CN211869886U - Automatic weighing and sorting material arranging machine for superfine powder small packages - Google Patents

Abstract

The application discloses an automatic weighing classification reason material machine for submicron powder small package body includes: the device comprises a feeding conveyer belt, a material arranging machine, a guide conveyer belt and a weighing and sorting machine which are connected in sequence; one end of the feeding conveyer belt feeds materials, and the other end of the feeding conveyer belt is opposite to the top opening center of the material arranging machine; reason material machine includes: the device comprises a cylinder, a vibration feeding belt, a bottom vibrator and a vibration discharging device. Through connecting feeding conveyer belt, reason material machine, direction conveyer belt, the sorter of weighing according to the preface, divide into monomer transmission one by one after the vibration of single little packing body to through the single packing body direction of transmission of direction conveyer belt control back, get into the sorter of weighing one by one after little packing body weighs on the belt of weighing, classify unqualified monomer packing. The efficiency is high, and the false detection rate is low.

Description

Automatic weighing and sorting material arranging machine for superfine powder small packages

Technical Field

The application relates to an automatic weighing and sorting material arranging machine for a superfine powder small package body, and belongs to the field of manufacturing of general mechanical equipment for pseudo-ginseng powder production.

Background

The superfine grinding is a grinding means for improving the cell wall breaking rate of the traditional Chinese medicinal materials to more than 95% by using a superfine grinder or a jet mill. The particle size of the pulverized pseudo-ginseng submicron powder is generally below 75 mu m, the powder is uniform, the dissolution rate of active ingredients of the medicine is obviously improved, and the quality of the preparation is improved. The superfine grinding is particularly suitable for grinding and processing rare medicinal materials such as pseudo-ginseng and the like.

For the user takes, powder is mostly the small-size packing behind the superfine grinding, but a large amount of small-size packing products only rely on the weight of the single packing body of artifical transmission, letter sorting back inspection, and work efficiency is low, and the false retrieval rate is high, increases the cost of enterprises.

SUMMERY OF THE UTILITY MODEL

The application provides an automatic weighing and classifying material arranging machine for superfine powder small packages, which is used for solving the technical problem.

The application provides an automatic weighing classification reason material machine for submicron powder small package body includes: the device comprises a feeding conveyer belt, a material arranging machine, a guide conveyer belt and a weighing and sorting machine which are connected in sequence;

one end of the feeding conveying belt is a feeding end, and the other end of the feeding conveying belt is opposite to the center of the top opening of the material arranging machine;

reason material machine includes: the device comprises a cylinder, a vibration feeding belt, a bottom vibrator and a vibration discharging belt;

the vibration feeding belt is arranged on the inner wall of the barrel in a winding mode along the circumferential direction of the inner wall of the barrel, and extends from the bottom of the barrel to the top of the barrel along the circumferential direction of the inner wall of the barrel;

a plurality of small vibrators are arranged on the bottom surface of the vibration feeding belt at intervals, the first end of the vibration feeding belt is tangent to the bottom of the cylinder, and the second end of the vibration feeding belt is arranged at a discharge outlet at the top of the cylinder;

the bottom vibrator is arranged on the bottom surface of the cylinder body;

the first end of the vibration blanking belt is tangentially connected with the side wall of the top of the cylinder, the second end of the vibration blanking belt is connected with one end of the first conveyor belt, and a plurality of vibrators are arranged on the vibration blanking belt at intervals;

the guiding conveyor belt comprises: the device comprises a first conveyor belt, a first baffle plate and at least one guide assembly;

the first baffle plates are arranged on two opposite sides of the first conveyor belt; the guide assembly is arranged above the first conveyor belt;

the guide conveying belt is connected with the weighing and classifying machine through a second conveying belt;

the sorter that weighs includes: the device comprises a workbench, a weighing belt, a speed reducing belt and a material pushing assembly, wherein one end of the weighing belt is connected with one end of a second conveyor belt; the other end of the weighing belt is connected with one end of the speed reducing belt;

the workstation includes: the weighing belt is electrically connected with the weight analysis module, and the weight analysis module is respectively electrically connected with the display screen and the material pushing assembly;

the material pushing assembly comprises: the device comprises a material guide plate, a rod body, a pneumatic hydraulic rod and a hydraulic pump; the output end of the hydraulic pump is in driving connection with the first end of the pneumatic hydraulic rod; the second end of the pneumatic hydraulic rod is connected with the first end of the rod body; the second ends of the rod bodies are provided with material guide plates in pairs; the guide plate extends towards the outer side of the rod body.

Preferably, the guide assembly comprises: the device comprises a support, a first clamp body, a second clamp body, a first connecting rod, a second connecting rod and a guide strip, wherein the support is arranged above a first conveyor belt in a spanning mode;

the first clamp body and the second clamp body are sleeved on the bracket at intervals;

the first end of the first connecting rod is connected with the first clamp body through a nut; the second end of the first connecting rod is connected to the first end of the guide strip in a sliding manner;

one end of the second clamp body is clamped on the bracket, and the other end of the second clamp body extends out of the bracket to form a free end;

the first end of the second connecting rod slides in a second long hole formed in the free end of the second clamp body and is fixedly connected with the second clamp body through a nut;

the second end of the second connecting rod is in sliding connection with a third long hole formed in the guide strip;

the guide strip is arranged above the first conveyor belt in a suspended mode.

Preferably, the guide assembly comprises: the steering motor is arranged on the first end of the guide strip; the driving shaft of the steering motor is in driving connection with the guide bar.

Preferably, a first long hole is formed in the first end of the guide bar, and the second end of the first connecting rod extends into the first long hole and slides along the first long hole.

Preferably, the outer side wall of the first end of the vibration feeding belt is provided with a limiting baffle, and the distance between the limiting baffle and the inner wall of the cylinder body is smaller than the width of the single small package body.

Preferably, one side of the vibration feeding belt is connected with the inner wall of the cylinder body, and the other side of the vibration feeding belt is provided with a limit baffle.

Preferably, the bracket comprises: the transverse rods and the longitudinal rods are arranged in pairs, and the longitudinal rods are arranged on two opposite sides of the first transmission belt in pairs;

the two ends of the cross rod are respectively connected with the longitudinal rod.

Preferably, the fixed end of the longitudinal rod is connected with the frame of the first conveyor belt;

the vertical rod extends upwards to form a free end perpendicular to the first conveyor belt;

the two ends of the cross rod are respectively connected with the free ends of the longitudinal rods.

Preferably, the bottom surface of the guide strip is spaced from the top surface of the first conveyor belt by less than the thickness of the small packages.

The beneficial effects that this application can produce include:

1) the utility model provides an automatic categorised reason material machine of weighing for submicron powder small package, through with feeding conveyer belt, reason material machine, the direction conveyer belt, the sorter of weighing connects according to the preface, divide into monomer one by one and transmit after the vibration of single small package, and behind the single package transmission direction of direction conveyer belt control, get into the sorter of weighing back small package after one by one and weigh on the belt of weighing, through the weight analysis module of electricity connection with it, with the unqualified small package of weight, release from the conveying belt, thereby realize the separation of certified products and defective products.

2) The application provides an automatic weighing classification reason material machine for submicron powder small package body through erect the support on conveyer belt upper portion to press from both sides on the support and establish the direction subassembly, separate conveyer belt body surface for a plurality of regions as required, during area body unidirectional motion, the small package body receives the direction of direction subassembly, moves forward along the direction strip, thereby controls the direction of motion of small package body on the conveyer belt.

3) The application provides an automatic weighing classification reason material machine for submicron powder small packaging body, the guide bar becomes angularly adjustable with conveyer belt side veneer, through driving motor control guide bar angle modulation, the direction angle modulation accuracy obtains improving, reduces staff's work load. Through seting up accommodation hole and power mounting hole at the gib block than, the installation power is accomodate power and driving motor's connecting cable wherein, increases equipment wholeness, avoids the contact of direction subassembly's cable and conveyer belt.

5) The utility model provides an automatic categorised reason material machine that weighs for submicron powder small packaging body, through the reason feed cylinder of conveyor belt tip, make the small packaging body that the heap was placed enter into one by one and manage on the conveyer belt of feed cylinder inner wall to get into subsequent conveyer belt one by one, need not artifical reason material, reduce working strength, improve work efficiency.

Drawings

FIG. 1 is a schematic view of an automatic weighing and sorting machine for micro-powder small packages according to the present application;

FIG. 2 is a schematic top view of a part of an automatic weighing and sorting material arranging machine for ultra-fine powder small packages provided by the application;

FIG. 3 is a partial enlarged view of point A in FIG. 1;

FIG. 4 is a schematic top view of the push handle provided in the present application;

illustration of the drawings:

110. a first conveyor belt; 111. a first baffle plate; 211. a cross bar; 212. a longitudinal bar; 220. a steering motor; 231. a first clamp body; 233. a first connecting rod; 235. a second clip body; 232. a second connecting rod; 240. a guide strip; 241. a transparent interlayer 241; 242. a transmitter; 243. a receiver; 300. a second conveyor belt; 310. a work table; 311. weighing the belt; 420. a reduction belt; 410. a material pushing assembly; 411. a material guide plate; 412. a rod body; 413. a pneumatic hydraulic rod; 510. a barrel; 511. vibrating the feeding belt; 512. a bottom vibrator; 513. vibrating the blanking belt; 520. a feed conveyor belt.

Detailed Description

The present application will be described in detail with reference to examples, but the present application is not limited to these examples.

The small package is a commercially available independent package for containing ultrafine powder or wall-broken decoction pieces.

Referring to fig. 1, the application provides an automatic weighing, classifying and arranging machine for ultra-fine powder small packages, including: a feeding conveyer belt 520, a material arranging machine, a guiding conveyer belt and a weighing and sorting machine;

referring to fig. 2, one end of the feeding conveyor 520 is a feeding end and the other end is opposite to the open-top center blanking of the material arranging machine. The small packages which are conveyed into the material inlet barrel enter in a pile at the moment.

Referring to fig. 1, the material arranging machine includes: a cylinder 510, a vibrating upper tape 511, a bottom vibrator 512, and a vibrating lower tape 513. On the inner wall of the cylinder 510, a vibration material belt 511 is coiled along the circumferential direction of the inner wall of the cylinder 510, and the vibration material belt 511 extends from the bottom of the cylinder 510 to the top of the cylinder 510 along the circumferential direction of the inner wall of the cylinder 510. A plurality of small vibrators are arranged on the bottom surface of the vibration feeding belt 511 at intervals, and all parts of the vibration feeding belt 511 are in vibration. Because the weight of a single small package body is light, the small package bodies stacked at the bottom of the cylinder 510 are separated into the single small package bodies by vibration under the action of vibration force, and the single small package bodies move upwards along the vibration feeding belt 511 after entering the vibration feeding belt 511. Therefore, the stacked small packages are automatically divided into a plurality of single small packages and then are transmitted.

A bottom vibrator 512 is installed at the bottom of the cylinder 510 so that the bottom of the cylinder 510 is continuously vibrated. So that the individual small packages jump into the vibrating feed belt 511 for transport. A discharge hole is formed in the side wall of the top of the cylinder 510, and the outlet end of the vibrating feeding belt 511 is connected with the discharge hole; and through the ejection of compact of this discharge gate, this discharge gate is connected with the first end of vibration unloading area 513, and the first end of vibration unloading area 513 is connected with barrel 510 lateral wall is tangent, and the second end of vibration unloading area 513 is connected with the one end of first conveyer belt 110. A plurality of vibrators are arranged on the vibrating blanking belt 513 at intervals, so that the conveying belt can vibrate continuously, and blanking of a single small package body is achieved.

The guiding conveyor belt comprises: a first conveyor belt 110, a first baffle 111, at least one guide assembly; the first baffles 111 are symmetrically disposed on two opposite sides of the first conveyor belt 110; the guide assembly is mounted spaced above the first conveyor belt 110.

Preferably, the vibrating feeding belt 511 has a first end connected with the bottom of the cylinder 510 in a circular tangent manner, and a second end disposed at the discharge port at the top of the cylinder 510. The small package body which can better receive the vibration bounce and enter the vibration feeding belt 511 is arranged according to the structure.

Preferably, with reference to FIGS. 1-2, the guide assembly comprises: the device comprises a bracket, a steering motor 220, a first clamp 231, a second clamp 235, a first connecting rod 233, a second connecting rod 232 and a guide bar 240. The rack is spanned above the first conveyor belt 110. The first clip 231 and the second clip 235 are disposed on the bracket at intervals and are installed above the first conveyor belt 110.

The first end of the first connecting rod 233 is connected to the first clip body 231 by a nut. The second end of the first connecting rod 233 is slidably coupled to the first end of the guide bar 240. The guide bar 240 is fixed above the first conveyor 110 without contacting the first conveyor 110 by tightening the nut to tighten the first connecting rod 233. The guide strip 240 is suspended above the first conveyor belt 110.

Preferably, the bottom surface of the guide strip 240 is spaced apart from the top surface of the first conveyor belt 110 by less than the thickness of the small packages. The thickness is moderate, and the guiding and blocking effect of the guide strip 240 on the small package body can be ensured.

One end of the second clamp body 235 is clamped on the bracket, and the other end extends outwards to form a free end; the first end of the second connecting rod 232 slides in a second long hole formed on the free end of the second clamp body 235 and is fixedly connected through a nut; the second end of the second connecting rod 232 is slidably connected to a third long hole formed in the guide bar 240. The second clamping body 235 is used for fixing the angle of the guide strip 240, so that the fixing stability is improved.

Preferably, referring to fig. 4, the steering motor 220 is mounted on a first end of the guide bar 240; the drive shaft of the steering motor 220 is drivingly connected to the guide strip 240. The angle accuracy is controlled and adjusted by changing the angle of the guide strip 240 with respect to the side wall of the first conveyor belt 110 by the steering motor 220.

The guiding conveyor belt is connected with the weighing and sorting machine through a second conveyor belt 300.

The sorter that weighs includes: a work table 310, a weighing belt 311, a decelerating belt 420 and a pushing assembly 410. One end of the weighing belt 311 is connected to one end of the second conveyor belt 300; the other end of the weighing belt 311 is connected to one end of the reduction belt 420. The small packages pass through the pushing assembly 410 at a lower speed after being decelerated, so that the operation of the pushing assembly 410 is facilitated, and the operation accuracy can be improved.

The stage 310 includes: the weighing belt 311 is electrically connected with the weight analysis module, and the weight analysis module is respectively electrically connected with the display screen and the material pushing assembly 410. The weighing belt 311 can accurately weigh the weight of a single small package, and through electric connection, the weight analysis module analyzes whether the weight of the single small package meets the weight requirement of a qualified product, if so, the material pushing assembly 410 is not started, and if not, the material pushing assembly 410 is started to separate the unqualified product from the conveying material.

Preferably, a reflective sensor is also included, including an emitter 242 and a receiver 243. A transparent interlayer 241 is arranged on the side wall of the second end of the guide strip 240, and an emitter 242 is arranged in the transparent interlayer 241; the transmitter 242 is disposed opposite to the receiver 243. Through setting up transparent intermediate layer 241, guarantee the planarization of gib block 240 outer wall, avoid single small package to be blockked by gib block 240 surface protruding thing and change the direction of motion, do not influence the receipt of the infrared ray of transmitter 242 output simultaneously. The number of the packages passing through the second end of the guide strip 240 can be counted by the reflection sensor, and the counting accuracy can be guaranteed under the condition of realizing single transmission of the packages.

Preferably, the second end of the first connecting rod 233 extends into a first elongated hole formed at the first end of the guide bar 240. After the guide bar 240 is moved to the position along the bracket, the nut on the first connecting rod 233 is tightened to fix the position of the guide bar 240 on the bracket.

Referring to fig. 3, pusher assembly 410 includes: a material guide plate 411, a rod body 412, a pneumatic hydraulic rod 413 and a hydraulic pump; the output end of the hydraulic pump is in driving connection with the first end of the pneumatic hydraulic rod 413; the second end of the pneumatic hydraulic rod 413 is connected with the first end of the rod body 412; the rod 412 has a pair of material guiding plates 411 at a second end. The guide plate 411 extends outward of the rod body 412. The hydraulic pump starts the extension rod body 412 to push out the unqualified product according to the judgment result of the weight analysis module. The speed is fast, the efficiency is high, and the accuracy is good. The hydraulic pump is driven by an engine or an electric motor, and the gravimetric module is electrically connected with a driving part thereof.

Preferably, a limit baffle is arranged on the outer side wall of the first end of the vibration material feeding belt 511. The spacing between the limiting baffle and the inner wall of the cylinder 510 is smaller than the width of a single small package body. When the single small package body jumps up under the vibration force and falls onto the vibration feeding belt 511, the single small package body can be prevented from jumping out of the vibration feeding belt 511 by vibration again.

Preferably, one side of the vibration feeding belt 511 is connected with the inner wall of the cylinder 510, and the other side is provided with a limit baffle. Preventing the single small package body from falling off in the vibration process.

Preferably, the bracket comprises: the transverse rods 211 and the longitudinal rods 212 are arranged in pairs, and the longitudinal rods 212 are symmetrically arranged on two opposite sides of the first transmission belt in pairs; the two ends of the cross bar 211 are connected with the longitudinal bars 212 respectively.

Preferably, the fixed end of the vertical rod 212 is connected with the first conveyor belt 110 frame; the vertical rod 212 extends upward perpendicular to the first conveyor belt 110 to form a free end; both ends of the cross bar 211 are connected to the free ends of the longitudinal bars 212, respectively.

Reference throughout this specification to "one embodiment," "another embodiment," "an embodiment," "a preferred embodiment," or the like, means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment described generally in this application. The appearances of the same phrase in various places in the specification are not necessarily all referring to the same embodiment. Further, when a particular feature, structure, or characteristic is described in connection with any embodiment, it is submitted that it is within the scope of the disclosure to effect such feature, structure, or characteristic in connection with other embodiments.

Although the present application has been described herein with reference to a number of illustrative embodiments thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the spirit and scope of the principles of this disclosure. More specifically, various variations and modifications are possible in the component parts and/or arrangements of the subject combination arrangement within the scope of the disclosure, the drawings and the appended claims. In addition to variations and modifications in the component parts and/or arrangements, other uses will also be apparent to those skilled in the art.

Claims (9)

1. The utility model provides an automatic weighing classification reason material machine for submicron powder small package body which characterized in that includes: the device comprises a feeding conveyer belt, a material arranging machine, a guide conveyer belt and a weighing and sorting machine which are connected in sequence;

one end of the feeding conveying belt is a feeding end, and the other end of the feeding conveying belt is opposite to the center of the top opening of the material arranging machine;

the reason material machine includes: the device comprises a cylinder body (510), a vibration feeding belt (511), a bottom vibrator (512) and a vibration discharging belt (513);

the vibration feeding belt (511) is arranged on the inner wall of the cylinder body in a winding mode along the circumferential direction of the inner wall of the cylinder body, and the vibration feeding belt (511) extends from the bottom of the cylinder body to the top of the cylinder body along the circumferential direction of the inner wall of the cylinder body;

a plurality of small vibrators are arranged on the bottom surface of the vibration feeding belt (511) at intervals, a first end of the vibration feeding belt (511) is tangent to the bottom of the cylinder body, and a second end of the vibration feeding belt is arranged at a discharge outlet at the top of the cylinder body;

the bottom vibrator is arranged on the bottom surface of the cylinder body;

the first end of the vibration discharging belt (513) is connected with the side wall of the top of the cylinder body in a tangent mode, the second end of the vibration discharging belt (513) is connected with one end of the first conveyor belt (110), and a plurality of vibrators are mounted on the vibration discharging belt (513) at intervals;

the guiding conveyor belt comprises: a first conveyor belt (110), a first baffle (111), at least one guide assembly;

the first baffles (111) are arranged on two opposite sides of the first conveyor belt (110); the guide assembly is mounted above the first conveyor belt (110);

the guide conveying belt is connected with the weighing and sorting machine through a second conveying belt (300);

the weighing and sorting machine comprises: the automatic weighing device comprises a workbench (310), a weighing belt (311), a speed-reducing belt (420) and a material pushing assembly (410), wherein one end of the weighing belt (311) is connected with one end of a second conveyor belt (300); the other end of the weighing belt (311) is connected with one end of the speed reducing belt (420);

the work table (310) comprises: the weighing belt (311) is electrically connected with the weight analysis module, and the weight analysis module is respectively electrically connected with the display screen and the material pushing assembly;

the pushing assembly comprises: a material guide plate (411), a rod body (412), a pneumatic hydraulic rod (413) and a hydraulic pump; the output end of the hydraulic pump is in driving connection with the first end of a pneumatic hydraulic rod (413); the second end of the pneumatic hydraulic rod (413) is connected with the first end of the rod body (412); the second ends of the rod bodies (412) are provided with material guide plates (411) in pairs; the material guide plate (411) extends towards the outer side of the rod body (412).

2. The automatic weighing and sorting and arranging machine for the ultra-micro powder small packages as claimed in claim 1, wherein the guide assembly comprises: the conveying device comprises a support, a first clamp body (231), a second clamp body (235), a first connecting rod (233), a second connecting rod (232) and a guide strip (240), wherein the support is arranged above the first conveying belt (110) in a spanning mode;

the first clamp body (231) and the second clamp body (235) are sleeved on the bracket at intervals;

the first end of the first connecting rod (233) is connected with the first clamp body (231) through a nut; the second end of the first connecting rod (233) is slidably connected to the first end of the guide bar (240);

one end of the second clamp body (235) is clamped on the bracket, and the other end of the second clamp body extends out of the bracket to form a free end;

the first end of the second connecting rod (232) slides in a second long hole formed in the free end of the second clamp body (235) and is fixedly connected with the second clamp body (235) through a nut;

the second end of the second connecting rod (232) is in sliding connection with a third long hole formed in the guide bar (240);

the guide strip (240) is arranged above the first conveyor belt (110) in a suspended mode.

3. The automatic weighing and sorting machine for the ultra-micro powder small packages as claimed in claim 2, wherein the guide assembly comprises: a steering motor (220), the steering motor (220) being mounted on a first end of the guide bar (240); the driving shaft of the steering motor (220) is in driving connection with the guide bar (240).

4. The automatic weighing and sorting material arranging machine for the ultra-micro powder small package body as claimed in claim 2, wherein a first long hole is formed in a first end of the guide strip (240), and a second end of the first connecting rod (233) extends into and slides along the first long hole.

5. The automatic weighing and sorting material arranging machine for the ultra-micro powder small packages as claimed in claim 1, wherein a limit baffle is arranged on the outer side wall of the first end of the vibration material feeding belt (511), and the distance between the limit baffle and the inner wall of the barrel is smaller than the width of a single small package.

6. The automatic weighing and sorting material arranging machine for the ultra-micro powder small package body as claimed in claim 1, wherein one side of the vibration material feeding belt (511) is connected with the inner wall of the barrel body, and a limit baffle is arranged on the other side.

7. The automatic weighing and sorting feeder for the ultra-micro powder small packages as claimed in claim 1, wherein the bracket comprises: the conveying device comprises a cross rod (211) and longitudinal rods (212) arranged in pairs, wherein the longitudinal rods (212) are arranged in pairs at two opposite sides of a first conveying belt (110);

two ends of the cross rod (211) are respectively connected with the longitudinal rods (212).

8. The automatic weighing, classifying and arranging machine for the ultra-micro powder small package according to claim 7, characterized in that the fixed end of the vertical rod (212) is connected with the frame of the first conveyor belt (110);

the longitudinal rod (212) extends upwards to form a free end perpendicular to the first conveyor belt (110);

two ends of the cross rod (211) are respectively connected with the free ends of the longitudinal rods (212).

9. The automatic weighing, classifying and arranging machine for the ultra-micro powder small packages as claimed in claim 2, wherein the interval between the bottom surface of the guide strip (240) and the top surface of the first conveyor belt (110) is less than the thickness of the small packages.

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