CN211336620U - Granular material counting and packaging machine - Google Patents

Abstract

The utility model provides a granular material number packagine machine, which comprises a frame, the storage hopper, the lifting machine, pay-off vibration mechanism, dial material and sweep the material mechanism, divide the material slide, several mechanisms, packing bottle transport positioning mechanism, pay-off vibration mechanism lines up the material in with the feed bin in proper order and sends into and divide the material slide, divide the material slide to include the spout that a plurality of slopes set up and mutual parallel arrangement, dial the material and sweep the material mechanism and arrange the material in order the individual layer on the spout, several mechanisms include a plurality of several passageways, every several passageway corresponds an electron eye, after the last material that predetermines reachs the preset position in confirming several passageways by the electron eye, separation ration structure cuts off the material and gets into. The multifunctional module assembly of material distribution, particle counting, packaging and the like is realized, and the material distribution slide way and the particle counting mechanism are provided with a plurality of channels for material distribution and counting at the same time, so that the production efficiency is improved; the counting mechanism adopts a mechanical principle and is matched with an electronic eye to confirm counting, so that the counting accuracy is improved.

Description

Granular material counting and packaging machine

Technical Field

The utility model relates to a measurement equipment for packing technical field especially relates to a granular material number packagine machine.

Background

The filling of granular materials such as tablets and the like needs accurate metering, and the flaky granules are often stacked in multiple layers in the conveying process to cause inaccurate counting, so that the materials need to be spread in a single layer in the packaging and conveying process so as to facilitate subsequent counting, and few devices for counting the flaky materials exist at present. Most of the existing counting mechanisms are also based on a mode of counting particles one by an electronic eye, and the mode needs to control the blanking speed, otherwise, the metering is inaccurate, and the filling speed is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the shortcoming of above-mentioned prior art, providing a mechanical type number material, efficient, the accurate granular material number grain packagine machine of count, be particularly suitable for the count packing of slice aggregate.

The utility model discloses a realize through following technical scheme:

a granular material counting and packaging machine comprises a frame, a storage hopper, a lifter, a feeding vibration mechanism, a material stirring and sweeping mechanism, a material distributing slideway, a granular counting mechanism and a packaging bottle conveying and positioning mechanism; the storage hopper is arranged on the hoister, and the hoister is arranged on one side of the rack and used for hoisting the storage hopper to the position above the feeding vibration mechanism; the feeding vibration mechanism is positioned at the upper part of the rack and comprises a storage bin and a feeding vibrator, and the feeding vibrator is used for sequentially queuing materials in the storage bin and feeding the materials into the distribution slideway; the material distributing slide way comprises a plurality of slide grooves which are obliquely arranged and are arranged in parallel, the inlet ends of the slide grooves are butted with the discharge end of the feeding vibration mechanism, and the outlet ends of the slide grooves are butted with the feeding nozzle of the particle counting mechanism; the material shifting and sweeping mechanism is positioned at the inlet end of the chute and used for arranging the materials on the chute in an ordered single-layer manner, the depth of the chute is adapted to the height of the materials, and the width of the chute is adapted to the width of the materials, so that the materials can be arranged in the chute in a single-layer manner. The grain counting mechanism comprises a plurality of grain counting channels which are in one-to-one correspondence with the sliding grooves, the feeding nozzles of the grain counting channels are in butt joint with the outlet ends of the sliding grooves, the discharging nozzles of the grain counting channels are in butt joint with the bottle mouths of the packaging bottles on the packaging bottle conveying and positioning mechanism, and the grain counting mechanism is used for counting grains of the materials which slide down through the sliding grooves and then filling the grains into the packaging bottles in a quantitative mode; the packaging bottle conveying and positioning mechanism is used for conveying packaging bottles and positioning the packaging bottles to a material filling position, so that the bottle openings of the packaging bottles are opposite to the discharging nozzles of the particle counting channels.

Furthermore, the particle counting mechanism further comprises an electronic eye, a separation quantifying assembly, a material supporting cylinder and a blocking sheet, the electronic eye for counting and quantifying is located at the particle counting channel, and each particle counting channel corresponds to one electronic eye; the separation quantifying assembly comprises an air cylinder and a separation sheet, the separation sheet is positioned at the feeding nozzle of the particle counting channel, and the air cylinder is connected with the separation sheet and is used for driving the separation sheet to cut off to prevent the materials from continuously entering the particle counting channel after the materials in the particle counting channel reach a preset quantity; the separation blade is located the ejection of compact department of several passageways, hold in the palm the material cylinder with the separation blade links to each other in order to fix or loosen the separation blade, and when the separation blade was fixed, the material accumulation in several passageways was counted, and when loosening the separation blade, the material landing in several passageways was into the packing bottle.

Further, the particle counting channel is vertically arranged. The vertical arrangement may allow for vertical alignment of the pellets for ease of counting.

Further, the length of the counting channel is equal to the diameter of the granular material multiplied by the number of the granules counted at a preset time. The length of the counting channel depends on the size of the granules and the number of the counting, for example, a tablet with a diameter of 10mm and a counting channel of 100mm, and then 10 tablets are taken one time.

Further, the electronic eye is used for confirming whether the last material preset in the particle counting channel reaches the preset position or not. When the electronic eye sees the last material for a period of time and confirms that the preset quantity is reached, the separating and quantifying structure cuts off the material distributing slide way and cannot be added into the material to the particle counting channel, when a packaging bottle enters the bottom of the particle counting channel, a bottle opening is in butt joint with a discharging nozzle of the particle counting channel, the material supporting cylinder loosens the separation blade, and the material is filled into the bottle to finish filling.

Further, the material stirring and sweeping mechanism comprises a motor, a rotating shaft and material stirring blades, the motor is connected with the rotating shaft, the material stirring blades are uniformly fixed on the outer circumferential surface of the rotating shaft, the motor drives the rotating shaft to rotate, the material stirring blades are driven to alternately sweep the upper opening of the sliding groove so as to stir out redundant materials on the upper layer of the sliding groove, and only one row of the bottom layer is guaranteed to slide into the next procedure.

Furthermore, a cover plate is arranged above the sliding groove, materials in the sliding groove are placed to fly out under vibration, and a handle is arranged on the cover plate.

The utility model completes the integrated operation of the processes of material distribution, particle counting, packaging and the like by arranging functional modules such as a storage hopper, a lifter, a feeding vibration mechanism, a material stirring and sweeping mechanism, a material distribution slide way, a particle counting mechanism, a packaging bottle conveying and positioning mechanism and the like, and the material distribution slide way and the particle counting mechanism are provided with a plurality of channels to simultaneously distribute and count materials, thereby improving the production efficiency; the material shifting and sweeping mechanism shifts the accumulated granular materials into single-layer and single-row arranged materials so as to facilitate the single-row sliding into the particle counting mechanism, the particle counting mechanism adopts a mechanical principle and is matched with an electronic eye to confirm the counting of the particles, the counting accuracy is improved, and the material shifting and sweeping mechanism is particularly suitable for counting the flaky granular materials such as tablets.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present invention.

Fig. 2 is a schematic perspective view of an embodiment of a counting mechanism according to the present invention.

Fig. 3 is a schematic perspective view of another view angle of the counting mechanism according to the embodiment of the present invention.

Fig. 4 is a schematic side structure view of the material-shifting and sweeping mechanism in the embodiment of the present invention.

Reference numerals: 1-a frame; 2-a storage hopper; 3, a hoisting machine; 4-feeding vibration mechanism; 5-a material shifting and sweeping mechanism; 6-material distribution slide way; 7-a counting mechanism; 8-a packaging bottle conveying and positioning mechanism; 51-a rotating shaft; 52-kick-out blades; 61-a cover plate; 62-a handle; 71-electronic eye; 72-particle counting channel; 73-separation sheet.

Detailed Description

As shown in fig. 1, a granular material counting and packaging machine comprises a frame 1, a storage hopper 2, a lifter 3, a feeding vibration mechanism 4, a material stirring and sweeping mechanism 5, a material distributing slideway 6, a granule counting mechanism 7 and a packaging bottle conveying and positioning mechanism 8; the storage hopper 2 is mounted on the hoisting machine 3, and the hoisting machine 3 is mounted on one side of the rack 1 and used for hoisting the storage hopper 2 to the upper part of the feeding vibration mechanism 4; the feeding vibration mechanism 4 is positioned at the upper part of the rack 1 and comprises a storage bin and a feeding vibrator, and the feeding vibrator is used for sequentially queuing materials in the storage bin and feeding the materials into the distribution slideway 6; the material distributing slide way 6 comprises a plurality of slide grooves which are obliquely arranged and are arranged in parallel, the inlet ends of the slide grooves are butted with the discharge end of the feeding vibration mechanism 4, and the outlet ends of the slide grooves are butted with the feeding nozzle of the particle counting mechanism 7; the material shifting and sweeping mechanism 5 is positioned at the inlet end of the chute and used for arranging the materials on the chute in an ordered single-layer manner, the depth of the chute is adapted to the height of the materials, and the width of the chute is adapted to the width of the materials, so that the materials can be arranged in the chute in a single-layer manner. The particle counting mechanism 7 comprises a plurality of particle counting channels 72 which are in one-to-one correspondence with the sliding grooves, the feeding nozzles of the particle counting channels 72 are in butt joint with the outlet ends of the sliding grooves, the discharging nozzles of the particle counting channels 72 are in butt joint with the bottle mouths of the packaging bottles on the packaging bottle conveying and positioning mechanism 8, and the particle counting mechanism 7 is used for counting the particles of the materials which are slid down by the sliding grooves and then filling the materials into the packaging bottles according to the quantity; the packaging bottle conveying and positioning mechanism 8 is used for conveying packaging bottles and positioning the packaging bottles to a material filling position, so that the bottle openings of the packaging bottles are opposite to the discharging nozzles of the particle counting channels 72.

As shown in fig. 2 and 3, the counting mechanism 7 further includes an electronic eye 71, a separating and quantifying assembly, a material supporting cylinder and a blocking sheet, the electronic eye 71 for counting and quantifying is located at the counting channel 72, and each counting channel 72 corresponds to one electronic eye 71; the separation quantifying assembly comprises an air cylinder and a separation sheet 73, the separation sheet 73 is positioned at the feeding nozzle of the particle counting channel 72, and the air cylinder is connected with the separation sheet 73 and is used for driving the separation sheet 73 to cut off to prevent the materials from continuously entering the particle counting channel 72 after the materials in the particle counting channel 72 reach a preset number; the separation blade is located the unloading mouth department of several passageway 72, hold in the palm the material cylinder with the separation blade links to each other in order to fix or loosen the separation blade, and when the separation blade was fixed, the material accumulation in several passageway 72 was counted, and when loosening the separation blade, the material in several passageway 72 slided and falls into in the packing bottle.

The pellet counting channel 72 is vertically arranged, and the vertical arrangement enables pellets to be vertically arranged for counting. The length of the counting channel 72 is equal to the diameter of the pellets multiplied by the number of pellets preset at a time. The electronic eye 71 is used for confirming whether the last material preset in the counting channel 72 reaches a preset position. When the electronic eye 71 sees the last material for a period of time and confirms that the preset quantity is reached, the separating and distributing slide 6 cannot be adjusted to the counting channel 72 by the separating and quantifying structure, when a packaging bottle enters the bottom of the counting channel 72, a bottle opening is in butt joint with a discharging nozzle of the counting channel 72, the material supporting cylinder loosens the separation blade, and the material is filled into the bottle to finish filling.

As shown in fig. 4, the material-shifting and sweeping mechanism 5 includes a motor, a rotating shaft 51 and material-shifting blades 52, the motor is connected to the rotating shaft 51, the material-shifting blades 52 are uniformly fixed on the outer circumferential surface of the rotating shaft 51, the motor drives the rotating shaft 51 to rotate, and the material-shifting blades 52 are driven to alternately sweep the upper opening of the chute to shift out the excess material on the upper layer of the chute, so as to ensure that only one row of the bottom layer slides into the next process. A cover plate 61 is arranged above the sliding groove, and a handle 62 is arranged on the cover plate 61.

The above detailed description is specific to possible embodiments of the present invention, and the embodiments are not intended to limit the scope of the present invention, and all equivalent implementations or modifications that do not depart from the scope of the present invention should be included within the scope of the present invention.

Claims (7)

1. A granular material counting and packaging machine is characterized by comprising a rack, a storage hopper, a lifter, a feeding vibration mechanism, a material stirring and sweeping mechanism, a material distributing slideway, a granular material counting mechanism and a packaging bottle conveying and positioning mechanism; the storage hopper is arranged on the hoister, and the hoister is arranged on one side of the rack and used for hoisting the storage hopper to the position above the feeding vibration mechanism; the feeding vibration mechanism is positioned at the upper part of the rack and comprises a storage bin and a feeding vibrator, and the feeding vibrator is used for sequentially queuing materials in the storage bin and feeding the materials into the distribution slideway; the material distributing slide way comprises a plurality of slide grooves which are obliquely arranged and are arranged in parallel, the inlet ends of the slide grooves are butted with the discharge end of the feeding vibration mechanism, and the outlet ends of the slide grooves are butted with the feeding nozzle of the particle counting mechanism; the material shifting and sweeping mechanism is positioned at the inlet end of the chute and used for arranging the materials on the chute in an ordered single layer manner; the grain counting mechanism comprises a plurality of grain counting channels which are in one-to-one correspondence with the sliding grooves, the feeding nozzles of the grain counting channels are in butt joint with the outlet ends of the sliding grooves, the discharging nozzles of the grain counting channels are in butt joint with the bottle mouths of the packaging bottles on the packaging bottle conveying and positioning mechanism, and the grain counting mechanism is used for counting grains of the materials which slide down through the sliding grooves and then filling the grains into the packaging bottles in a quantitative mode; the packaging bottle conveying and positioning mechanism is used for conveying packaging bottles and positioning the packaging bottles to a material filling position.

2. A granular material counting and packaging machine as claimed in claim 1, wherein said counting mechanism further comprises an electronic eye, a separating and quantifying assembly, a material supporting cylinder and a blocking sheet, said electronic eye for counting and quantifying is located at said counting channels, and each counting channel corresponds to one electronic eye; the separation quantifying assembly comprises an air cylinder and a separation sheet, the separation sheet is positioned at the feeding nozzle of the particle counting channel, and the air cylinder is connected with the separation sheet and is used for driving the separation sheet to cut off to prevent the materials from continuously entering the particle counting channel after the materials in the particle counting channel reach a preset quantity; the separation blade is located the ejection of compact department of several passageways, hold in the palm the material cylinder with the separation blade links to each other for fixed or loosen the separation blade, hold or the material of filling in several passageways.

3. A granular material counting and packaging machine as claimed in claim 2, wherein said counting channel is vertically disposed.

4. A granular material counting and packaging machine as claimed in claim 3 wherein the length of said counting channel is equal to the diameter of the granular material multiplied by the number of preset counting.

5. A granular material counting and packaging machine as claimed in claim 4, wherein said electronic eye is adapted to confirm whether the last material preset in the counting channel reaches a preset position.

6. A granular material counting and packaging machine according to any one of claims 1 to 5, wherein the material-shifting and sweeping mechanism comprises a motor, a rotating shaft and material-shifting blades, the motor is connected with the rotating shaft, a plurality of the material-shifting blades are uniformly fixed on the outer circumferential surface of the rotating shaft, the motor drives the rotating shaft to rotate, and the material-shifting blades are driven to alternately sweep the upper opening of the chute to shift out the redundant material on the upper layer of the chute, so that only the bottom layer can slide into the next process.

7. A granular material counting and packaging machine as claimed in any one of claims 1 to 5, wherein a cover plate is provided above said chute, said cover plate being provided with a handle.

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