CN219114147U - Filling material cutting and injecting device - Google Patents

Abstract

The utility model belongs to the food processing equipment field especially relates to a filling material cutting injection device that can cut filling material respectively and annotate filling, and it includes the mount pad, cuts device and injection device, cut device and injection device install respectively on the mount pad, cut device is used for cutting filling material, injection device is used for annotating filling material one by one after cutting. The slitting device comprises a chute, the exit of chute is provided with the rotatory material seat that leaks of autorotation, the top of rotatory material seat that leaks is provided with and is used for cutting the cutter that cuts of filling material, rotatory material seat bottom and injection apparatus intercommunication this application have realized cutting the average of filling material through cutting the device, and the filling material after cutting can be by the injection into farci food in proper order, accomplishes follow-up shaping work, has realized the automatic process that filling material cut.

Description

Filling material cutting and injecting device

Technical Field

The application belongs to the field of food processing equipment, and particularly relates to a filling material cutting and injecting device capable of cutting and injecting filling materials respectively.

Background

When the stuffed food is processed, the stuffing is sometimes required to be cut, for example, the whole yolk is cut to form multiple pieces of stuffing, each piece of stuffing is correspondingly injected into one stuffed food, and the existing processing mode is usually to manually cut the stuffing or cut by using cutting equipment. However, manual slitting is time-consuming and labor-consuming, and potential safety hazards may exist. The slitting equipment is used for slitting, namely, in-line slitting is generally adopted, namely, stuffing is in a straight line, then the slitting is carried out section by section along the length direction of the straight line, and then the stuffing is injected. But this approach is not suitable for filling in the form of balls, tortillas, or requires divergent slitting of the filling from a central location.

Related patents in the prior art are the utility model patent with the application number of CN201820100268.6 and the name of stuffing cutter, and the technical scheme is as follows: the utility model discloses a stuffing cutter, which relates to the field of food processing equipment and comprises a machine body, a feed hopper, a screw conveyor, a discharge hopper, a discharge port and a conveying belt, wherein the discharge hopper is circular in shape. Although the stuffing is cut through the contraction of the two cutters, the stuffing can be basically cut only for strip stuffing, and the cutting and injection of the stuffing can not be realized.

Disclosure of Invention

In order to solve the technical problem, the application provides a filling material cutting and injecting device which can be suitable for spherical food, regularly cuts filling materials and sequentially injects the cut filling materials.

In order to achieve the technical effects, the technical scheme of the application is as follows:

the utility model provides a filling material cuts injection device, includes the mount pad, cuts device and injection device, cut device and injection device install respectively on the mount pad, cut the device and be used for cutting the filling material, injection device is used for annotating the filling material after cutting one by one.

Further, the slitting device comprises a chute, a rotatable rotary material leakage seat is arranged at the outlet end of the chute, a slitting knife used for slitting stuffing is arranged above the rotary material leakage seat, and the bottom of the rotary material leakage seat is communicated with the injection device.

Further, the chute is obliquely arranged, and the obliquely arranged chute is fixed with the mounting seat through the chute stay bar.

Still further, the bottom of rotatory material seat that leaks is provided with the holding surface, be provided with fretwork portion on the holding surface.

Still further, rotatory material seat that leaks is including shell body and interior casing, be provided with the air inlet on the shell body, be provided with the gas outlet on the interior casing, be hollow structure between shell body and the interior casing, hollow structure forms gas transmission channel, the gas outlet is located the position at fretwork portion place.

Still further, divide the cutter for cross cutter or rice font cutter, divide the cutter and link to each other with drive arrangement.

Further, the hollowed-out part is a quarter circle or an eighth circle.

Further, a driving gear is arranged outside the outer shell, and the driving gear rotates under the driving of the driving device.

Still further, the exit end of spout is provided with the driving lever that is used for dialling the filling material in the spout, the driving lever includes the pivoted post and fixes a plurality of shelves poles on the pivoted post, the pivoted post rotates under drive arrangement's drive.

Further, the sliding grooves are at least two groups which are arranged side by side, the rotating columns among the sliding grooves are respectively connected with one gear, the gears are meshed with each other, and the driving device is connected with one gear and drives the driving device to rotate.

Further, the injection device comprises a hopper communicated with the slitting device, a stuffing feeding pipe horizontally arranged is connected below the hopper, a pushing piston for horizontally pushing the slit stuffing is arranged in the stuffing feeding pipe, and an outlet of the stuffing feeding pipe is communicated with the stuffing injection pipe.

Still further, one end of the pushing piston and the driving device drive the pushing piston to do horizontal reciprocating motion.

Further, the stuffing is spherical stuffing or cake stuffing. The cross-sectional shape of the spherical filling and the pie filling herein should be regular or irregular patterns that are circular or nearly circular. The cake-shaped stuffing refers to a shape obtained by flattening spherical stuffing.

The application has the advantages that:

1. the device has realized cutting the average of filling through cutting the device, and the filling after cutting can be by the injection into farci food in proper order, accomplishes subsequent shaping work, has realized the automatic process that the filling cut.

2. The utility model provides a cut device is through setting up the rotatory material seat that leaks when dividing the cutter and the rotation of complex with it, has realized that every is cut the independent dropping of filling of partial filling, rotatory fretwork portion that leaks material seat lower part and the filling size adaptation of being cut, has avoided the unable whereabouts problem of filling by cutting successively.

3. The rotatory gas outlet that is provided with the gas blowing on leaking the material seat of this application, when the filling takes place the adhesion with cutting the sword, when unable resorting to gravity takes place the separation with cutting the sword, gas outlet and outside air supply intercommunication blow to the filling of this position, make it can be more quick whereabouts.

4. The driving lever can put into rotatory material seat that leaks in proper order with filling, through the rotation of driving lever, realizes the effect of once passing a filling to when being provided with a plurality of spouts, can realize a power supply through gear or other structures and drive multiunit driving lever pivoted effect.

Drawings

Fig. 1 is a schematic structural view of a filling slitting and injecting device.

Fig. 2 is a side cross-sectional view of the filling split injection device.

Fig. 3 is a schematic view of the structure of the slitting knife.

Fig. 4-5 are schematic diagrams of rotary leakage seats.

Fig. 6 is a top view of the slitting device.

Fig. 7 is a schematic view of the structure of the injection device.

In the accompanying drawings: 100 parts of a mounting seat, 200 parts of a slitting device, 300 parts of an injection device and 400 parts of stuffing.

201-chute, 202-rotary leakage seat, 203-parting knife, 204-chute stay bar, 205-supporting surface, 206-hollowed-out part, 207-outer shell, 208-inner shell, 209-air inlet, 210-air outlet, 211-driving gear, 212-deflector rod, 213-rotary column and 214-baffle rod.

301-a hopper, 302-a stuffing feeding pipe and 303-a pushing piston.

Detailed Description

Example 1

As shown in fig. 1 and 2, a filling slitting and injecting device comprises a mounting seat 100, a slitting device 200 and an injecting device 300, wherein the slitting device 200 and the injecting device 300 are respectively mounted on the mounting seat 100, the slitting device 200 is used for slitting filling 400, and the injecting device 300 is used for injecting the split filling one by one. The slitting device 200 in this embodiment may implement slitting by using a cutter to average slit the filling 400 or by using a die to shape the sphere. The average cutting of the stuffing 400 is achieved through the cutting device 200, the cut stuffing 400 can be sequentially injected into stuffed foods, subsequent forming work is completed, and automatic cutting procedures of the stuffing 400 are achieved.

Example 2

As shown in fig. 1 and 2, a filling slitting and injecting device comprises a mounting seat 100, a slitting device 200 and an injecting device 300, wherein the slitting device 200 and the injecting device 300 are respectively mounted on the mounting seat 100, the slitting device 200 is used for slitting filling 400, and the injecting device 300 is used for injecting the split filling one by one. The stuffing 400 may be spherical stuffing, such as yolk, etc., or cake stuffing, such as haw slices, etc.

As shown in fig. 1 and 2, the slitting device 200 comprises a chute 201, a rotatable rotary leakage seat 202 is arranged at the outlet end of the chute 201, a slitting knife 203 for slitting the filling 400 is arranged above the rotary leakage seat 202, and the bottom of the rotary leakage seat 202 is communicated with the injection device 300. After the stuffing 400 enters the rotary material leakage seat 202, the slitting knife 203 enters the rotary material leakage seat 202 to slit the stuffing 400, the slitting knife 203 is still positioned in the rotary material leakage seat 202 after the slitting is completed, and the slitting knife resets after all the stuffing to be slit falls down from the rotary material leakage seat 202 one by one.

The chute 201 is arranged obliquely, and the chute 201 arranged obliquely is fixed with the mounting seat 100 through a chute stay 204.

As shown in fig. 4 and 5, a supporting surface 205 is provided at the bottom of the rotary leakage seat 202, and a hollowed-out portion 206 is provided on the supporting surface 205. The support surface 205 provides support for the filling 400 falling into the rotary leakage seat 202, and also provides a reverse support force for the bisecting knife 203 during cutting, and the hollowed-out portion 206 can enable the cut filling to fall out of the hollowed-out portion 206, and the hollowed-out portion 206 can be shaped to accommodate a size of the cut filling. The rotary material leakage seat 202 comprises an outer shell 207 and an inner shell 208, an air inlet 209 is formed in the outer shell 207, an air outlet 210 is formed in the inner shell 208, a hollow structure is arranged between the outer shell 207 and the inner shell 208, a gas transmission channel is formed by the hollow structure, and the air outlet 210 is located in the position where the hollow part 206 is located. The air tap is installed at the air inlet 209, and the air outlet 210 is blown through an external air source, and because the air outlet 210 is always located above the hollowed-out portion 206, when the air of the air outlet 210 is blown out, the back-cut portion of the filling 400 located on the splitting knife 203 is separated from the splitting knife 203 in the blowing process, so that the filling falls down to the hollowed-out portion more quickly.

As shown in fig. 3, the slitting knife 203 is a cross-shaped knife or a rice-shaped knife, and the slitting knife 203 is connected with a driving device. The cross-shaped cutter or the rice-shaped cutter can symmetrically divide the stuffing 400 into a plurality of parts, and the driving device can be an air cylinder or other existing power sources capable of driving the dividing cutter 203 to reciprocate.

The hollowed-out portion 206 is a quarter circle or an eighth circle. Theoretically, only one portion of the cut stuffing can be accommodated.

As shown in fig. 4 and 5, a driving gear 211 is provided outside the outer housing 207, and the driving gear 211 is driven by a driving device to rotate. The driving device can be used for an existing power source such as a micro motor. Other conventional transmission structures capable of driving rotation may be used in addition to the driving gear 211.

As shown in fig. 6, the outlet end of the chute 201 is provided with a stirring rod 212 for stirring the stuffing 400 in the chute 201, the stirring rod 212 comprises a rotating column 213 and a plurality of stopping rods 214 fixed on the rotating column 213, and the rotating column 213 is driven by a driving device to rotate. The driving device can be a micro motor or other existing power source, and drives the rotating column 213 to rotate, so that the plurality of gear rods 214 are driven to rotate, the plurality of gear rods 214 sequentially separate and separate spherical foods on the chute 201 while rotating, and the separated stuffing 400 is pushed downwards after continuing rotating, so that the stirring of single stuffing 400 is realized. The entire shape of the shift lever 212 may be cross-shaped, straight-line-shaped, Y-shaped, etc., so long as the stuffing can be released one by one through rotation.

The sliding grooves 201 are at least two groups arranged side by side, the rotating columns 213 of each group of sliding grooves 201 are respectively connected with one gear, the gears are meshed with each other, and the driving device is connected with one gear and drives the driving device to rotate. The two groups can make them share the driving device, so as to realize the effect of one-belt two or one-belt more.

As shown in fig. 2 and 7, the injection device 300 comprises a hopper 301 communicated with the slitting device 200, a filling feeding pipe 302 horizontally arranged is connected below the hopper 301, a pushing piston 303 for horizontally pushing the slit filling is arranged in the filling feeding pipe 302, and an outlet of the filling feeding pipe 302 is communicated with the filling feeding pipe. The stuffing feeding pipe 302 is horizontally arranged, the stuffing feeding pipe is vertically arranged, and after the cut stuffing falls into the stuffing feeding pipe 302, the stuffing is fed into the stuffing feeding pipe through horizontal pushing, and is downwards injected into the dough cover in the stuffing injection structure of the stuffing feeding pipe.

One end of the pushing piston 303 and the driving device drive the pushing piston to do horizontal reciprocating motion. The driving device can be realized by the existing power source equipment such as an electric cylinder, a servo motor and the like.

The working principle is as follows:

the stuffing 400 enters the slitting device 200 one by one, the slitting device 200 simultaneously slits the stuffing 400 into a plurality of portions, each portion of stuffing falls into the injection device 300 one by one, and the injection device 300 sequentially injects each portion of stuffing into the stuffed food.

The stuffing 400 firstly enters the rotary leakage seat 202, then the slitting knife 203 of the slitting device 200 enters the rotary leakage seat 202 to slit the stuffing 400 positioned in the rotary leakage seat 202, the bottom of the rotary leakage seat 202 supports the slit stuffing 400, the slit stuffing 400 is positioned in the gap of the slitting knife 203, the hollowed-out part 206 at the bottom of the rotary leakage seat 202 corresponds to the gap of one slitting knife 203, the stuffing positioned at the corresponding position of the hollowed-out part 206 can drop through the hollowed-out part 206, at the moment, the rotary leakage seat 202 starts to rotate, the rotation is stopped when the hollowed-out part 206 rotates to the bottom of another stuffing, and at the moment, the stuffing positioned at the position and positioned in the gap of the slitting knife 203 can drop through the hollowed-out part 206 due to the lack of support at the bottom.

An air outlet hole is formed in the rotary material leakage seat 202 and is connected with an external air source, and the air outlet hole blows up the cut spherical food at the hollowed-out part, so that the food between the gaps of the slitting knife 203 is more easily separated from the slitting knife 203 and falls into the hollowed-out part 206.

The stuffing enters the stuffing feeding pipe 302 from top to bottom through the hopper 301 of the injection device 300, and the stuffing in the stuffing feeding pipe 302 pushes the cut stuffing 400 into the stuffing feeding pipe for stuffing injection under the transverse pushing of the piston.

The stuffing 400 is conveyed into the slitting device 200 through the chute 201, and the stuffing 400 in the chute 201 is blocked and released through the rotary deflector rod 212.

The fillings referred to herein include those of a perfect spherical, ellipsoidal or other regular or irregular spherical structure.

Claims (8)

1. Filling material cuts injection device, its characterized in that: the filling machine comprises a mounting seat (100), a slitting device (200) and an injection device (300), wherein the slitting device (200) and the injection device (300) are respectively arranged on the mounting seat (100), the slitting device (200) is used for slitting stuffing (400), and the injection device (300) is used for injecting the split stuffing one by one;

the slitting device (200) comprises a chute (201), a rotatable rotary material leakage seat (202) is arranged at the outlet end of the chute (201), a slitting knife (203) for slitting stuffing (400) is arranged above the rotary material leakage seat (202), and the bottom of the rotary material leakage seat (202) is communicated with the injection device (300); after the stuffing (400) enters the rotary material leakage seat (202), the slitting knife (203) enters the rotary material leakage seat (202) to realize the slitting of the stuffing (400), the slitting knife (203) is still positioned in the rotary material leakage seat (202) after the slitting is completed, and after all the split stuffing falls down from the rotary material leakage seat (202) one by one, the slitting knife is reset;

the filling device (300) comprises a hopper (301) communicated with the slitting device (200), a filling feeding pipe (302) horizontally arranged is connected below the hopper (301), a pushing piston (303) for horizontally pushing the slit filling is arranged in the filling feeding pipe (302), and an outlet of the filling feeding pipe (302) is communicated with the filling feeding pipe.

2. A filling slitting and filling device according to claim 1, wherein: the bottom of the rotary material leakage seat (202) is provided with a supporting surface (205), and the supporting surface (205) is provided with a hollowed-out part (206).

3. A filling slitting and filling device according to claim 2, wherein: the rotary material leakage seat (202) comprises an outer shell (207) and an inner shell (208), an air inlet (209) is formed in the outer shell (207), an air outlet (210) is formed in the inner shell (208), a hollow structure is arranged between the outer shell (207) and the inner shell (208), a gas transmission channel is formed by the hollow structure, and the air outlet (210) is located in the position where the hollow part (206) is located.

4. A filling slitting and filling device according to claim 1, wherein: the slitting knife (203) is a cross-shaped cutter or a rice-shaped cutter, and the slitting knife (203) is connected with a driving device.

5. A filling slitting and filling device according to claim 3, wherein: the outside of the outer shell (207) is provided with a driving gear (211), and the driving gear (211) rotates under the drive of a driving device.

6. A filling slitting and filling device according to claim 1, wherein: the automatic filling machine is characterized in that a deflector rod (212) for deflector filling (400) in the chute (201) is arranged at the outlet end of the chute (201), the deflector rod (212) comprises a rotating column (213) and a plurality of baffle rods (214) fixed on the rotating column (213), and the rotating column (213) is driven by a driving device to rotate.

7. The filling parting and filling machine according to claim 6, wherein: the sliding grooves (201) are at least two groups which are arranged side by side, the rotating columns (213) between the sliding grooves (201) of each group are respectively connected with one gear, the gears are meshed with each other, and the driving device is connected with one gear and drives the driving device to rotate.

8. A filling slitting and filling device according to claim 1, wherein: the stuffing (400) is spherical stuffing or cake stuffing.

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