CN211417683U - Canned food automatic feeding device - Google Patents

Abstract

The utility model provides a canned food automatic feeding device belongs to the food processing equipment field. It has solved prior art and has had the problem that production efficiency is low, workman working strength is big. The utility model discloses a first conveyer belt, second conveyer belt, clamping mechanism, reinforced mechanism and the dust absorption mechanism that sets gradually, first conveyer belt and second conveyer belt end to end, clamping mechanism install on the second conveyer belt, and reciprocating motion can still be along second conveyer belt length direction and width direction simultaneously to clamping mechanism, and reinforced mechanism includes the feed tube cover, and directly over the second conveyer belt was arranged to the feed tube cover, the feed tube cover still was connected with the dust absorption mechanism that is used for carrying out the dust absorption to the jar mouth. The utility model has the advantages of reduce workman working strength, production efficiency is high.

Description

Canned food automatic feeding device

Technical Field

The utility model belongs to food processing equipment field, concretely relates to canned food automatic feeding device.

Background

The nutritional meal replacement food is a diet scheme with high protein, high dietary fiber, low sugar and low fat as guidance, and properly reduces energy intake according to different individual conditions on the premise of ensuring the total protein intake; under the guidance of a nutrition balance adjusting scheme made by a professional dietician, the diet structure is adjusted through the action of a nutrition rod along with a meal, the intake of carbohydrate and high-fat food is reduced, the blood sugar is stabilized, the secretion of insulin is reduced, the fat synthesis is inhibited, and the energy supply by carbohydrate decomposition is converted into the energy supply by fat decomposition originally, so that the fat decomposition is started, and the purpose of reducing fat is achieved. At present, current production is when reinforced filling in the nutrition meal replacement food to the canning, adopts artifical reinforced mode usually, the nutrition meal replacement powder of weighing well in advance, the rethread is artifical pours the nutrition meal replacement powder into the jar in, the jar is generally carried through the assembly line, there is the problem that production efficiency is low, workman working strength is big in this kind of mode, need artifical clearance to the powder of adding powder in jar mouth department in addition, workman's working strength has further been increased, production efficiency has been reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a canned food automatic feeding device that production efficiency is high, reduce workman working strength to the above-mentioned problem that exists among the prior art.

In order to realize the purpose of the utility model, the utility model adopts the following technical scheme: the utility model provides a canned food automatic feeding device, a serial communication port, including first conveyer belt, second conveyer belt, clamping mechanism, reinforced mechanism and the dust absorption mechanism that sets gradually, first conveyer belt and second conveyer belt end to end, clamping mechanism install on the second conveyer belt, clamping mechanism still can follow second conveyer belt length direction and width direction and be reciprocating motion simultaneously, reinforced mechanism include the charging tube cover, the charging tube cover set up directly over the second conveyer belt, the charging tube cover still be connected with and be used for carrying out the dust absorption mechanism of dust absorption to the jar mouth. When processing, empty bottle jar is carried first conveyer belt from other equipment on, clamping mechanism removes to get empty bottle jar from first conveyer belt tail end clamp and removes the second conveyer belt top and loosen, when the second conveyer belt carries empty bottle jar under the reinforced pipe casing of mechanism, reinforced mechanism pours into empty bottle jar with nutrition food powder or other raw materials into, reinforced volume can be controlled by reinforced time, dust absorption mechanism carries out the dust absorption to the bottle jar mouth after having added the material, absorb remaining powder. By adopting the arrangement, the working strength of workers is greatly reduced, and the production efficiency is improved.

Further, the first conveying belt and the second conveying belt are the same in height. The two conveying belts run independently and do not influence the work mutually. The arrangement with the same height can facilitate the clamping of the clamping mechanism, the height of the clamping mechanism does not need to be adjusted, and a group of driving mechanisms are saved.

Further, the first conveyer belt on still be equipped with first conveyer belt parallel arrangement's horizontal sliding way, horizontal sliding way including two rectangular shape blend stops that are located first conveyer belt top, rectangular shape blend stop pass through the installing support and fix on first conveyer belt, the installing support pass through the connecting piece and fix at first conveyer belt both sides face. The side at first conveyer belt both sides is fixed through the connecting piece to the installing support, connects rectangle blend stop and installing support again for the rectangle blend stop is located the both sides of first conveyer belt top respectively and forms horizontal slideway, and this slide can guide and prevent the effect of falling, simple structure, easy dismounting simultaneously to the bottle jar that gets into first conveyer belt.

Furthermore, support type aluminum is further arranged on the strip-shaped barrier strips and is connected with the mounting bracket through a sliding block and a connecting piece. Support type aluminium for common standard component on the market, only need through supporting slider insert type aluminium's spout in, use on the slider preset screw pass through the connecting piece fixed with the installing support can, simple structure not only, easy dismounting, low in manufacturing cost has greatly reduced design and processing cost moreover.

Further, the clamping mechanism comprises a first side plate arranged on the feeding mechanism and a second side plate connected with a first driving mechanism, the first side plate and the second side plate are both parallel to the upper surface of the second conveyor belt, a gap slideway for the bottles and cans to enter is arranged between the first side plate and the second side plate, the second side plate can reciprocate along the width direction of the second conveying belt under the driving of the first driving mechanism to realize the clamping and loosening operation of the bottles and the cans, the first driving mechanism is arranged on the side surface of the feeding mechanism in a sliding way, the first driving mechanism is also connected with a second driving mechanism used for driving the second side plate to do reciprocating motion along the length direction of the second conveyor belt, the feeding mechanism is also provided with a sliding support for supporting the second driving mechanism, the first side plate is connected with a third driving mechanism, the third driving mechanism can drive the first side plate to reciprocate along the length direction of the second conveyor belt. The clearance slide opens under first actuating mechanism drive through the second curb plate, thereby the first actuating mechanism of second actuating mechanism drive drives the second curb plate and removes to first conveyer belt, third actuating mechanism also drives first curb plate and removes to first conveyer belt, two blocks of curb plates synchronous operation, carry the empty bottle jar that will be located on first conveyer belt through first actuating mechanism, rethread second actuating mechanism removes the empty bottle jar to second conveyer belt top and unclamps, adopt above-mentioned setting not only can play positioning action and fixed action to the bottle jar, make things convenient for reinforced mechanism's reinforced, and the execution efficiency is high.

Furthermore, a plurality of arc-shaped openings matched with the shape of the bottle and can are also formed in the first side plate and the second side plate, and at least one arc-shaped opening is formed in the top end and the tail end of each of the first side plate and the second side plate. The contact area between the bottle and the can be increased through the arc-shaped opening, and the bottle and the can be better clamped.

Furthermore, the dust absorption mechanism comprises a dust absorption pipe and a dust absorption device, two ends of the dust absorption pipe are respectively connected with the feeding pipe cover and the dust absorption device, and the dust absorption device is arranged on the side surface of the feeding mechanism. Provide suction for the dust absorption pipe through dust extraction, absorb the powder of the bottle jar mouth that the reinforced pipe cover covered to clear away the powder of bottle jar mouth, need not the manual work and wash the bottle, reduced workman's working strength.

Furthermore, feeding device still include the frame and install the charging bucket in the frame, charging bucket bottom connect the charging tube cover, the charging bucket in be equipped with and be used for controlling raw materials exhaust control switch. The control switch controls the raw material in and out of the charging barrel, and the raw material can enter the bottle tank along with the charging pipe cover under the action of gravity, so that the structure is simple.

Furthermore, the first driving mechanism is connected with the rack in a sliding block sliding groove mode. The first driving mechanism and the rack are in a sliding block sliding groove mode, a sliding block is arranged on the first driving mechanism, and a sliding groove is formed in the rack.

Furthermore, the sliding support comprises a main plate and a plurality of rollers which are slidably mounted on the main plate, and the rollers are abutted against the bottom of the second driving mechanism. The second driving mechanism is supported through the sliding support, meanwhile, the second driving mechanism can conveniently move along with the first driving mechanism due to the arrangement of the rollers, the friction force of rolling friction is smaller than that of sliding friction, and the arrangement direction of the sliding support rollers is parallel to the second conveying belt.

Compared with the prior art, the automatic loading device for canned food, which adopts the technical scheme, has the following beneficial effects:

the utility model discloses a canned food automatic feeding device has the advantage that reduces workman working strength, production efficiency is high.

Drawings

Fig. 1 is an isometric schematic view of the present invention;

FIG. 2 is a front view of FIG. 1;

FIG. 3 is an enlarged view of a portion of the first conveyor belt of FIG. 1;

fig. 4 is a right side view of fig. 1.

In the figure, 1, a first conveyor belt; 2. a second conveyor belt; 3. a clamping mechanism; 4. a feeding mechanism; 5. a dust suction mechanism; 6. a charging pipe cover; 7. a horizontal slideway; 8. a strip-shaped barrier strip; 9. mounting a bracket; 10. supporting aluminum; 11. a slider; 12. a connecting member; 13. a first side plate; 14. a second side plate; 15. a bottle; 16. a clearance slide; 17. sliding support; 18. a second drive mechanism; 19. an arc-shaped opening; 20. a dust collection pipe; 21. a dust collection device; 22. a frame; 23. a charging barrel; 24. a main board; 25. a drum; 26. a first drive mechanism; 27. and a third drive mechanism.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1-4, this canned food automatic feeding device is including the first conveyer belt 1 that sets gradually, second conveyer belt 2, clamping mechanism 3, reinforced mechanism 4 and dust absorption mechanism 5, first conveyer belt 1 and the butt joint of second conveyer belt 2, clamping mechanism 3 installs on second conveyer belt 2, clamping mechanism 3 still can be along 2 length direction of second conveyer belt and width direction reciprocating motion simultaneously, reinforced mechanism 4 includes reinforced pipe cover 6, reinforced pipe cover 6 sets up directly over second conveyer belt 2, reinforced pipe cover 6 connects the dust absorption mechanism 5 that is used for carrying out the dust absorption to 15 mouths of bottle jar. When processing, empty bottle jar 15 is carried on first conveyer belt 1 from other equipment, clamping mechanism 3 removes to get empty bottle jar 15 from 1 tail end clamp of first conveyer belt and removes and loosen 2 tops of second conveyer belt, when second conveyer belt 2 carries empty bottle jar 15 to the reinforced pipe casing 6 of reinforced mechanism 4 under, reinforced mechanism 4 pours into empty bottle jar 15 with nutrition food powder or other raw materials in, reinforced volume can be controlled by reinforced time, add the material back dust absorption mechanism 5 and carry out the dust absorption to bottle jar 15 mouth, absorb remaining powder.

Specifically, here first conveyer belt 1 and second conveyer belt 2 are the common conveyer belt equipment in the market, first conveyer belt 1 and second conveyer belt 2 butt joint and mutual independence operation, second conveyer belt 2 sets up in the position of charging tube cover 6 below, the highly uniform of first conveyer belt 1 and second conveyer belt 2, still be equipped with the horizontal slide 7 with first conveyer belt 1 parallel arrangement on the first conveyer belt 1, horizontal slide 7 is including two rectangular shape blend stops 8 that are located first conveyer belt 1 top, rectangular shape blend stop 8 passes through installing support 9 to be fixed on first conveyer belt 1, installing support 9 passes through connecting piece 12 to be fixed at first conveyer belt 1 both sides face.

Preferably, the elongated barrier 8 is further provided with a supporting aluminum 10, and the supporting aluminum 10 is connected with the mounting bracket 9 through a sliding block 11 and a connecting piece 12. The supporting aluminum 10 is made of shaped aluminum, the shaped aluminum is a standard component which is common on the market, the sliding block 11 is a standard component which can slide in a sliding groove of the shaped aluminum and is provided with a threaded hole, the connecting piece 12 is a long rod with external threads, and the long rod penetrates through a hole of the mounting bracket 9 and is in threaded connection with the sliding block 11 to fix the supporting aluminum 10 and the mounting bracket 9.

Specifically, further, the clamping mechanism 3 includes a first side plate 13 mounted on the feeding mechanism 4 and a second side plate 14 connected with a first driving mechanism 26, the first side plate 13 and the second side plate 14 are both parallel to the upper surface of the second conveyor belt 2, a gap slide 16 for the bottle 15 to enter is further disposed between the first side plate 13 and the second side plate 14, the second side plate 14 can reciprocate along the width direction of the second conveyor belt 2 under the driving of the first driving mechanism 26 to clamp and release the bottle 15, the first driving mechanism 26 is slidably mounted on the side surface of the feeding mechanism 4, the first driving mechanism 26 is further connected with a second driving mechanism 18 for driving the second side plate 14 to reciprocate along the length direction of the second conveyor belt 2, the feeding mechanism 4 is further provided with a sliding support 17 for supporting the second driving mechanism 18, the first side plate 13 is connected with a third driving mechanism 27, and the third driving mechanism 27 can drive the first side plate 13 to reciprocate along the length direction of the second conveyor belt 2. When the empty bottle 15 moves along the bottle 15 slide with the first conveyer belt 1 and moves to the second conveyer belt 2, the gap slide 16 is driven by the first driving mechanism 26 to open through the second side plate 14, then the second driving mechanism 18 drives the first driving mechanism 26 to drive the second side plate 14 to move towards the first conveyer belt 1, the third driving mechanism 27 also synchronously drives the first side plate 13 to move towards the first conveyer belt 1, the empty bottle 15 on the first conveyer belt 1 is clamped through the first driving mechanism 26, and then the empty bottle 15 is moved to the upper part of the second conveyer belt 2 through the second driving mechanism 18 and is released. The first drive mechanism 26 and the second drive mechanism 18 are preferably commercially available pneumatic or hydraulic cylinders. The first side plate 13 may be mounted on the side wall of the charging mechanism 4 by means of a chute, and the third driving mechanism 27 is preferably a cylinder and is also mounted on the charging mechanism 4.

Specifically, the sliding support 17 includes a main plate 24 and a plurality of rollers 25 slidably mounted on the main plate 24, and the rollers 25 abut against the bottom of the second driving mechanism 18. The second driving mechanism 18 is supported by the sliding support 17, and the roller 25 is arranged to facilitate the second driving mechanism 18 to move along with the first driving mechanism 26, the friction force of the rolling friction is smaller than that of the sliding friction, and the arrangement direction of the roller 25 of the sliding support 17 is parallel to the second conveying belt 2.

Preferably, the first side plate 13 and the second side plate 14 are further provided with an arc-shaped opening 19 matched with the shape of the bottle or jar 15, and the top end and the tail end of each of the first side plate 13 and the second side plate 14 are provided with at least one arc-shaped opening 19. The arc-shaped opening 19 can increase the contact area with the bottle 15, and can better hold the bottle 15.

Specifically, feeding device still includes frame 22 and installs charging bucket 23 in frame 22, and charging bucket 23 bottom is connected with charging tube cover 6, is equipped with in the charging bucket 23 and is used for controlling raw materials exhaust control switch. The inside raw materials business turn over of control switch control charging barrel 23, this control switch can be time control switch, then control charging barrel 23 open-ended on-off time can, when the opening is opened the raw materials accessible charging tube cover 6 enters into bottle 15 under the action of gravity in, simple structure.

Specifically, the dust suction mechanism 5 comprises a dust suction pipe 20 and a dust suction device 21, two ends of the dust suction pipe 20 are respectively connected with the feeding pipe cover 6 and the dust suction device 21, and the dust suction device 21 is installed on the side surface of the feeding mechanism 4. The dust suction device 21 provides suction force for the dust suction pipe 20, and powder at the opening of the bottle and the can 15 covered by the charging pipe cover 6 is absorbed, so that the powder at the opening of the bottle and the can 15 is removed, the bottle and the can 15 are not required to be cleaned manually, and the working strength of workers is reduced.

Preferably, the first drive mechanism 26 and the frame 22 are connected by means of a runner of the slider 11. The first driving mechanism 26 is provided with a sliding block 11, the frame 22 is provided with a sliding groove, or other modes capable of realizing the reciprocating motion of the first driving mechanism 26 in the length direction of the frame 22 can be connected.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although the terms of the first conveyor belt 1, the second conveyor belt 2, the clamping mechanism 3, the feeding mechanism 4, the dust suction mechanism 5, the feeding pipe cover 6, the horizontal sliding rail 7, the elongated barrier strip 8, the mounting bracket 9, the supporting aluminum 10, the sliding block 11, the connecting piece 12, the first side plate 13, the second side plate 14, the bottle tank 15, the clearance sliding rail 16, the sliding support 17, the second driving mechanism 18, the arc-shaped opening 19, the dust suction pipe 20, the dust suction device 21, the frame 22, the feeding barrel 23, the main plate 24, the roller 25, the first driving mechanism 26, the third driving mechanism 27, and the like are used more frequently, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims (10)

1. The utility model provides a canned food automatic feeding device, its characterized in that, including first conveyer belt (1), second conveyer belt (2), clamping mechanism (3), reinforced mechanism (4) and the dust absorption mechanism (5) that set gradually, first conveyer belt (1) and second conveyer belt (2) butt joint, clamping mechanism (3) install on second conveyer belt (2), clamping mechanism (3) still can follow second conveyer belt (2) length direction and width direction and be reciprocating motion simultaneously, reinforced mechanism (4) including reinforced pipe cover (6), reinforced pipe cover (6) set up in second conveyer belt (2) top, reinforced pipe cover (6) connect and be used for carrying out dust absorption mechanism (5) of dust absorption to bottle jar (15) mouth.

2. The automatic loading device for canned food according to claim 1, wherein the first conveyor belt (1) and the second conveyor belt (2) have the same height.

3. The automatic loading device for canned food according to claim 1 or 2, wherein the first conveyor belt (1) is further provided with a horizontal slide (7) arranged in parallel with the first conveyor belt (1), the horizontal slide (7) comprises two strip-shaped barrier strips (8) arranged above the first conveyor belt (1), the strip-shaped barrier strips (8) are fixed on the first conveyor belt (1) through mounting brackets (9), and the mounting brackets (9) are fixed on two side faces of the first conveyor belt (1) through connecting pieces (12).

4. The automatic loading device for canned food according to claim 3, characterized in that the elongated barrier strip (8) is further provided with a supporting aluminum (10), and the supporting aluminum (10) is connected with the mounting bracket (9) through a sliding block (11) and a connecting piece (12).

5. The automatic loading device for canned food according to claim 1, wherein the clamping mechanism (3) comprises a first side plate (13) mounted on the feeding mechanism (4) and a second side plate (14) connected with a first driving mechanism (26), the first side plate (13) and the second side plate (14) are both parallel to the upper surface of the second conveyor belt (2), a gap slideway (16) for the bottle and can (15) to enter is further arranged between the first side plate (13) and the second side plate (14), the second side plate (14) can reciprocate along the width direction of the second conveyor belt (2) under the driving of the first driving mechanism (26) to clamp and release the bottle and can (15), the first driving mechanism (26) is slidably mounted on the side surface of the feeding mechanism (4), and the first driving mechanism (26) is further connected with a mechanism for driving the second side plate (14) to reciprocate along the length direction of the second conveyor belt (2) The feeding mechanism (4) is further provided with a sliding support (17) used for supporting the second driving mechanism (18), the first side plate (13) is connected with a third driving mechanism (27), and the third driving mechanism (27) can drive the first side plate (13) to reciprocate along the length direction of the second conveying belt (2).

6. The automatic loading device for canned food according to claim 5, wherein the first side plate (13) and the second side plate (14) are further provided with a plurality of arc-shaped openings (19) matching the shape of the bottles (15), and the top ends and the tail ends of the first side plate (13) and the second side plate (14) are respectively provided with at least one arc-shaped opening (19).

7. The automatic loading device for canned food according to claim 1, wherein the dust suction mechanism (5) comprises a dust suction pipe (20) and a dust suction device (21), two ends of the dust suction pipe (20) are respectively connected with the feeding pipe cover (6) and the dust suction device (21), and the dust suction device (21) is installed on the side surface of the feeding mechanism (4).

8. The automatic loading device for canned food according to claim 1, wherein said feeding mechanism further comprises a frame (22) and a feeding barrel (23) mounted on the frame (22), the bottom of said feeding barrel (23) is connected to the feeding tube cover (6), and a control switch for controlling the discharge of raw material is provided in said feeding barrel (23).

9. An automatic loading device for canned food according to claim 5, characterised in that said first actuating means (26) and said frame (22) are connected by means of a runner of the slider (11).

10. An automatic loading device for canned food according to claim 5, characterised in that said sliding support (17) comprises a main plate (24) and a plurality of rollers (25) slidably mounted on the main plate (24), said rollers (25) abutting against the bottom of the second drive mechanism (18).

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