CN202828118U

CN202828118U - Full-automatic quantifying material taking device

Info

Publication number: CN202828118U
Application number: CN 201220476443
Authority: CN
Inventors: 马彪; 邹敏杰; 纪璐翊
Original assignee: LIMA CHEMIAL MACHINERY CO Ltd WUXI
Current assignee: LIMA CHEMIAL MACHINERY CO Ltd WUXI
Priority date: 2012-09-18
Filing date: 2012-09-18
Publication date: 2013-03-27
Anticipated expiration: 2022-09-18

Abstract

The utility model relates to a full-automatic quantifying material taking device. The full-automatic quantifying material taking device is characterized by comprising a spiral material taking mechanism, a bottle supporting mechanism, a weighing device and material taking bottles, wherein the spiral material taking mechanism is used for taking out materials in a storage bin and conveying the materials to the material taking bottles, the material taking bottles are placed on the bottle supporting mechanism, and the weighing device is used for detecting the quantity of the materials placed in the material taking bottles. When the quantity of the materials in one material taking bottle meets requirements, the spiral material taking mechanism stops conveying the materials to the material taking bottle, the bottle supporting mechanism delivers the material taking bottle containing the materials out and feeds in another empty material taking bottle at the same time, and then the next material taking cycle is started. The full-automatic quantifying material taking device is ingenious and reasonable in structure, capable of collecting packing materials in a timing and quantitative mode, and therefore follow-up detection of the characteristics of the materials can be carried out conveniently, and coherence and accuracy of taking of the materials are greatly improved.

Description

The Full-automatic quantitative take out device

Technical field

The utility model relates to a kind of packaging facilities, and is specifically a kind of for the quantitative timing take out device on the solid granular material device of full automatic packaging, belongs to the fully-automatic packaging machinery technical field of chemical industry, food service industry.

Background technology

At present, in chemical industry, food service industry package production, sometimes need the characteristic of packing materials is carried out data acquisition, guarantee the qualification rate that packing materials dispatch from the factory.And all be manually packing materials to be gathered now, should under dust atmosphere, manually gather like this, also can't accomplish within the accurate unit time, to collect quantitative packing materials, more can't link up to the collection of packing materials.And in modern fully-automatic packaging industry at a high speed, precisely, under the prerequisite that links up, force us that the Full-automatic quantitative take out device is carried out system.

Summary of the invention

The purpose of this utility model is to overcome the deficiencies in the prior art, a kind of Full-automatic quantitative take out device is provided, its structure is ingenious, reasonable, can accomplish regularly packing materials, quantitative collection, in order to material characteristic is carried out subsequent detection, greatly improved linking up and accuracy of material feeding.

The technical scheme that provides according to the utility model: Full-automatic quantitative take out device, it is characterized in that: comprise the spiral material fetching mechanism, for bottle device mechanism, weighting apparatus and feeding bottle, described spiral material fetching mechanism is used for the material in the feed bin is taken out and be delivered to the feeding bottle, described feeding bottle is placed on in the bottle device mechanism, described weighting apparatus is for detection of the inventory of putting in the feeding bottle, after inventory meets the demands, the spiral material fetching mechanism stops to feeding bottle convey materials, the feeding bottle that to get honest material for bottle device mechanism transfers out, send into simultaneously another empty feeding bottle, enter next feeding circulation.

As further improvement of the utility model, described spiral material fetching mechanism comprises motor, screw shaft, bearing seat, feeding pipeline and mounting flange, the feeding device for cleaning pipeline is crossed mounting flange and is fastened on the feed bin, feeding pipeline one end stretches in the feed bin, and the inlet point of material from the feeding pipeline in the feed bin enters the feeding pipeline; Described screw shaft is arranged in the feeding pipeline, screw shaft one end is by bearing block support, and screw shaft one end is connected with the output shaft of motor, and the driven by motor screw shaft rotates, screw shaft takes out material and carries along the feeding pipeline from feed bin, the discharging opening from the feeding pipeline is fallen the feeding bottle.

As further improvement of the utility model, the described bottle device mechanism that supplies comprises small rack, rotor, turning block, the first thimble assembly, air cylinder support, the rotor support, the rotating disk permanent seat, ratchet shaft, bearing seat, the non-return support, rotating disk, the second thimble assembly, turntable shaft and cylinder, described rotor support is fixed on the rotating disk permanent seat, be provided with one on the other two bearing seats in the rotor support, ratchet shaft is installed in the bearing seat by the bearing supporting, rotor is installed on the ratchet shaft top, vertically fixing many turntable shafts on the described rotor, described rotating disk is fixedly mounted on the turntable shaft upper end, rotating disk and rotor synchronous rotary, rotating disk are provided with several positions that holds that is used for placing the feeding bottle along its circumferencial direction well-distributed; Described air cylinder support vertically is fixed on the rotating disk permanent seat, cylinder is connected to the air cylinder support upper end, the rod end of cylinder is connected with turning block one end, and the described turning block other end is connected on the ratchet shaft by embedded bearing, and the flexible turning block that drives of the piston rod of cylinder comes and goes rotation around ratchet shaft; Described the first thimble assembly is installed on the turning block by small rack, when turning block comes and goes rotation around ratchet shaft, and the first thimble Component driver rotor unidirectional rotation; Described non-return support vertically is fixed on the rotating disk permanent seat, and the second thimble assembly is installed on the non-return support, and the second thimble assembly is used for stoping rotor revolution to occur in the unidirectional rotation process.

As further improvement of the utility model, the excircle of described rotor is provided with hook tooth; Described the first thimble assembly comprises the first thimble, the first thimble body, the first spring and the first nut, described the first thimble body is screwed onto on the small rack, it is inner that described the first thimble and the first spring are contained in the first thimble body, the first thimble front end snaps in the hook tooth on the rotor excircle, the first thimble aft end face is pressed on the first spring one end top, and the first spring other end compresses with the first nut that is screwed onto the first thimble body rear end; Described the second thimble assembly comprises the second thimble, the second thimble body, the second spring and the second nut, described the second thimble body is screwed onto on the non-return support, it is inner that described the second thimble and the second spring are contained in the second thimble body, the second thimble front end snaps in the hook tooth on the rotor excircle, the second thimble aft end face is pressed on the second spring one end top, and the second spring other end compresses with the second nut that is screwed onto the second thimble body rear end.

As further improvement of the utility model, described weighting apparatus comprises LOAD CELLS, sensor permanent seat and weighing instrument, described sensor permanent seat is fixedly mounted on the feed bin, LOAD CELLS is connected on sensor permanent seat and the rotating disk permanent seat, and LOAD CELLS connects the weighing instrument that is used for reading the weight of material data.

The utility model compared with prior art, advantage is:

(1) the utility model structure is ingenious, reasonable, by the spiral material fetching mechanism user's material is delivered to in the feeding bottle on the rotating disk of bottle device mechanism driving, to packing materials accomplish regularly, quantitative collection, in order to material characteristic is carried out subsequent detection, greatly improved linking up and accuracy of material feeding.

(2) the utility model is compared with artificial take out device, has overcome manual type fully and can only be used for Semi-automatic packaging production line, can't adapt to the drawback of fully-automatic packaging production line, has avoided artificial feeding can't accomplish quantitatively, accurately material be gathered.

(3) the utility model is compared with the Full-automatic quantitative take out device on the market, adopts bottle device mechanism that supplies of ratchet-type, and is reliable, accurate positioning; Simultaneously with low cost, only have its 1/3 the cost of Full-automatic quantitative take out device on the market.

Description of drawings

Fig. 1 is integral structure schematic diagram of the present utility model.

Fig. 2 is for bottle structure birds-eye view of device mechanism in the utility model.

Fig. 3 is the partial enlarged drawing of the first thimble assembly in the utility model.

Fig. 4 is the partial enlarged drawing of the second thimble assembly in the utility model.

Description of reference numerals: 1-feed bin, 2-motor, 3-screw shaft, 4-bearing seat, 5-feeding pipeline, 6-mounting flange, 7-small rack, 8-rotor, 8a-hook tooth, 9-turning block, the 10-the first thimble assembly, 10a-first thimble, 10b-first thimble body, 10c-first spring, 10d-first nut, 11-air cylinder support, 12-rotor support, 13-rotating disk permanent seat, 14-ratchet shaft, 15-bearing seat, 16-LOAD CELLS, 17-sensor permanent seat, 18-non-return support, 19-rotating disk, the 20-the second thimble assembly, 20a-second thimble, 20b-second thimble body, 20c-second spring, 20d-second nut, 21-turntable shaft, 22-feeding bottle, 23-cylinder.

The specific embodiment

The utility model is described in further detail below in conjunction with concrete drawings and Examples.

As shown in the figure: the Full-automatic quantitative take out device among the embodiment is mainly by the spiral material fetching mechanism, for bottle device mechanism, weighting apparatus and feeding bottle more than 22 parts form, described spiral material fetching mechanism is used for the material in the feed bin 1 is taken out and be delivered to feeding bottle 22, described feeding bottle 22 is placed on in the bottle device mechanism, described weighting apparatus is for detection of the inventory of putting in the feeding bottle 22, after inventory meets the demands, the spiral material fetching mechanism stops to feeding bottle 22 convey materials, the feeding bottle 22 that to get honest material for bottle device mechanism transfers out, send into simultaneously another empty feeding bottle 22, enter next feeding circulation; When the feeding bottle 22 of getting honest material arrives the blanking station, this feeding bottle 22 is taken off, change sky feeding bottle 22 and continue feeding work.

The structure of described spiral material fetching mechanism as shown in Figure 1, it mainly is comprised of motor 2, screw shaft 3, bearing seat 4, feeding pipeline 5 and mounting flange 6, feeding pipeline 5 is fastened on the feed bin 1 by mounting flange 6, feeding pipeline 5 one ends stretch in the feed bin 1, and the inlet point of material from feeding pipeline 5 in the feed bin 1 enters the feeding pipeline 5; Described screw shaft 3 is arranged in the feeding pipeline 5, screw shaft 3 one ends are by bearing seat 4 supportings, screw shaft 3 one ends are connected with the output shaft of motor 2, motor 2 drives screw shaft 3 and rotates, screw shaft 3 takes out material and carries along feeding pipeline 5 from feed bin 1, the discharging opening from feeding pipeline 5 is fallen the feeding bottle 22.

Described structure such as Fig. 1 for bottle device mechanism, shown in Figure 2, it is mainly by small rack 7, rotor 8, turning block 9, the first thimble assembly 10, air cylinder support 11, rotor support 12, rotating disk permanent seat 13, ratchet shaft 14, bearing seat 15, non-return support 18, rotating disk 19, the second thimble assembly 20, turntable shaft 21 and cylinder 23 form, described rotor support 12 is screwed on rotating disk permanent seat 13, be provided with one on the other two bearing seats 15 in the rotor support 12, ratchet shaft 14 is installed in the bearing seat 15 by the bearing supporting, rotor 8 is installed on ratchet shaft 14 tops, vertically fixing many turntable shafts 21 on the described rotor 8, described rotating disk 19 is fixedly mounted on turntable shaft 21 upper ends, rotating disk 19 and rotor 8 synchronous rotaries, rotating disk 19 are provided with several positions that holds that is used for placing feeding bottle 22 along its circumferencial direction well-distributed; Described air cylinder support 11 vertically is fixed on the rotating disk permanent seat 13, cylinder 23 is connected to air cylinder support 11 upper ends, the rod end of cylinder 23 is connected with turning block 9 one ends, described turning block 9 other ends are connected on the ratchet shaft 14 by embedded bearing, and the flexible turning block 9 that drives of the piston rod of cylinder 23 comes and goes rotation around ratchet shaft 14; Described the first thimble assembly 10 is installed on the turning block 9 by small rack 7, and when turning block 9 came and went rotation around ratchet shaft 14, the first thimble assembly 10 drove rotors 8 unidirectional rotation; Described non-return support 18 vertically is fixed on the rotating disk permanent seat 13, and the second thimble assembly 20 is installed on the non-return support 18, and the second thimble assembly 20 is used for stoping rotor 8 revolution to occur in the unidirectional rotation process.

Described weighting apparatus can adopt conventional products of the prior art, in the utility model, the structure of described weighting apparatus as shown in Figure 1, weighting apparatus in the utility model mainly is comprised of LOAD CELLS 16, sensor permanent seat 17 and weighing instrument, described sensor permanent seat 17 is fixedly mounted on the feed bin 1, LOAD CELLS 16 is connected on sensor permanent seat 17 and the rotating disk permanent seat 13, and LOAD CELLS 16 connects the weighing instrument that is used for reading the weight of material data.

Such as Fig. 1 ~ shown in Figure 3, in the utility model, the excircle of described rotor 8 is provided with hook tooth 8a; Described the first thimble assembly 10 mainly is comprised of the first thimble 10a, the first thimble body 10b, the first spring 10c and the first nut 10d, described the first thimble body 10b is screwed onto on the small rack 7, it is inner that described the first thimble 10a and the first spring 10c are contained in the first thimble body 10b, the first thimble 10a front end snaps in the hook tooth 8a on rotor 8 excircles, the first thimble 10a aft end face is pressed on the first spring 10c one end top, and the first spring 10c other end compresses with the first nut 10d that is screwed onto the first thimble body 10b rear end.

Described the second thimble assembly 20 mainly is comprised of the second thimble 20a, the second thimble body 20b, the second spring 20c and the second nut 20d, described the second thimble body 20b is screwed onto on the non-return support 18, it is inner that described the second thimble 20a and the second spring 20c are contained in the second thimble body 20b, the second thimble 20a front end snaps in the hook tooth 8a on rotor 8 excircles, the second thimble 20a aft end face is pressed on the second spring 20c one end top, and the second spring 20c other end compresses with the second nut 20d that is screwed onto the second thimble body 20b rear end.

Specific works process of the present utility model is as follows:

The utility model is when start, and the motor 2 in the spiral material fetching mechanism drives screw shaft 3 and is rotated in the forward, and material will move to feed opening along feeding pipeline 5, and the feeding bottle 22 below falling into, when getting weight when reaching, screw shaft 3 contrarotations are sent unnecessary material back to user's feed bin 1.This spiral material fetching mechanism is exactly the above-mentioned motion process of circulation.

After the spiral material fetching mechanism fills with feeding bottle 22 on request, for bottle device mechanism action, cylinder 23 drives turning block 9, turning block 9 drives the first thimble assembly 10 and does back and forth movement, the first thimble assembly 10 passes motion to rotor 8, make rotor 8 and rotating disk 19 make the synchronous formula of gradually stopping and rotatablely move, course of action is as follows in detail:

When cylinder 23 piston rods stretch out, promote turning block 9 forward rotation, the first thimble 10a in the first thimble assembly 10 promotes rotor 8 forward rotation; In rotor 8 forward rotation processes, the pressure that the second thimble 20a in the second thimble assembly 20 is subject to hook tooth 8a on rotor 8 excircles bounces back in the second thimble body 20b, the second spring 20c is subjected to force compresses, rotor 8 can be finished rotation, when the second thimble 20a after the vertex of this hook tooth 8a is crossed, the second thimble 20a ejects under the second spring 20c effect, snaps in the rear hook tooth 8a on the rotor 8.

In cylinder 23 piston rods when retraction,, the second thimble 20a in the second thimble assembly 20 blocks rotor 8, so that rotor 8 can't backward rotation; The first thimble assembly 10 is subject to the pulling force of cylinder 23 piston rods and counter motion, in the first thimble assembly 10 counter motion processes, the pressure that the first thimble 10a wherein is subject to hook tooth 8a on rotor 8 excircles bounces back in the first thimble body 10b, the first spring 10c is subjected to force compresses, when the first thimble 10a after the vertex of hook tooth 8a is crossed, the first thimble 10a ejects under the first spring 10c effect, snaps in the rear hook tooth 8a on the rotor 8.

By above-mentioned action, the rotating disk 19 that is installed on the rotor 8 just rotates lattice, enters next feeding circulation.When the feeding bottle 22 of getting honest material arrives relative stations, take off full bottle, change empty bottle and continue feeding work.

Claims

1. Full-automatic quantitative take out device, it is characterized in that: comprise the spiral material fetching mechanism, for bottle device mechanism, weighting apparatus and feeding bottle (22), described spiral material fetching mechanism is used for the material in the feed bin (1) is taken out and be delivered to feeding bottle (22), described feeding bottle (22) is placed on in the bottle device mechanism, described weighting apparatus is for detection of the inventory of putting in the feeding bottle (22), after inventory meets the demands, the spiral material fetching mechanism stops to feeding bottle (22) convey materials, the feeding bottle (22) that to get honest material for bottle device mechanism transfers out, send into simultaneously another empty feeding bottle (22), enter next feeding circulation.

2. Full-automatic quantitative take out device as claimed in claim 1, it is characterized in that: described spiral material fetching mechanism comprises motor (2), screw shaft (3), bearing seat (4), feeding pipeline (5) and mounting flange (6), feeding pipeline (5) is fastened on the feed bin (1) by mounting flange (6), feeding pipeline (5) one ends stretch in the feed bin (1), and the inlet point of material from feeding pipeline (5) in the feed bin (1) enters the feeding pipeline (5); Described screw shaft (3) is arranged in the feeding pipeline (5), screw shaft (3) one ends are by bearing seat (4) supporting, screw shaft (3) one ends are connected with the output shaft of motor (2), motor (2) drives screw shaft (3) and rotates, screw shaft (3) takes out material and carries along feeding pipeline (5) from feed bin (1), the discharging opening from feeding pipeline (5) is fallen the feeding bottle (22).

3. Full-automatic quantitative take out device as claimed in claim 1, it is characterized in that: the described bottle device mechanism that supplies comprises small rack (7), rotor (8), turning block (9), the first thimble assembly (10), air cylinder support (11), rotor support (12), rotating disk permanent seat (13), ratchet shaft (14), bearing seat (15), non-return support (18), rotating disk (19), the second thimble assembly (20), turntable shaft (21) and cylinder (23), described rotor support (12) is fixed on the rotating disk permanent seat (13), be provided with one on the other two bearing seats (15) in the rotor support (12), ratchet shaft (14) is installed in the bearing seat (15) by the bearing supporting, rotor (8) is installed on ratchet shaft (14) top, the upper vertically fixing many turntable shafts (21) of described rotor (8), described rotating disk (19) is fixedly mounted on turntable shaft (21) upper end, rotating disk (19) and rotor (8) synchronous rotary, rotating disk (19) are provided with several positions that holds that is used for placing feeding bottle (22) along its circumferencial direction well-distributed; Described air cylinder support (11) vertically is fixed on the rotating disk permanent seat (13), cylinder (23) is connected to air cylinder support (11) upper end, the rod end of cylinder (23) is connected with turning block (9) one ends, described turning block (9) other end is connected on the ratchet shaft (14) by embedded bearing, and the flexible turning block (9) that drives of the piston rod of cylinder (23) comes and goes rotation around ratchet shaft (14); Described the first thimble assembly (10) is installed on the turning block (9) by small rack (7), and when turning block (9) came and went rotation around ratchet shaft (14), the first thimble assembly (10) drove rotor (8) unidirectional rotation; Described non-return support (18) vertically is fixed on the rotating disk permanent seat (13), and the second thimble assembly (20) is installed on the non-return support (18), and the second thimble assembly (20) is used for stoping rotor (8) revolution to occur in the unidirectional rotation process.

4. Full-automatic quantitative take out device as claimed in claim 3, it is characterized in that: the excircle of described rotor (8) is provided with hook tooth (8a); Described the first thimble assembly (10) comprises the first thimble (10a), the first thimble body (10b), the first spring (10c) and the first nut (10d), described the first thimble body (10b) is screwed onto on the small rack (7), described the first thimble (10a) and the first spring (10c) are contained in the first thimble body (10b) inside, the first thimble (10a) front end snaps in the hook tooth (8a) on rotor (8) excircle, the first thimble (10a) aft end face is pressed on the first spring (10c) end top, and the first spring (10c) other end compresses with the first nut (10d) that is screwed onto the first thimble body (10b) rear end; Described the second thimble assembly (20) comprises the second thimble (20a), the second thimble body (20b), the second spring (20c) and the second nut (20d), described the second thimble body (20b) is screwed onto on the non-return support (18), described the second thimble (20a) and the second spring (20c) are contained in the second thimble body (20b) inside, the second thimble (20a) front end snaps in the hook tooth (8a) on rotor (8) excircle, the second thimble (20a) aft end face is pressed on the second spring (20c) end top, and the second spring (20c) other end compresses with the second nut (20d) that is screwed onto the second thimble body (20b) rear end.

5. Full-automatic quantitative take out device as claimed in claim 1, it is characterized in that: described weighting apparatus comprises LOAD CELLS (16), sensor permanent seat (17) and weighing instrument, described sensor permanent seat (17) is fixedly mounted on the feed bin (1), LOAD CELLS (16) is connected on sensor permanent seat (17) and the rotating disk permanent seat (13), and LOAD CELLS (16) connects the weighing instrument that is used for reading the weight of material data.