CN214608320U - Electronic particle counting device with multiple materials combined randomly - Google Patents

Abstract

The utility model discloses an electronic counting device with multiple materials randomly combined, wherein the counting device comprises a plurality of electronic counting units, a material conveying device and a control system, wherein the electronic counting units are arranged in sequence; the material conveying device comprises a conveying belt mechanism, a plurality of material placing bins arranged on a conveying belt of the conveying belt mechanism and a filling funnel arranged at the tail end of the conveying direction of the conveying belt mechanism, wherein the material placing bins are arranged along the conveying direction of the conveying belt mechanism in sequence. The utility model provides an electronic number grain device and packaging method of many materials random combination has intelligent function, improves the flexibility of production efficiency and packing.

Description

Electronic particle counting device with multiple materials combined randomly

Technical Field

The utility model relates to a equipment for packing technical field, in particular to electron number device of many materials random combination.

Background

Along with the conversion and the upgrade of the consumption concept of people, leisure snacks such as nuts and dried fruits which are rich in nutrition, delicious and convenient become good products for people to enjoy leisure, meet the personalized and diversified consumption demands, and represent the pursuit of higher living standard of people.

At present, mixed nut products are popular in the market, the process of packaging the mixed nuts generally comprises the steps of manually counting or weighing various nuts of a packaging unit respectively, and then mixing and filling the counted or weighed nuts into a packaging bag, a packaging box or a packaging bottle.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems, the present invention provides an electronic counting device with randomly combined multiple materials, which not only improves the production efficiency, but also can be combined randomly on line for the materials of a packaging unit without pollution.

Based on the above problem, the utility model provides a technical scheme is:

a multi-material randomly combined electronic particle counting device comprises a plurality of electronic particle counting units, a material conveying device and a control system, wherein the electronic particle counting units are sequentially arranged, the material conveying device is arranged below discharge ports of the electronic particle counting units, the electronic particle counting units and the material conveying device are electrically connected with the control system, and the discharge ports of the electronic particle counting units are sequentially arranged at intervals along the conveying direction of the material conveying device;

the material conveying device comprises a conveying belt mechanism, a plurality of material placing bins arranged on a conveying belt of the conveying belt mechanism and a filling funnel arranged at the tail end of the conveying direction of the conveying belt mechanism, wherein the material placing bins are arranged along the conveying direction of the conveying belt mechanism in sequence.

In some embodiments, the electronic particle counting unit includes a hopper, a feeding assembly disposed at a discharge port of the hopper, a material guiding pipe disposed at a discharge port of the feeding assembly, a counting component disposed at an upper portion of the material guiding pipe, a gate assembly disposed at a discharge port of the material guiding pipe, and a material guiding hopper disposed below a discharge port of the material guiding pipe, and a lower end of the material guiding hopper extends to a position above the material placing bin.

In some of these embodiments, the pay-off subassembly includes first vibrator, sets up first vibration support on the first vibrator, via first vibration buckled plate, second vibrator, setting that first vibration support supported are in second vibration support on the second vibrator, and via the second vibration buckled plate that second vibration support supported, the feed end of first vibration buckled plate sets up the below of the discharge gate of hopper, the feed end of second vibration buckled plate with the discharge end of first vibration buckled plate corresponds.

In some embodiments, the electronic particle counting unit further includes a bottom plate, a support column is disposed on the bottom plate, the hopper is fixed to an upper end of the support column, and the first vibrator and the second vibrator are fixed to the bottom plate.

In some embodiments, the base plate is fixed to a chassis via a plurality of support legs, and the control system is disposed in the chassis.

In some embodiments, the gate assembly includes a gate plate, and a driving member in transmission connection with the gate plate, and the gate plate is driven by the driving member to approach or separate from the discharge hole of the guide tube to close or open the discharge hole.

In some of the embodiments, the discharge port of the hopper is provided with an adjusting plate, and the adjusting plate is detachably arranged on the hopper to adjust the size of the discharge port of the hopper.

In some embodiments, the material conveying compartment is formed by dividing a plurality of partition plates vertically arranged on the conveying belt, and compartment side plates are respectively arranged on two sides of the width of the conveying belt.

In some embodiments, the conveyor belt mechanism further includes a support member, two conveyor belt side plates disposed on the support member and parallel to each other, a driving wheel and a driven wheel mounted on the two conveyor belt side plates, and a motor in transmission connection with the driving wheel, the conveyor belt is supported by the driving wheel and the driven wheel, and the bin edge plate is fixed on the conveyor belt side plates.

Compared with the prior art, the utility model has the advantages that:

1. various mixed materials can be combined through a plurality of electronic particle counting units, and the intelligent function is achieved;

2. the combined materials fall into the same bin of the conveyer belt and are conveyed to the filling device through the conveyer belt to be bagged, boxed or bottled, so that the degree of automation is high, and the production efficiency is improved;

3. the discharge hole of the hopper is provided with an adjusting plate, and the size of the discharge hole of the hopper can be adjusted according to needs so as to adjust the discharge speed;

4. the conveyer belt is separated into a plurality of materials via the baffle and is placed the check storehouse, and the both sides that the check storehouse was placed to the material set up the protection of check storehouse sideboard.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of an embodiment of an electronic counting device with multiple randomly combined materials according to the present invention;

fig. 2 is a side view of an embodiment of the present invention;

fig. 3 is a top view of an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a material conveying device in an embodiment of the present invention;

FIG. 5 is a process flow diagram of an embodiment of the present invention;

wherein:

1. an electronic counting unit; 1-1, a hopper; 1-2, a strut; 1-3, a first vibrator; 1-4, a first vibrating support; 1-5, a first vibrating corrugated plate; 1-6, a second vibrator; 1-7, a second vibration support; 1-8, a second vibrating corrugated plate; 1-9, a material guide pipe; 1-10, a counting component; 1-11, a gate assembly; 1-11a, a gate plate; 1-11b, a drive member; 1-12, a material guide hopper; 1-13, a bottom plate; 1-14, supporting feet; 1-15, adjusting plate; 1-15a, a kidney-shaped hole;

2. a material conveying device; 2-1, a support member; 2-2, conveying belt side plates; 2-3, a driving wheel; 2-4, driven wheel; 2-5, a motor; 2-6, a conveyer belt; 2-7, a partition board; 2-8, a grid chamber side plate; 2-9, filling a funnel;

3. a case.

Detailed Description

The above-described scheme is further illustrated below with reference to specific examples. It should be understood that these examples are for illustrative purposes and are not intended to limit the scope of the present invention. The conditions used in the examples may be further adjusted according to the conditions of the particular manufacturer, and the conditions not specified are generally the conditions in routine experiments.

Referring to fig. 1-4, for the utility model discloses the structure schematic diagram provides an electronic number grain device of many materials random combination, including a plurality of electronic number grain units 1 that set gradually, set up material conveying device 2 in a plurality of electronic number grain unit 1's discharge gate below, and control system, electronic number grain unit 1, material conveying device 2 is connected with the control system electricity respectively, the discharge gate of a plurality of electronic number grain units 1 is arranged along material conveying device 2's direction of delivery interval in proper order, in this example, sets up eight electronic number grain units 1, be used for mixing eight kinds of materials promptly and pack, also can make up the material arbitrary combination that is less than eight kinds as required and mix the packing. The main parameters of any combination are the material variety and the loading of each variety.

The material conveying group device 2 comprises a conveying belt mechanism, a plurality of material placing bins arranged on conveying belts 2-6 of the conveying belt mechanism and filling funnels 2-9 arranged at the tail end of the conveying direction of the conveying belt mechanism, wherein the material placing bins are sequentially arranged along the conveying direction of the conveying belt mechanism.

Specifically, the conveying belt mechanism also comprises a supporting piece 2-1, two conveying belt side plates 2-2 arranged on the supporting piece 2-1 in parallel, a driving wheel 2-3 and a driven wheel 2-4 arranged on the two conveying belt side plates 2-2, and a motor 2-5 in transmission connection with the driving wheel 2-3, wherein the conveying belt 2-6 is supported by the driving wheel 2-3 and the driven wheel 2-4, the driving wheel 2-3 and the driven wheel 2-4 are driven by the motor 2-5 to rotate so as to drive the conveying belt 2-6 to convey forwards, the material placing bin is formed by separating a plurality of separating plates 2-7 vertically arranged on the conveying belt 2-6, two sides of the conveying belt 2-6 in the width direction are respectively provided with a bin side plate 2-8 for protection, the materials are prevented from falling from the two sides of the material placing bin, in this example, the side plates 2-8 of the bin are fixed on the side plates 2-2 of the conveying belt.

The electronic particle counting unit 1 comprises a hopper 1-1, a feeding component arranged at a discharge port, a material guide pipe 1-9 arranged at the discharge port of the feeding component, a counting component 1-10 arranged in the middle of the material guide pipe 1-9, a gate plate component 1-11 arranged at the discharge port of the material guide pipe 1-9 and a material guide hopper 1-12 arranged at the discharge port of the material guide pipe 1-9, wherein the lower end of the material guide hopper 1-12 extends to the upper part of a material placing bin, the material in the hopper 1-1 is conveyed to the position of the material guide pipe 1-9 through the feeding component, the material falls into the material guide pipe 1-9, the material entering the material guide pipe 1-9 is counted through the counting component 1-10, the gate component 1-11 of the material is in a closed state in the counting process, and the corresponding feeding component stops conveying after the counting of the material is finished, the gate component 1-11 opens the discharge hole at the lower end of the material guide pipe 1-9, and the material enters the material on the conveyer belt 2-6 through the material guide hopper 1-12 and is placed in the grid bin.

In this example, the feeding assembly comprises a first vibrator 1-3, a first vibration cradle 1-4 arranged on the first vibrator 1-3, a first vibration corrugation 1-5 supported via the first vibration cradle 1-4, a second vibrator 1-6, a second vibration cradle 1-7 arranged on the second vibrator 1-6, and a second vibration corrugation 1-8 supported via the second vibration cradle 1-7, wherein the feeding end of the first vibration corrugation 1-5 is arranged below the discharge opening of the hopper 1-1 and the feeding end of the second vibration corrugation 1-8 corresponds to the discharge end of the first vibration corrugation 1-5.

The electronic particle counting unit 1 further comprises a bottom plate 1-13, a support column 1-2 is arranged on the bottom plate 1-13, a hopper 1-1 is fixed at the upper end of the support column 1-2, and a first vibrator 1-3 and a second vibrator 1-6 are fixed on the bottom plate 1-13. The bottom plate 1-13 is fixed on the case 3 through a plurality of supporting feet 1-14, and the control system is arranged in the case 3.

In this example, the gate assembly 1-11 includes a gate plate 1-11a and a driving member 1-11b in transmission connection with the gate plate 1-11a, the gate plate 1-11a is driven by the driving member 1-11b to move close to or away from the discharge hole of the material guiding pipe 1-9 to close or open the discharge hole, and the driving member 1-11b can be an air cylinder.

In order to adjust the feeding speed of the hopper 1-1 conveniently, an adjusting plate 1-15 is arranged at the discharge hole of the hopper 1-1, the adjusting plate 1-15 is detachably arranged on the hopper 1-1 to adjust the size of the discharge hole of the hopper 1-1, in the embodiment, a waist-shaped hole 1-15a is formed in the adjusting plate 1-15, and a screw fixes the adjusting plate 1-15 on the hopper 1-1 through the waist-shaped hole 1-15 a.

Referring to fig. 5, the process flow of the electronic particle counting device adopting the random combination of the multiple materials comprises the following steps:

(1) various materials are respectively stored in the hoppers of different electronic particle counting units, and each electronic particle counting unit stores one material;

(2) the control system sends a material combination requirement to a counting unit;

(3) according to the requirements of material combination, each electronic counting unit which meets the requirements of the material combination sequentially conveys materials, and the electronic counting units which are filled with corresponding materials count the materials and prepare to fall into the materials on the conveying belt to be placed in the bin;

(4) the first material after being counted by the electronic counting unit falls into the material placing bin, the conveying belt continues to convey forwards, and the subsequent materials are counted and then sequentially fall into the same material placing bin;

(5) the material of placing multiple material is placed the check storehouse and is carried to filling funnel position, gets into follow-up filling device and carries out the filling, and the filling device can adopt prior art's sack filling machine, cartoning machine or bottle filling machine, the utility model discloses no longer describe repeatedly.

The above examples are only for illustrating the technical conception and the features of the present invention, and the purpose thereof is to enable one skilled in the art to understand the contents of the present invention and to implement the present invention, which should not be construed as limiting the scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (9)

1. The utility model provides an electron number grain device of many materials random combination which characterized in that: the electronic particle counting device comprises a plurality of electronic particle counting units (1) which are sequentially arranged, a material conveying device (2) which is arranged below discharge ports of the electronic particle counting units (1), and a control system, wherein the electronic particle counting units (1) and the material conveying device (2) are electrically connected with the control system, and the discharge ports of the electronic particle counting units (1) are sequentially arranged at intervals along the conveying direction of the material conveying device (2);

the material conveying device (2) comprises a conveying belt mechanism, a plurality of material placing bin bodies arranged on a conveying belt (2-6) of the conveying belt mechanism and a filling funnel (2-9) arranged at the tail end of the conveying direction of the conveying belt mechanism, wherein the material placing bin bodies are sequentially arranged along the conveying direction of the conveying belt mechanism.

2. The electronic counting device of claim 1, wherein: the electronic particle counting unit (1) comprises a hopper (1-1), a feeding assembly arranged at a discharge port of the hopper (1-1), a material guide pipe (1-9) arranged at a discharge port of the feeding assembly, a counting component (1-10) arranged in the middle of the material guide pipe (1-9), a gate assembly (1-11) arranged at a discharge port of the material guide pipe (1-9), and a material guide hopper (1-12) arranged below the discharge port of the material guide pipe (1-9), wherein the lower end of the material guide hopper (1-12) extends to the upper part of the material placing bin.

3. The electronic counting device of claim 2, wherein: the feeding component comprises a first vibrator (1-3), a first vibrating bracket (1-4) arranged on the first vibrator (1-3), a first vibrating corrugated plate (1-5) supported by the first vibrating bracket (1-4), a second vibrator (1-6), a second vibrating bracket (1-7) arranged on the second vibrator (1-6), and a second vibrating corrugated plate (1-8) supported by the second vibrating bracket (1-7), the feeding end of the first vibrating corrugated plate (1-5) is arranged below the discharging port of the hopper (1-1), the feeding end of the second vibrating corrugated plate (1-8) corresponds to the discharging end of the first vibrating corrugated plate (1-5).

4. The electronic counting device of claim 3, wherein: the electronic particle counting unit (1) further comprises a bottom plate (1-13), a support column (1-2) is arranged on the bottom plate (1-13), the hopper (1-1) is fixed at the upper end of the support column (1-2), and the first vibrator (1-3) and the second vibrator (1-6) are fixed on the bottom plate.

5. The electronic counting device of claim 4, wherein: the bottom plate (1-13) is fixed on the case (3) through a plurality of supporting legs (1-14), and the control system is arranged in the case (3).

6. The electronic counting device of claim 2, wherein: the gate assembly (1-11) comprises a gate plate (1-11a) and a driving part (1-11b) in transmission connection with the gate plate (1-11a), and the gate plate (1-11a) is driven by the driving part (1-11b) to be close to or far away from the discharge hole of the material guide pipe (1-9) so as to close or open the discharge hole.

7. The electronic counting device of claim 2, wherein: the discharge gate of hopper (1-1) is equipped with regulating plate (1-15), regulating plate (1-15) can be dismantled and set up in order to adjust on hopper (1-1) the size of the discharge gate of hopper (1-1).

8. The electronic counting device of claim 1, wherein: the material conveying compartment is formed by vertically arranging a plurality of partition plates (2-7) on the conveying belts (2-6) in a separating manner, and compartment side plates (2-8) are respectively arranged on two sides of the width of the conveying belts (2-6).

9. The electronic counting device of claim 8, wherein: the conveying belt mechanism further comprises a supporting piece (2-1), two conveying belt side plates (2-2) arranged on the supporting piece (2-1) in parallel, a driving wheel (2-3) and a driven wheel (2-4) mounted on the two conveying belt side plates (2-2), and a motor (2-5) in transmission connection with the driving wheel (2-3), the conveying belt (2-6) is supported by the driving wheel (2-3) and the driven wheel (2-4), and the bin side plates (2-8) are fixed on the conveying belt side plates (2-2).

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