, a plurality of pan feeding holes are used for holding the core material, feed mechanism is including dividing the flitch, be equipped with a plurality of punishment in advance holes that can correspond with a plurality of pan feeding holes on dividing the flitch, receiving agencies is including receiving the charging tray, be equipped with a plurality of receipts material holes that can correspond with a plurality of punishment in advance holes on the receiving tray, a plurality of material holes are used for holding the outsourcing, the pan feeding hole, under the state that punishment in advance hole and material hole projection correspond, the core material that sets up on the blowing dish can loop through the pan feeding hole, the punishment in advance hole falls into the cavity of the outsourcing on the receiving tray.

Optionally, the discharging mechanism further comprises a first driving piece connected with the discharging disc, and the first driving piece is used for driving the discharging disc to move, so that the projections of the plurality of feeding holes in the discharging mechanism and the plurality of material passing holes in the material distributing plate correspond to each other one by one.

Optionally, the lower surface of the material placing tray is attached to the upper surface of the material distributing plate, and the first driving member is fixed to the upper surface of the material distributing plate.

Optionally, the material receiving mechanism further comprises a second driving member connected with the material receiving tray, and the second driving member is used for driving the material receiving tray to reciprocate along the vertical direction.

Optionally, the receiving mechanism further includes a third driving member connected to the receiving tray, and the third driving member is configured to drive the receiving tray to move, so that the multiple receiving holes on the receiving mechanism correspond to the multiple passing holes on the material distributing plate in a one-to-one projection manner.

Optionally, a plurality of the feeding hole arrays are arranged on the material placing tray.

Optionally, the diameter of the material passing hole and the diameter of the material receiving hole are not smaller than the diameter of the material inlet hole.

Optionally, the first driving members include two, and the two first driving members are respectively and symmetrically connected to two opposite sides of the material placing tray.

Optionally, the first driving member is a cylinder.

The embodiment of the utility model provides a further aspect provides a food processing equipment, including the some material device of above-mentioned arbitrary one.

The utility model discloses beneficial effect includes:

the embodiment of the utility model provides a point material device includes: drop feed mechanism, receiving agencies and the feed mechanism of setting between drop feed mechanism and receiving agencies, drop feed mechanism includes the blowing dish, be equipped with a plurality of pan feeding holes on the blowing dish, a plurality of pan feeding holes are used for holding the core material, feed mechanism is including dividing the flitch, be equipped with a plurality of punishment in advance holes that can correspond with a plurality of pan feeding holes on dividing the flitch, receiving agencies is including receiving the charging tray, be equipped with a plurality of receipts material holes that can correspond with a plurality of punishment in advance holes on the receiving tray, a plurality of material holes are used for holding the outsourcing, the pan feeding hole, under the state that punishment in advance hole and material hole projection correspond, the core material that sets up on the blowing dish can loop through the pan feeding hole, the punishment in advance hole falls into the cavity of the outsourcing on the receiving tray. The material dropping device is used for dropping the core material into the cavity of the outer material to form the food with composite components. The discharging mechanism of the material dispensing device is used for positioning and releasing core materials, the receiving mechanism of the material dispensing device is used for positioning and conveying outer materials to a preset position to receive the core materials released by the discharging mechanism, the distributing mechanism of the material dispensing device is arranged between the discharging mechanism and the receiving mechanism and used for blocking the core materials in the discharging mechanism from falling before the receiving mechanism reaches the preset position, and the core materials released by the discharging mechanism enter a cavity of the outer materials of the receiving mechanism as an intermediate channel after the receiving mechanism reaches the preset position. The material counting device can enable core materials to automatically enter the cavity of the outer materials, achieves the automatic material counting function, is safe and sanitary, improves the production efficiency of composite food, and reduces the production cost.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is one of schematic structural diagrams of a material dropping device according to an embodiment of the present invention;

fig. 2 is a second schematic structural diagram of a material dropping device according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a material receiving tray in the material dropping device provided by the embodiment of the present invention.

Icon: 100-a material dropping device; 111-a discharge tray; 112-a feeding hole; 113-a first drive member; 121-material receiving disc; 122-a receiving hole; 123-a second drive member; 131-material separating plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "center", "inside", "outside", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. The terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be 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.

Referring to fig. 1 and fig. 2, the present embodiment provides a material dropping device 100, including: drop feed mechanism, receiving agencies and the feed mechanism of setting between drop feed mechanism and receiving agencies, drop feed mechanism includes blowing dish 111, be equipped with a plurality of pan feeding holes 112 on blowing dish 111, a plurality of pan feeding holes 112 are used for holding the core material, feed mechanism is including dividing flitch 131, divide to be equipped with a plurality of punishment in advance holes that can correspond with a plurality of pan feeding holes 112 on the flitch 131, receiving agencies is including receiving dish 121, be equipped with a plurality of receipts material hole 122 that can correspond with a plurality of punishment in advance holes on receiving dish 121, a plurality of receipts material hole 122 are used for holding the exotic material, pan feeding hole 112, under the state that punishment in advance hole and the projection of receiving hole 122 correspond, the core material that sets up on blowing dish 111 can loop through pan feeding hole 112, the punishment in advance hole falls into the cavity of the exotic material on receiving dish 121.

The dispensing device 100 is used to dispense a core material into the cavity of the outer shell to form a composite component food product. The discharging mechanism of the material dispensing device 100 is used for positioning and releasing core materials, the receiving mechanism of the material dispensing device 100 is used for positioning and conveying outer materials to a preset position to receive the core materials released by the discharging mechanism, the distributing mechanism of the material dispensing device 100 is arranged between the discharging mechanism and the receiving mechanism and used for blocking the core materials in the discharging mechanism from falling before the receiving mechanism reaches the preset position, and the core materials released by the discharging mechanism enter a cavity of the outer materials of the receiving mechanism as an intermediate channel after the receiving mechanism reaches the preset position.

Specifically, the discharging mechanism comprises a discharging tray 111 provided with a plurality of feeding holes 112, the feeding holes 112 are distributed on the discharging tray 111 and used for accommodating core materials, and the core materials in the discharging tray 111 are positioned after entering the feeding holes 112. The feeding hole 112 is a through hole, when the bottom of the feeding hole 112 is shielded by the material distributing mechanism, the core material is stored in the feeding hole 112, and when the bottom of the feeding hole 112 is opened by the material distributing mechanism, the core material stored in the feeding hole 112 is released from the bottom of the feeding hole 112 and enters the cavity of the outer material.

In this embodiment, the number, diameter, and distribution of the material inlet holes 112 are not limited, the number of the material inlet holes 112 may be determined according to the number of single material dots, the diameter of the material inlet holes 112 may be slightly larger than the average diameter of the core material, and the distribution of the material inlet holes 112 may be uniform or non-uniform.

In addition, the core material can enter the material inlet 112 in various ways, for example, the material placing tray 111 is a rectangular shell with an open top and comprises a bottom and a side wall arranged around the bottom, and the plurality of material inlet 112 are arranged in the middle area of the bottom of the material placing tray 111. The discharging tray 111 is connected with the vibration inclining device, after the core materials are added into the discharging tray 111, the discharging tray 111 inclines and vibrates in a reciprocating mode, the core materials enter the feeding holes 112, and the redundant core materials are temporarily stored in the area, where the feeding holes 112 are not formed, of the bottom of the discharging tray 111 through the inclination of the discharging tray 111 so as to be used for the next time. Or, a toggle rod which reciprocates is arranged in the discharging tray 111, after the core materials are added into the discharging tray 111, the toggle rod toggles the core materials to move along the bottom of the discharging tray 111 to fill all the feeding holes 112, and similarly, the redundant core materials are toggled by the toggle rod to the area, where no feeding hole 112 is arranged, at the bottom of the discharging tray 111 for the next use.

The material distributing mechanism includes a material distributing plate 131, the material distributing plate 131 is in a planar plate shape, and a plurality of material passing holes are formed in the material distributing plate, and the material passing holes can correspond to the material feeding holes 112 one by one, that is, the number and the distribution mode of the material passing holes are the same as those of the material feeding holes 112. The diameter of the material passing hole may be equal to the diameter of the material inlet 112 or slightly larger than the diameter of the material inlet 112, but the diameter of the material passing hole cannot be smaller than the diameter of the material inlet 112 in order to ensure the smooth passing of the core material. When the material passing holes in the material distributing plate 131 and the material feeding holes 112 in the material placing plate 111 are arranged in a staggered mode, the bottom of the material feeding holes 112 in the material placing plate 111 is shielded by the plate surface of the material distributing plate 131, and core materials are prevented from falling; when the material passing holes on the material distributing plate 131 are aligned with the material feeding holes 112 on the material placing plate 111 one by one, the core materials in the material feeding holes 112 on the material plate are released and enter the cavity of the outer materials through the material passing holes on the material distributing plate 131.

Referring to fig. 1 to fig. 3, the receiving mechanism includes a receiving tray 121 having a plurality of receiving holes 122, the receiving holes 122 are distributed on the receiving tray 121 for receiving the outer material and making the cavity of the outer material face upward (i.e. facing the material distributing plate 131), and the receiving holes 122 can correspond to the material passing holes one by one, so that the core material can smoothly enter the cavity of the outer material. The manner of the external material entering the material receiving hole 122 may be various, for example, reciprocating inclined vibration, poking rod poking, manipulator placing, etc., which is not limited in this embodiment.

It should be understood that the receiving holes 122 are arranged in the same number and distribution manner as the passing holes. The diameter of the receiving hole 122 is determined according to the diameter of the outer material. Under the condition that the projections of the feeding hole 112, the passing hole and the receiving hole 122 are corresponding (the circle centers of the feeding hole 112, the passing hole and the receiving hole 122 are located on the same straight line at the same position), the core material enters the cavities of the inner material and the outer material of the receiving hole 122 through the passing hole.

In summary, the material dropping device 100 includes: drop feed mechanism, receiving agencies and the feed mechanism of setting between drop feed mechanism and receiving agencies, drop feed mechanism includes blowing dish 111, be equipped with a plurality of pan feeding holes 112 on blowing dish 111, a plurality of pan feeding holes 112 are used for holding the core material, feed mechanism is including dividing flitch 131, divide to be equipped with a plurality of punishment in advance holes that can correspond with a plurality of pan feeding holes 112 on the flitch 131, receiving agencies is including receiving dish 121, be equipped with a plurality of receipts material hole 122 that can correspond with a plurality of punishment in advance holes on receiving dish 121, a plurality of receipts material hole 122 are used for holding the exotic material, pan feeding hole 112, under the state that punishment in advance hole and the projection of receiving hole 122 correspond, the core material that sets up on blowing dish 111 can loop through pan feeding hole 112, the punishment in advance hole falls into the cavity of the exotic material on receiving dish 121. The material dropping device 100 can enable core materials to automatically enter the cavity of the outer materials, achieves the automatic material dropping function, is safe and sanitary, improves the production efficiency of composite food, and reduces the production cost.

Optionally, a plurality of feeding holes 112 are arranged in an array on the discharge tray 111.

The array may be in the form of a rectangular array, a circular array, etc., and may be determined according to the shape of the tray 111. For example, if the material placing tray 111 is rectangular, the material feeding holes 112 are preferably arranged in a rectangular array on the material placing tray 111, and the distance between two adjacent material feeding holes 112 in the length direction and the width direction of the material placing tray 111 can be determined according to the number of single material dots, for example, 14 rows of 6 rows of material feeding holes 112 are arranged on the material placing tray 111, and correspondingly, 14 rows of 6 rows of material passing holes should be arranged on the material distributing plate 131 and 14 rows of 6 rows of material receiving holes 122 should be arranged on the material receiving tray 121. If the material placing tray 111 is circular, the material feeding holes 112 are preferably arranged in a circular array on the material placing tray 111, and as for the distance between two adjacent material feeding holes 112 in the radial direction and the circumferential direction of the material placing tray 111, the distance can be determined according to the number of single point materials, for example, the distance between two adjacent material feeding holes 112 in the radial direction and the circumferential direction of the material placing tray 111 is taken as a starting point, 1 material feeding hole 112 is arranged in the first circle (circle center position), 8 material feeding holes 112 are arranged in the second circle, 16 material feeding holes 112 are arranged in the third circle, 32 material feeding holes 112 are arranged in the fourth circle, the plurality of material feeding holes 112 are uniformly distributed in the number of circles, and correspondingly, the material distributing plate 131 and the material receiving tray 121 are correspondingly provided with material passing holes and material receiving holes 122 in the same number and distribution mode.

Optionally, the diameter of the material passing hole and the diameter of the material receiving hole 122 are not smaller than the diameter of the material inlet hole 112.

The core material finally enters the cavity of the inner material and the outer material of the material receiving hole 122 through the material inlet hole 112 and the material passing hole. In order to keep the movement of the core material unimpeded, it should be understood that the diameter of the feed hole 112 should be the same as the diameter of the feed hole 112, or slightly larger than the diameter of the feed hole 112. In addition, the diameter of the cavity of the outer material should be slightly larger than that of the core material, i.e. the diameter of the outer material is larger than that of the core material, so the diameter of the material receiving hole 122 should be larger than that of the material feeding hole 112. However, if the diameter of the inlet opening 112 is larger than the diameter of the core material, the diameter of the receiving opening 122 may be equal to the diameter of the inlet opening 112.

Referring to fig. 1 again, optionally, the discharging mechanism further includes a first driving member 113 connected to the discharging tray 111, and the first driving member 113 is configured to drive the discharging tray 111 to move, so that the multiple feeding holes 112 on the discharging mechanism correspond to the multiple material passing holes on the material distributing plate 131 in a one-to-one projection manner.

The driving end of the first driving member 113 is fixedly connected to the discharging tray 111, so that the discharging tray 111 moves along with the driving end of the first driving member 113. When core materials need to be positioned and stored in the material inlet 112, the first driving member 113 drives the material discharging tray 111, so that the material inlet 112 on the material discharging tray 111 and the material passing hole on the material distributing plate 131 are arranged in a staggered mode, and the bottom of the material inlet 112 is sealed by the plate surface of the material distributing plate 131. When core materials need to fall into the cavity of the outer materials, the first driving member 113 drives the discharging tray 111 to align the feeding holes 112 on the discharging tray 111 with the passing holes on the material distributing plate 131 (namely, the centers of the feeding holes 112 and the passing holes at the same position are on the same straight line), so that the core materials fall through the feeding holes 112 and the passing holes.

The manner of driving the discharging tray 111 by the first driving member 113 is not limited, and may be a linear reciprocating driving manner or an oscillating reciprocating driving manner, for example, the first driving member 113 drives the discharging tray 111 to reciprocate above the distributing plate 131 along a straight line for a preset distance, so as to close and open the bottom of the feeding hole 112 on the discharging tray 111. Alternatively, the first driving member 113 drives the material placing tray 111 to swing back and forth above the material distributing plate 131 by a preset angle, so as to close and open the bottom of the material feeding hole 112 on the material placing tray 111.

The first driving member 113 may be an air cylinder, a ball screw mechanism, a rack and pinion mechanism, a hydraulic cylinder, or a swing angle motor, as long as the dislocation and alignment between the feeding hole 112 on the material placing tray 111 and the material passing hole on the material distributing tray 131 can be realized.

Optionally, the first drive member 113 is a cylinder.

The air cylinder has the advantages of simple structure, easy installation and maintenance, large output force, strong adaptability, capability of normally working in high-temperature and low-temperature environments, dust prevention and water prevention, and adaptability to various severe environments. Adopt cylinder drive blowing dish 111 not only can make blowing dish 111 along linear direction reciprocating motion, can also guarantee the life-span of first driving piece 113, reduce maintenance and change.

Referring to fig. 1 and fig. 2 in combination, optionally, the lower surface of the material placing tray 111 is disposed to be attached to the upper surface of the material distributing plate 131, and the first driving member 113 is fixed to the upper surface of the material distributing plate 131.

The material placing plate 111 and the material distributing plate 131 are attached to each other, so that the core material can smoothly enter the material passing hole after being separated from the material feeding hole 112, and the bottom of the material feeding hole 112 is well sealed when the material feeding hole 112 and the material passing hole are arranged in a staggered mode. In addition, the material distributing plate 131 can also support the material placing plate 111, so that the material placing plate 111 can be conveniently installed and positioned. The first driving member 113 is disposed on the upper surface of the material distributing plate 131, and directly drives the material distributing plate to attach to the upper surface of the material distributing plate 131 for reciprocating motion.

Referring to fig. 1, optionally, the first driving members 113 include two first driving members 113, and the two first driving members 113 are respectively and symmetrically connected to two opposite sides of the material placing tray 111.

The two first driving members 113 are symmetrically arranged, are respectively connected with two opposite sides of the material placing tray 111, are matched with each other, and simultaneously drive the material placing tray 111 to move. It should be understood that the driving ends of the two first driving members 113 are arranged in the same direction, move synchronously, and have the same moving direction and moving speed, so that the phenomenon that the discharging tray 111 deflects after the two opposite sides of the discharging tray 111 are driven to move simultaneously can be ensured. In addition, the two first driving parts 113 which are symmetrically arranged simultaneously drive the discharging tray 111 to move, the driving force of the single first driving part 113 can be reduced, and the two sides of the discharging tray 111 simultaneously apply force, so that the stress of the discharging tray 111 is more uniform, the movement is more stable, and the movement cannot deviate from a preset route.

Referring to fig. 1 and fig. 2, optionally, the material collecting mechanism further includes a second driving member 123 connected to the material collecting tray 121, and the second driving member 123 is configured to drive the material collecting tray 121 to reciprocate in the vertical direction.

The second driving member 123 is disposed below the material receiving tray 121, so that the material receiving tray 121 is driven to linearly reciprocate in a vertical direction to approach and separate from the material distributing plate 131. It should be understood that when the material needs to be dispensed, after the projections of the plurality of material receiving holes 122 on the material receiving mechanism and the plurality of material passing holes on the material distributing plate 131 are in one-to-one correspondence, the second driving member 123 drives the material receiving disc 121 to approach the material distributing plate 131, so that the edge of the cavity of the outer material in the material receiving disc 121 approaches the material passing holes on the material distributing plate 131 to receive the core material; after the material dispensing is finished, the second driving member 123 drives the material receiving tray 121 to be away from the material distributing plate 131, so that the exterior material after the material dispensing is finished can be conveniently taken out, and new exterior material which is not dispensed can be added into the material receiving hole 122.

The structure of the second driving member 123 is not limited in this embodiment, and may be an air cylinder, a ball screw mechanism, a rack and pinion mechanism, a hydraulic cylinder, etc., as long as the material receiving tray 121 can reciprocate in the vertical direction. Illustratively, the second driver 123 is a cylinder. Adopt cylinder drive material receiving disc 121 not only can make material receiving disc 121 along linear direction reciprocating motion, can also guarantee the life-span of second driving piece 123, reduce maintenance and change.

Optionally, the material receiving mechanism further includes a third driving member connected to the material receiving tray 121, and the third driving member is configured to drive the material receiving tray 121 to move, so that the projections of the plurality of material receiving holes 122 on the material receiving mechanism and the plurality of material passing holes on the material distributing plate 131 are in one-to-one correspondence.

If the projections of the plurality of material receiving holes 122 and the plurality of material passing holes correspond one to one, the material counting process can be completed by directly driving the material receiving tray 121 by the second driving member 123. However, sometimes, in order to facilitate the taking out and replacing of the outsides, the material receiving tray 121 and the material distributing plate 131 need to be arranged in a staggered manner in the vertical direction so as to prevent the material distributing plate 131 from blocking the operation on the material receiving tray 121 below, and at this time, the third driving member needs to drive the material receiving tray 121 to move in the horizontal direction so as to enable the material receiving tray 121 and the material distributing plate 131 to be staggered or aligned.

When the material needs to be dispensed, the third driving member drives the material receiving tray 121 to align with the material distributing plate 131, so that the projections of the material receiving holes 122 and the material passing holes are ensured to be in one-to-one correspondence to receive the core materials; after the material dispensing is finished, the third driving member drives the material receiving disc 121 and the material distributing plate 131 to be staggered, so that the space above the material receiving disc 121 is not limited by the material distributing plate 131, the exterior material after the material dispensing is finished can be conveniently taken out, and new exterior material which is not dispensed is added into the material receiving hole 122.

The structure of the third driving member is not limited in this embodiment, and may be an air cylinder, a ball screw mechanism, a rack and pinion mechanism, a hydraulic cylinder, etc., as long as the receiving tray 121 can be driven to move, so that the projections of the plurality of receiving holes 122 on the receiving mechanism and the plurality of material passing holes on the material distributing plate 131 correspond to each other one by one. Illustratively, the third driver is a cylinder. Adopt cylinder drive material receiving disc 121 not only can make material receiving disc 121 along horizontal direction reciprocating motion, can also guarantee the life-span of third driving piece, reduce maintenance and change.

The embodiment also provides food processing equipment comprising the material dropping device 100. Above-mentioned food processing equipment can make in the automatic cavity that gets into the outer material of core material, realizes the automatic point and expects the function, and job stabilization is reliable and efficient, simultaneously, has avoided the manual contact at the point material in-process, has reduced the risk of pollution, has ensured the food safety of compound food processing more.

In the foregoing explanation of the material dropping device 100, the operation manner, the operation principle, and the like of the material dropping device 100 disposed on the food processing equipment have been described in detail, and are not described again.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A material dotting device, characterized by comprising: drop feed mechanism, receiving agencies and setting are in drop feed mechanism with feed mechanism between the receiving agencies, drop feed mechanism includes the blowing dish, be equipped with a plurality of pan feeding holes on the blowing dish, it is a plurality of the pan feeding hole is used for holding the core material, feed mechanism is including dividing the flitch, divide to be equipped with on the flitch can with a plurality of punishment in advance hole correspondence, receiving agencies is including receiving the charging tray, it can with a plurality of to be equipped with on the receiving tray a plurality of receiving holes that the punishment in advance hole corresponds, it is a plurality of the receiving hole is used for holding the exotic material, the pan feeding hole the punishment in advance hole with under the state that the receiving hole projection corresponds, the setting is in on the blowing dish the core material can loop through the pan feeding hole the punishment in advance hole falls into on the receiving tray in the cavity of exotic material.

2. The material dropping device according to claim 1, wherein the discharging mechanism further comprises a first driving member connected with the discharging tray, and the first driving member is used for driving the discharging tray to move, so that the plurality of feeding holes on the discharging mechanism correspond to the projections of the plurality of material passing holes on the material distributing plate in a one-to-one manner.

3. The material dropping device according to claim 2, wherein the lower surface of the material placing tray is arranged to be fitted with the upper surface of the material distributing plate, and the first driving member is fixed to the upper surface of the material distributing plate.

4. The material dropping device according to claim 1, wherein the material receiving mechanism further comprises a second driving member connected with the material receiving tray, and the second driving member is used for driving the material receiving tray to reciprocate along the vertical direction.

5. The material dropping device according to claim 4, wherein the material receiving mechanism further comprises a third driving member connected to the material receiving tray, and the third driving member is configured to drive the material receiving tray to move, so that the plurality of material receiving holes on the material receiving mechanism correspond to the projections of the plurality of material passing holes on the material distributing plate one by one.

6. The dispensing device of claim 1, wherein a plurality of said arrays of feed holes are disposed on said dispensing tray.

7. The material dropping device according to claim 1, wherein the diameter of the material passing hole and the diameter of the material receiving hole are not smaller than the diameter of the material inlet hole.

8. The material dropping device according to claim 3, wherein the number of the first driving members is two, and the two first driving members are symmetrically connected to two opposite sides of the material placing tray respectively.

9. The dotting device according to claim 2, characterized in that the first driving member is a cylinder.

10. Food processing apparatus, characterized in that it comprises a dispensing device according to any one of claims 1 to 9.

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