CN218343893U - Finger stall counting and packaging device - Google Patents

Abstract

The utility model discloses a finger stall counting and packaging device, which comprises a vibration disc device, wherein the vibration disc device is provided with a linear track for discharging, a first photoelectric sensor is arranged at the discharge port of the linear track, and the first photoelectric sensor is connected with a counting controller; the material collecting platform is arranged below the discharge port, the funnel frame is mounted on the material collecting platform, the funnel is erected on the funnel frame in a suspended mode, and the material containing container is arranged below the funnel. This finger stall automatic packing device can carry out the automatic counting to the finger stall that falls into in the flourishing material container, compares in artifical count or carry out the method of counting according to weight and can raise the efficiency and the rate of accuracy.

Description

Finger stall counting and packaging device

Technical Field

The utility model belongs to the technical field of packing plant, concretely relates to finger stall count packing plant.

Background

After the finger sleeves are produced, a certain number of finger sleeves are required to be subpackaged according to the requirements of each customer order. The existing subpackaging generally adopts a manual counting and repacking method; or manual weighing is adopted, the number of the finger stalls is determined according to the standard weight, namely, a worker grabs a proper amount of finger stalls from the product box and puts the finger stalls into a packaging bag on the electronic scale, products are added or reduced according to the weight value displayed by the electronic scale, and the value displayed by the electronic scale reaches the standard value. The operation method has the advantages of low subpackaging speed and low efficiency; when a large number of orders exist, a large number of workers are needed to operate, the labor cost is high, and the consumed time is long; and because the labor repeatability of workers is strong, the number of the workers is easy to be wrong due to the fatigue of the workers, and the error rate is higher.

SUMMERY OF THE UTILITY MODEL

In view of the above prior art is not enough, the utility model aims to provide a finger stall count packing plant can treat automatically that the packing finger stall counts to practice thrift the human cost, raise the efficiency.

In order to realize the whole or partial purposes of the utility model, the utility model provides a following technical scheme:

the utility model provides an automatic finger stall packaging device, which comprises a vibration disc device, wherein the vibration disc device is provided with a linear track for discharging, a first photoelectric sensor is arranged at the discharge port of the linear track, and the first photoelectric sensor is connected with a counting controller; the material collecting platform is arranged below the discharge port, the funnel frame is mounted on the material collecting platform, the funnel is erected on the funnel frame in a suspended mode, and the material containing container is arranged below the funnel. The beneficial effects of this technical scheme lie in, this finger stall automatic packing device can carry out the automatic counting to the finger stall that falls into containing material container, compares in artifical count or carry out the method of counting according to weight efficient, the rate of accuracy height.

The material receiving platform comprises a rotating table, the rotating table is connected with a rotating driving mechanism, a plurality of stations which are arranged at equal angles at intervals are arranged on the rotating table, and a funnel is arranged on each station; wherein just right the station of discharge gate below is first station, and the finger stall is followed the discharge gate falls into in the funnel of first station, and the warp the funnel falls into the flourishing material container of below. This technical scheme's beneficial effect lies in, through setting up a plurality of stations in order to improve the operating efficiency, wherein first station is used for the unloading, and operating personnel packs the finger stall in the flourishing material container and puts into the funnel below with empty-load flourishing material container at other stations, pan feeding when treating rotatory first station, and a plurality of operations can go on in step.

The funnel stand comprises a mounting part, at least two upright posts and a plurality of supporting arms, wherein the at least two upright posts are mounted on the rotating platform, and the mounting part is mounted on the at least two upright posts; a plurality of the one end of support arm is all installed on the installation department, the through-hole that is used for unsettled erectting the funnel is all offered to the other end. The beneficial effect of this technical scheme lies in, can place a plurality of funnels on a funnel frame, satisfies the multistation demand.

The mounting part is an annular or round mounting part and is fixed at the rotating center of the rotating table through at least two upright posts; and one ends of the supporting arms are radially arranged along the outer side of the circular or annular mounting part at equal angles.

The material receiving platform also comprises a rotating platform bracket, and the rotating platform is arranged on the rotating platform bracket; the rotary driving mechanism is a rotary motor, and a rotating shaft of the rotary motor penetrates through the rotary table support and is connected with the center of the rotary table.

An electromagnetic proximity inductor is installed at a rotating shaft of the rotating motor and used for inducing whether a funnel exists at the first station or not. When the electromagnetic proximity sensor senses that the funnel is arranged on the first station, the rotation is stopped to wait for blanking.

The first station department is equipped with the second photoelectric sensing ware, the second photoelectric sensing ware is installed on the revolving stage support, is used for responding to whether material container has been located to first station. When the second photoelectric sensor senses the material container, the vibrating disc device works to drive blanking.

The vibrating disk device comprises a rack and a vibrating disk body arranged on the rack, wherein a hopper is arranged in the vibrating disk body, and a pulse electromagnet is arranged below the hopper and used for vibrating the hopper; the hopper is connected with the spiral track, the spiral track is connected with the linear track, and the finger sleeve is arranged on the spiral track and enters the linear track along the vibration of the hopper.

The linear track along with the spiral track junction extremely the direction of discharge gate is the downward sloping setting to make things convenient for the finger stall to fall into in the vibration dish device.

The finger stall counting and packaging device can further comprise a feeding mechanism, and the feeding mechanism is used for conveying the finger stalls into the vibration disc device; the feeding mechanism is a conveyor belt.

Compared with the prior art, the utility model discloses following beneficial effect has at least:

(1) The finger stall counting and packaging device provided by the utility model can automatically count the finger stalls falling into the material container, and has high efficiency and high accuracy compared with a manual counting method or a counting method according to weight;

(2) The plurality of stations are arranged to improve the operation efficiency, when the first station is used for blanking, an operator can pack finger sleeves in the material containing container at other stations and place the empty material containing container below the funnel, and the plurality of operations can be synchronously carried out;

(3) A plurality of funnels can be arranged on a funnel frame of the finger stall counting and packaging device, and the requirement of multiple stations is met.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below, and it is obvious that the drawings described below 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 automatic finger stall packaging device in an embodiment of the present invention;

fig. 2 is a top view of an automatic finger stall packing device according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a funnel stand according to an embodiment of the present invention;

reference numerals: 1-vibration disc device, 101-vibration disc body, 102-linear track, 1021-discharge port, 103-frame, 2-rotating table, 3-rotary driving mechanism, 4-funnel frame, 401-upright post, 402-mounting part, 403-supporting arm, 404-through hole, 5-funnel, 6-material container, 7-rotating table support, 701-supporting part, 702-mounting plate, 8-second photoelectric sensor, 9-electromagnetic proximity sensor, 10-conveying belt and 11-electric box.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1 and 2, the utility model provides a finger stall counting and packaging device, which comprises a vibration disc device 1, wherein the vibration disc device 1 is provided with a linear track 102, and a finger stall enters the linear track 102 under the vibration of the vibration disc device 1; a material receiving platform is arranged below a discharge port 1021 of the linear track 102 and comprises a rotating platform 2, the rotating platform 2 is connected with a rotary driving mechanism 3, a funnel frame 4 is fixedly installed on the rotating platform 2, the funnel frame 4 is used for placing a funnel 5, the funnel 5 is suspended and erected on the funnel frame 4, so that the bottom of the funnel 5 is spaced from the table surface of the rotating platform 2 by a certain distance, a material containing container 6 is arranged below the funnel 5 and used for containing finger sleeves, the rotary driving mechanism 3 drives the rotating platform 2 to rotate by a certain angle each time, so that the funnel 5 rotates to be right below the discharge port 1021, and the finger sleeves fall into the funnel 5 below from the discharge port 1021 and fall into the material containing container 6 through the funnel 5; discharge gate 1021 department installs first photoelectric sensing ware (not shown), first photoelectric sensing ware is connected with count controller (not shown), be arranged in counting the number of the finger stall that gets into in flourishing material container 6 through discharge gate 1021, when the number of the finger stall through discharge gate 1021 (the number of the finger stall in flourishing material container 6 promptly) reaches the setting value, vibration dish device 1 stops the ejection of compact, revolving stage 2 is rotatory, it is rotatory to drive flourishing material container 6 that is equipped with the finger stall, be convenient for follow-up operating personnel to pack the finger stall in flourishing material container 6. The finger stall counting and packaging device can automatically count finger stalls falling into the material containing container, and compared with a method for manually counting or counting according to weight, the finger stall counting and packaging device is high in efficiency and accuracy; and compare in direct trompil on revolving stage 2, erect the scheme at revolving stage 2 with funnel 5, the scheme that this embodiment provided can set up funnel 5 quantity in a flexible way according to actual need, only need increase or reduce the funnel frame quantity can, and do not receive the restriction of trompil quantity on revolving stage 2, satisfy different demands under different scenes, the condition.

The rotating platform 2 in this embodiment is a four-station rotating platform, that is, four stations are arranged on the rotating platform 2 at intervals of 90 degrees, each station is provided with a hopper 5, the station just below the discharge port 1021 is set as a first station, and the rotary driving mechanism 3 drives the rotating platform 2 to rotate by 90 degrees every time so that the material container 6 to be charged rotates to the first station. An electromagnetic proximity sensor 9 is installed at a rotating shaft of the rotary driving mechanism 3, when the electromagnetic proximity sensor 9 detects the funnel 5 at the first station, the rotary driving mechanism 3 stops operating, and the rotary table 2 stops rotating. The rotation driving mechanism 3 in this embodiment is a rotating motor, and a rotating shaft of the rotating motor is connected to the center of the turntable 2, but in other embodiments, the rotation driving mechanism 3 may be a driving mechanism such as a rotating cylinder. The revolving stage 2 in this embodiment is a four-station revolving stage, in other embodiments, the number of stations can be set according to actual needs, the angle of every rotation of the revolving stage 2 is set according to the number of stations, but in order to improve the operation efficiency, the number of stations is set to be not less than three, the first station is used for blanking, an operator takes off the material container 6 with the finger stall at other stations (for example, at the second station) for packaging, and another operator puts the empty material container 6 into the lower part of the funnel 5 at other stations (for example, at the third station).

Can also install second photoelectric sensor 8 in revolving stage 2's first station department, second photoelectric sensor 8 is used for responding to whether there is flourishing material container 6 in the funnel 5 below of first station, and when second photoelectric sensor 8 senses flourishing material container 6 back, vibration dish device 1 work unloading. In this embodiment, the material receiving platform further includes a rotating table support 7, the rotating table 2 is erected on a support part 701 of the rotating table support 7, the rotating table support 7 further includes a mounting plate 702, a mounting hole (not shown) is formed in the middle of the mounting plate 702, and an output end of the rotary driving mechanism 3 penetrates through the mounting hole to be connected with the bottom of the rotating table 2; the second photoelectric sensor 8 is installed at the position, close to the first station, of the mounting plate 702, when the electromagnetic proximity sensor 9 detects that the funnel 5 is arranged at the first station, the rotating table 2 stops rotating, and when the second photoelectric sensor 8 detects that the material containing container 6 is arranged below the funnel 5, the vibrating disc device 1 performs work blanking.

Flourishing material container 6 is the wrapping bag in this embodiment, and the wrapping bag can directly cup joint in the below of funnel 5, and when finger stall in the wrapping bag reached appointed quantity, operating personnel directly with the wrapping bag seal can, reducible operating procedure, raise the efficiency.

Referring to fig. 1 and fig. 3, the funnel stand 4 includes a column 401, a mounting portion 402, and four supporting arms 403, wherein one end of the column 401 is fixed on the rotating platform 2, and the other end is connected to the mounting portion 402, so that the mounting portion 402 is located at the rotation center of the rotating platform 2; the four supporting arms 403 are equal in length, one end of each supporting arm is connected with the mounting part 402, the other end of each supporting arm 403 is provided with a through hole 404, the aperture of each through hole 404 is matched with the size of the funnel 5, and the funnel 5 is suspended and erected on the funnel frame 4 through the through holes 404. In this embodiment, the mounting portion 402 is an annular mounting portion, and one ends of the four support arms 403 are disposed at equal angles along the outer side of the annular mounting portion 402. Of course, the mounting portion 402 may also be circular or other shapes. In a more preferred embodiment, at least two of the columns 401 are preferably symmetrically arranged so that the funnel stand 4 does not wobble when the rotary table 2 rotates. In this embodiment, four support arms 403 are provided, but in other embodiments, the number of support arms 403 can be adjusted adaptively according to the number of stations.

The vibrating disk device 1 specifically comprises a vibrating disk body 101 arranged on a rack 103, wherein a hopper is arranged in the vibrating disk body, and a pulse electromagnet is arranged below the hopper and used for vibrating the hopper; the hopper is connected with a spiral track which is connected with the linear track 102, fingers are sleeved on the hopper to ascend along the spiral track under the vibration of the hopper and enter the linear track 102, and then fall into the hopper 5 below under the guidance of the linear track 102. The utility model discloses in vibration dish device 1 that uses can be any one kind vibration dish structure commonly used in this field, and its concrete structure and theory of operation are no longer repeated here. In this embodiment, the linear rails 102 are arranged to slope downwardly to facilitate the dropping of finger stalls into the underlying funnel 5.

The finger stall count packing plant that this embodiment provided still includes feed mechanism, and feed mechanism is used for carrying the finger stall to vibration dish device 1 in, realizes that the feeding is automatic, further uses manpower sparingly cost. The feeding mechanism can be, for example, the conveyer belt 10, and the operating personnel puts the finger stall on conveyer belt 10, and the discharge end of conveyer belt 10 sets up on vibration dish body 101, and the finger stall conveys to the discharge end and falls into in vibration dish body 101 through conveyer belt 10. In one preferred embodiment, the conveyor 10 may be a lifting belt, for example, to facilitate emptying by an operator.

The first photosensor and the second photosensor 8 used in the present embodiment may be, for example, 24v npn-type diffuse reflection photosensors; the vibrating disk device 1 may employ, for example, a vibrating disk having a diameter of 500 mm; the diameter of the four-station rotary table may be, for example, 800mm; the adopted counting controller has an automatic zero clearing reset function; the rotating platform bracket 7 is also provided with an electric box 11 for supplying power.

The utility model provides a finger stall count packing plant's theory of operation as follows:

setting a station right below a discharge port 1021 as a first station, and sequentially setting a station in a clockwise direction along the first station as a second station, a third station and a fourth station;

an operator puts finger sleeves on the conveyor belt 10, the finger sleeves enter the vibration disc device 1 through the conveyor belt 10, the vibration disc body 101 works to enable the finger sleeves to enter the linear rail 102, fall into the funnel 5 below through the linear rail 102 and fall into a packaging bag under the guidance of the funnel 5; a first photoelectric sensor at a discharge port 1021 of the linear track 102 senses finger sleeves and is matched with a counting controller to count the finger sleeves, when the sensed number of the finger sleeves reaches a set value, the vibration disc device 1 stops working, and blanking stops; the revolving stage 2 rotates 90 degrees, and the wrapping bag that will carry the finger stall rotates to the second station, and operating personnel takes away the wrapping bag at the second station and seals, and another operating personnel is empty bag at the third station dress simultaneously, waits for next rotation 90 degrees, so repetitive operation.

The utility model discloses a practical utility model principle has been elucidated to it is right that specific individual example has been used herein, and the explanation of above embodiment is only used for helping to understand the utility model discloses a method and core thought. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the scope of the appended claims.

Claims (10)

1. The finger stall counting and packaging device is characterized by comprising a vibrating disc device (1), wherein the vibrating disc device (1) is provided with a linear track (102) for discharging, a discharge hole (1021) of the linear track (102) is provided with a first photoelectric sensor, and the first photoelectric sensor is connected with a counting controller; the material collecting platform is arranged below the discharge port (1021), the funnel frame (4) is installed on the material collecting platform, the funnel (5) is erected in a suspended mode on the funnel frame (4), and the material containing container (6) is arranged below the funnel (5).

2. The finger stall counting and packaging device as claimed in claim 1, wherein the material receiving platform comprises a rotating table (2), the rotating table (2) is connected with a rotating driving mechanism (3), a plurality of stations which are arranged at equal angles and intervals are arranged on the rotating table (2), and a funnel (5) is arranged on each station; wherein just right the station of discharge gate (1021) below is first station, and the finger stall is followed discharge gate (1021) falls into in funnel (5) of first station, and the warp funnel (5) fall into flourishing material container (6) of below.

3. A finger stall counting packaging device as claimed in claim 2, wherein the funnel stand (4) comprises a mounting portion (402), at least two uprights (401) and a plurality of support arms (403), at least two of the uprights (401) being mounted on the rotary table (2), the mounting portion (402) being mounted on at least two of the uprights (401); a plurality of the one end of support arm (403) is all installed on installation department (402), and the through-hole (404) that are used for the unsettled erection funnel (5) are all seted up to the other end.

4. A finger stall counting and packaging device as claimed in claim 3, wherein the mounting part (402) is a ring or circular mounting part and is fixed at the rotation center of the rotating platform (2) by at least two columns (401); one end of each of the support arms (403) is radially arranged along the outer side of the circular or annular mounting part (402) at an equal angle.

5. A finger stall counting and packaging device as claimed in claim 2, wherein the material receiving platform further comprises a rotating platform bracket (7), and the rotating platform (2) is mounted on the rotating platform bracket (7); the rotary driving mechanism (3) is a rotary motor, and a rotating shaft of the rotary motor penetrates through the rotary table support (7) and is connected with the center of the rotary table (2).

6. A finger stall counting and packaging device as claimed in claim 5, wherein an electromagnetic proximity sensor (9) is mounted at the rotating shaft of the rotating motor for sensing whether the funnel (5) is at the first station.

7. A finger stall counting and packaging device as claimed in claim 5, wherein a second photoelectric sensor (8) is arranged at the first station, and the second photoelectric sensor (8) is mounted on a rotating table bracket (7) and used for sensing whether a material containing container (6) is arranged at the first station.

8. The finger stall counting and packaging device as claimed in claim 1, wherein the vibrating disk device (1) comprises a frame (103) and a vibrating disk body (101) arranged on the frame (103), a hopper is arranged in the vibrating disk body (101), and a pulse electromagnet is arranged below the hopper and used for vibrating the hopper; the hopper is connected with a spiral track, the spiral track is connected with the linear track (102), and the finger sleeve rises along the spiral track under the vibration of the hopper and enters the linear track (102).

9. A finger stall counting and packaging device as claimed in claim 8, wherein the linear track (102) is inclined downwardly in a direction from the connection with the spiral track to the dispensing opening (1021).

10. A finger stall counting and packaging device as claimed in claim 1, further comprising a feeding mechanism for conveying finger stalls into the vibrating tray device (1); the feeding mechanism is a conveyor belt (10).

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