CN111572915A - Powder quantitative packaging device - Google Patents

Abstract

The invention provides a quantitative powder packaging device, which structurally comprises a bottom plate, a discharging sleeve, a control panel, a storage hopper, a case and a surplus material replacing device, wherein the bottom plate is welded with the case, the storage hopper is fixedly arranged at the top end of the case, the surplus material replacing device is arranged in the case in an embedded mode, and the control panel is arranged on the front end face of the case.

Description

Powder quantitative packaging device

Technical Field

The invention belongs to the field of packaging machines, and particularly relates to a quantitative powder packaging device.

Background

The powder packaging machine is a machine for fully automatically metering and packaging powder and other small particle aggregates, is widely applied to various industries such as food, medicine, feed, veterinary medicine, chemical industry, additives, drying agents and the like, and has large restriction on the packaging output demand of a single material product due to small unit amount in a small-sized production workshop.

Based on the above description, the inventor finds that the existing powder quantitative packaging device mainly has the following defects, such as:

because in the powder ration packaging process, the amount of its output has the restriction, and the powder raw materials in the packagine machine need place on the large side get into the packagine machine in, prevent that interior material is not enough and the empty package phenomenon that produces from appearing, and because the yield restriction, when trading the material, often have some cloudiness in the packagine machine, in-process carrying out the continuous output, the excess output leads to the slow-witted of production easily to there is the packing waste product of compounding easily.

Disclosure of Invention

In order to solve the technical problems, the invention provides a quantitative powder packaging device, which aims to solve the problems that the yield limit of the conventional quantitative powder packaging process is limited, powder raw materials in a packaging machine are placed into the packaging machine in a large amount to prevent the empty package phenomenon caused by insufficient internal materials, and due to the yield limit, when the materials are changed, some residual materials often exist in the packaging machine, the excessive yield easily causes the production delay in the continuous yield process, and the mixed packaging waste products easily exist.

Aiming at the defects of the prior art, the purpose and the effect of the quantitative powder packaging device are achieved by the following specific technical means: the utility model provides a powder ration packing plant, its structure includes bottom plate, ejection of compact cover, control panel, storage hopper, quick-witted case, clout transposing device, the bottom plate welds with quick-witted case mutually, storage hopper fixed mounting is on quick-witted case top, the clout transposing device is installed inside quick-witted case through the mode of embedding, control panel locates the positive terminal surface of quick-witted case, ejection of compact cover welded fastening is in quick-witted case positive terminal surface below.

The excess material replacing device comprises a conveying coating cylinder, a side sealing mechanism, an inner disc mechanism, a flexible conveying pipe, an electric control line and an inner shaft, wherein the conveying coating cylinder is fixedly connected to the side sealing mechanism in an electric welding mode, the flexible conveying pipe is fixedly connected with the inner disc mechanism, the electric control line is installed on the right side of the inner disc mechanism in an embedded mode, and the inner shaft is installed inside the inner disc mechanism in an embedded mode.

As preferred, the side seal mechanism includes the frame, turns over board, convex bubble, gentle piece, interior brace, sliding guide mechanism, the frame passes through hinged joint with turning over the board, the epitaxial top that turns over the board is equipped with convex bubble, the mode that interior brace passed through the embedding is installed inside turning over the board, gentle piece is installed in the middle of two turns over boards, turns over the board and has two and middle gentle pieces that are equipped with and play the connection effect to it, and gentle piece adopts the material to make on the contrary soft sheetmetal, can break down the back off with the fingers and thumb at the board, keeps fixed form to form a ditch form piece of being convenient for to derive.

Preferably, the sliding guide mechanism comprises a cover plate, a floating mechanism, an arc clamping strip and a side frame, the cover plate is fixedly connected with the side frame, the arc clamping strip is welded with the side frame, the floating mechanism is installed in the side frame in an embedded mode, the floating mechanism is in an inclined state under the restraint of the side frame, and in the process of continuous vibration of the floating mechanism, the excess material above the floating mechanism can be removed in an accelerated sliding mode.

Preferably, the floating mechanism comprises an inner guide strip, a floating piece, a bearing cover and a transverse constraint mechanism, the inner guide strip is fixedly connected with the transverse constraint mechanism, the bearing cover covers the transverse constraint mechanism, the transverse constraint mechanism is installed in the floating piece in an embedded mode, the inner guide strip is installed in the floating piece in an embedded mode, the bearing cover is arranged at the bottom of the floating piece, and the floating piece can generate vibration frequency within a certain range through the fluctuation form conversion of the bearing cover.

Preferably, the transverse restraining mechanism comprises a lantern ring, inner folding pieces, an inner groove and a buckle bar, the inner folding pieces are arranged inside the lantern ring, the inner groove and the lantern ring are of an integrated structure, the buckle bar is fixedly installed at the right lower part of the lantern ring, the lantern ring is made of rubber materials and is in an elliptical ring shape in a conventional state, and the shape of the bearing cover is changed by shortening the inner diameters of two long ends.

As preferred, inner disc mechanism is including sealing the opening soon, leads to the dish, smooth burst, leads to groove, conducting bar, seal the opening embedding soon and install inside leading to the dish, lead to groove and smooth burst structure as an organic whole, the conducting bar embedding is installed at smooth burst both sides face, and smooth burst can carry out the slant through the orientation inside and promote the slip to can be in the state of release after the completion of sliding through leading to the groove, and then get rid of the clout of inside.

Preferably, the inner pleated sheet has a slightly wider bottom and a slightly narrower tail, and is connected with each other by the bottom side, so that the property of the narrower tail can reduce the internal reverse force when the lantern ring is folded and bent, and simultaneously generate larger recoverable activity space.

Preferably, each set of the convex bubbles is provided with three convex bubbles which adopt a sealing structure and are internally provided with gas, half of the convex bubbles protrude towards the outside when the convex bubbles are in an installation state, and when the convex bubbles are integrally attached and embedded in the outer frame, the friction force between the convex bubbles and the outer frame can be enhanced by compressing the gas inside.

Compared with the prior art, the invention has the following advantagesAdvantageous effects：

The side sealing mechanism can be respectively opened by side turning, the sliding sheet in the inner tray mechanism is opened by sliding pressure, the excess material in the storage hopper can be converted into a discharge state from the original closed state, and the excess material in the storage hopper can be discharged to the maximum extent through the mutual matching of the side sealing mechanism and the conveying coating barrel, so that the empty package phenomenon is avoided, the material is saved, and the waste products of mixed material packaging are avoided.

Drawings

FIG. 1 is a schematic structural diagram of a quantitative powder packaging device according to the present invention.

FIG. 2 is a schematic diagram of a side view of a powder quantitative packaging device.

Fig. 3 is a schematic side view of the residue replacing device.

Fig. 4 is a schematic top view of the inner tray mechanism.

FIG. 5 is a detailed structural diagram of the side sealing mechanism.

Fig. 6 is a schematic top view of the inner structure of the sliding guide mechanism.

Fig. 7 is a detailed structural diagram of the interior of the floating mechanism.

Fig. 8 is a detailed structural diagram of the inside of the lateral restriction mechanism.

In the figure: bottom plate-1, discharging sleeve-2, control panel-3, storage hopper-4, chassis-5, excess material replacing device-6, conveying cladding cylinder-a 1, side sealing mechanism-a 2, inner disc mechanism-a 3, flexible conveying pipe-a 4, electric control line-a 5, inner shaft-a 6, outer frame-a 21, turning plate-a 22, convex bubble-a 23, flexible sheet-a 24, inner pull strip-a 25, sliding guide mechanism-a 26, cover sheet-a 11, floating mechanism-a 12, arc clamping strip-a 13, side frame-a 14, inner guide strip-a 121, floating sheet-a 122, bearing cover-a 123, transverse restraining mechanism-a 124, lantern ring-aa 1, inner pleat sheet-aa 2, inner groove-aa 3, buckle strip-aa 4, sealing opening-a 31, through disc-a 32, sliding sheet-a 33, A through groove-a 34 and a guide bar-a 35.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

As shown in figures 1 to 5:

the invention provides a quantitative powder packaging device which structurally comprises a bottom plate 1, a discharging sleeve 2, a control panel 3, a storage hopper 4, a case 5 and a residual material replacing device 6, wherein the bottom plate 1 is welded with the case 5, the storage hopper 4 is fixedly arranged at the top end of the case 5, the residual material replacing device 6 is arranged inside the case 5 in an embedded mode, the control panel 3 is arranged on the front end face of the case 5, and the discharging sleeve 2 is fixedly welded below the front end face of the case 5.

The excess material replacing device 6 comprises a conveying coating cylinder a1, a side sealing mechanism a2, an inner disc mechanism a3, a flexible conveying pipe a4, an electric control wire a5 and an inner shaft a6, wherein the conveying coating cylinder a1 is fixedly connected to the side surface of the side sealing mechanism a2 in an electric welding mode, the flexible conveying pipe a4 is fixedly connected with the inner disc mechanism a3, the electric control wire a5 is installed on the right side of the inner disc mechanism a3 in an embedding mode, and the inner shaft a6 is installed inside the inner disc mechanism a3 in an embedding mode.

The side sealing mechanism a2 comprises an outer frame a21, a turning plate a22, a convex bubble a23, a flexible sheet a24, an inner brace a25 and a sliding guide mechanism a26, wherein the outer frame a21 is connected with the turning plate a22 through a hinge, the convex bubble a23 is arranged at the top end of the extension of the turning plate a22, the inner brace a25 is installed inside the turning plate a22 in an embedding mode, the flexible sheet a24 is installed between the two turning plates a22, the turning plate a22 is provided with two flexible sheets a24 arranged in the middle to play a connecting role, the flexible sheet a24 is made of a metal sheet made of soft material, and can keep a fixed form after the turning plate a22 is pulled off, and a groove-shaped sheet convenient to guide is formed.

The sliding guide mechanism a26 comprises a cover plate a11, a floating mechanism a12, an arc clamping strip a13 and a side frame a14, the cover plate a11 is fixedly connected with the side frame a14, the arc clamping strip a13 is welded with the side frame a14, the floating mechanism a12 is installed inside the side frame a14 in an embedded mode, the floating mechanism a12 is originally in an oblique state under the constraint of the side frame a14, and in the process of continuous vibration, the excess materials above the floating mechanism a can be removed in an accelerated sliding mode.

Wherein, interior dish mechanism a3 is including sealing through opening a31 soon, logical dish a32, slip piece a33, logical groove a34, conducting bar a35, it installs inside logical dish a32 to seal through opening a31 embedding soon, logical groove a34 and slip piece a33 structure as an organic whole, conducting bar a35 embedding is installed at slip piece a33 both sides face, and slip piece a33 can carry out the slant through the inside slip that promotes to can be in the state of release after the slip is accomplished through logical groove a34, and then get rid of the surplus material of inside.

The specific use mode and function of the embodiment are as follows:

in the present invention, the slide piece a33 can be pressed and pulled downward of the storage hopper 4, and the slide piece a33 has the through groove a34 at the lower position, and the through disc a32 and the side surface of the through groove a34 are connected together through the rotating shaft, so that the through disc a32 can be pressed in the process of sliding and pressing the slide piece a33 obliquely downward, so that the through disc a32 completely removes the blocking restriction on the bottom of the storage hopper 4, and the inner disc mechanism a3 rotating with the inner shaft a6 as the axis can be inclined and connected to the delivery covering cylinder a1, and the excess material in the storage hopper 4 can be guided by the released delivery covering cylinder a3 and enter the delivery covering cylinder a1 through the a34, so that the excess material is discharged to the outside through the slide guiding mechanism a26, and the flap a22 after being unfolded can form a V-shaped discharge opening with the flexible piece a24, and the excess material can be easily discharged.

Example 2

As shown in fig. 6 to 8:

the invention provides a powder quantitative packaging device, wherein a floating mechanism a12 comprises an inner guide bar a121, a floating sheet a122, a bearing cover a123 and a transverse restraining mechanism a124, the inner guide bar a121 and the transverse restraining mechanism a124 are fixedly connected together, the bearing cover a123 covers the transverse restraining mechanism a124, the transverse restraining mechanism a124 is installed inside the floating sheet a122 in an embedding mode, the inner guide bar a121 is installed inside the floating sheet a122 in an embedding mode, the bearing cover a123 is arranged at the bottom of the floating sheet a122, and the floating sheet a122 can generate vibration frequency within a certain range through the fluctuation form conversion of the bearing cover a 123.

The transverse restraining mechanism a124 comprises a lantern ring aa1, an inner pleat piece aa2, an inner groove aa3 and a buckle aa4, the inner pleat piece aa2 is arranged inside the lantern ring aa1, the inner groove aa3 and the lantern ring aa1 are of an integrated structure, the buckle aa4 is fixedly mounted at the lower right of the lantern ring aa1, the lantern ring aa1 is made of rubber materials and is in an elliptical ring shape in a normal state, and the shape of the bearing cover a123 is changed by shortening the inner diameters of two long ends.

The inner flap aa2 is slightly wider at the bottom and narrower at the tail, and is connected with each other through the bottom side, so that the property of the narrower tail can reduce the internal reverse force when the loop aa1 is folded and bent, and simultaneously, a larger recoverable activity space is generated.

Each group of the convex bubbles a23 is provided with three convex bubbles a23 which adopt a sealing structure and are internally provided with gas, when the convex bubbles a23 are in an installation state, half of the convex bubbles protrude towards the outside, and when the convex bubbles a23 are integrally attached and embedded in the outer frame a21, the friction force between the convex bubbles a23 and the outer frame a21 can be enhanced by compressing the gas inside.

The specific use mode and function of the embodiment are as follows:

according to the invention, the inner pull strip a25 fixed in the turning plate a22 can be pulled through the unfolding of the turning plate a22, the buckle strip aa4 is pulled through the inner guide strip a121 connected with the turning plate a 3578, the buckle strip aa4 directly acts on the right side surface of the lantern ring aa1, the groove where the lantern ring aa1 is located is in a fixed size, the left side of the lantern ring aa1 plays a supporting role, the inner diameter of two long ends is shortened, the shape of the bearing cover a123 is changed, the bearing cover a123 is changed from an original flat state to a convex state, the bearing cover a122 can be supported, the inclination angle of the floating piece a122 is increased, the floating piece a122 can be supported in a reciprocating mode through manual switching of the resetting and pressing positions of the turning plate a22, and vibration can be formed, and residual materials on the floating piece a122 can be discharged quickly.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (8)

1. The utility model provides a powder ration packing plant, its structure includes bottom plate (1), ejection of compact cover (2), control panel (3), storage hopper (4), quick-witted case (5), clout transposing device (6), its characterized in that:

the bottom plate (1) is welded with the case (5), the storage hopper (4) is fixedly installed at the top end of the case (5), the excess material replacing device (6) is installed inside the case (5) in an embedding mode, the control panel (3) is arranged on the positive end face of the case (5), and the discharging sleeve (2) is welded and fixed below the positive end face of the case (5);

surplus material replacing device (6) are including defeated material cladding section of thick bamboo (a1), side seal mechanism (a2), inner disc mechanism (a3), soft defeated pipe (a4), automatically controlled line (a5), interior axle (a6), defeated material cladding section of thick bamboo (a1) adopts the mode fixed connection of electric welding in side seal mechanism (a2) side, soft defeated pipe (a4) and inner disc mechanism (a3) fixed connection together, the right side in inner disc mechanism (a3) is installed through the mode of embedding to electric control line (a5), interior axle (a6) is installed inside inner disc mechanism (a3) through the mode of embedding.

2. A powder quantitative packaging device according to claim 1, wherein: the side seal mechanism (a2) comprises an outer frame (a21), a turning plate (a22), a convex bubble (a23), a flexible plate (a24), an inner pull strip (a25) and a sliding guide mechanism (a26), wherein the outer frame (a21) is connected with the turning plate (a22) through a hinge, the convex bubble (a23) is arranged at the extending top end of the turning plate (a22), the inner pull strip (a25) is installed inside the turning plate (a22) in an embedded mode, and the flexible plate (a24) is installed between the two turning plates (a 22).

3. A powder quantitative packaging device according to claim 2, wherein: the sliding guide mechanism (a26) comprises a cover plate (a11), a floating mechanism (a12), an arc clamping strip (a13) and a side frame (a14), wherein the cover plate (a11) is fixedly connected with the side frame (a14), the arc clamping strip (a13) is welded with the side frame (a14), and the floating mechanism (a12) is installed inside the side frame (a14) in an embedded mode.

4. A powder quantitative packaging device according to claim 3, wherein: the floating mechanism (a12) comprises an inner guide bar (a121), a floating sheet (a122), a bearing cover (a123) and a transverse restraining mechanism (a124), wherein the inner guide bar (a121) is fixedly connected with the transverse restraining mechanism (a124), the bearing cover (a123) covers the transverse restraining mechanism (a124), the transverse restraining mechanism (a124) is installed inside the floating sheet (a122) in an embedding mode, and the inner guide bar (a121) is installed inside the floating sheet (a122) in an embedding mode.

5. A powder quantitative packaging device according to claim 4, characterized in that: the transverse restraining mechanism (a124) comprises a lantern ring (aa1), an inner pleat piece (aa2), an inner groove (aa3) and a buckle strip (aa4), the inner pleat piece (aa2) is arranged inside the lantern ring (aa1), the inner groove (aa3) and the lantern ring (aa1) are of an integrated structure, and the buckle strip (aa4) is fixedly installed at the lower right side of the lantern ring (aa 1).

6. A powder quantitative packaging device according to claim 1, wherein: interior dish mechanism (a3) is including sealing through opening (a31), logical dish (a32), sliding piece (a33), logical groove (a34), conducting bar (a35) soon, seal through opening (a31) embedding soon and install inside logical dish (a32), logical groove (a34) and sliding piece (a33) structure as an organic whole, the embedding of conducting bar (a35) is installed and is being slided and divide piece (a33) both sides face, the aforesaid.

7. A powder quantitative packaging device according to claim 5, characterized in that: the inner flaps (aa2) are slightly wider at the bottom and narrower at the end, and are connected to each other by the bottom sides.

8. A powder quantitative packaging device according to claim 2, wherein: the convex bubbles (a23) are provided with three convex bubbles in all in each group, adopt a sealing structure and are internally provided with gas.

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