CN110697099A - Environment-friendly powder packagine machine - Google Patents

Abstract

An environment-friendly powder packaging machine comprises a frame, a feeding device, a bag clamping lifting device and a dust recovery device, wherein the bag clamping lifting device comprises a bag clamping device, a lifting power mechanism, a lifting power box arranged below a platform and a lifting frame positioned in front of the lifting power box, and the bag clamping device is fixed on the lifting frame by utilizing a bag clamping device barrel; the dust recovery device comprises a centrifugal dust collector, a dust collection cover and a dust conveying pipe connected between an air outlet pipe of the dust collection cover and an air inlet pipe of the centrifugal dust collector, wherein the dust collection cover is fixed at the lifting frame position above a bag clamping device cylinder body and loosely sleeved on a feeding pipe, the centrifugal dust collector is fixed at the top of a storage bin, a dust outlet of the centrifugal dust collector is butted with a recovery port at the top of the storage bin, and a dust exhaust valve is arranged at the dust outlet of the centrifugal dust collector.

Description

Environment-friendly powder packagine machine

Technical Field

The invention relates to a powder packaging machine.

Background

The invention patent of Chinese patent No. CN103332306B discloses a vertical spiral feeding packaging machine, which comprises a frame, a feeding motor, a bin, a spiral feeding shaft and a bag clamping device, wherein the feeding motor and the bin are fixed on the upper part of the frame, the lower end of the bin is connected with a feeding pipe which is vertically arranged, a lifting hose is sleeved outside the feeding pipe, the upper end of the lifting hose is connected with the upper end of the feeding pipe, the bag clamping device is connected with the lower end of the lifting hose, the bag clamping device is provided with a barrel, the bag clamping device is fixed on a mounting frame by the barrel, the spiral feeding shaft is arranged in the bin and the feeding pipe, the upper end of the spiral feeding shaft is connected with an output shaft of the feeding motor, a lifting device is arranged on the frame, the lifting device is connected with the bag clamping device and drives the bag clamping device to lift along the feeding pipe, the lower part of the bin is provided with a. Above-mentioned perpendicular spiral feed packagine machine is in packaging process, and the dust that the material whereabouts was raised can leak through some gaps, causes operational environment's pollution, is unfavorable for the environmental protection.

Disclosure of Invention

The invention aims to provide an environment-friendly powder packaging machine capable of preventing dust from leaking.

In order to achieve the purpose, the invention adopts the following technical scheme: an environment-friendly powder packaging machine is provided with a rack, a feeding device and a bag clamping lifting device, wherein the feeding device comprises a bin and a feeding pipe, the bin is fixed on a platform of the rack, the feeding pipe is connected to the lower end of the bin, the bag clamping lifting device comprises a bag clamping device and a lifting power mechanism, the bag clamping lifting device further comprises a lifting power box arranged below the platform and a lifting frame located in front of the lifting power box, and the bag clamping device is loosely sleeved on the feeding pipe by utilizing a bag clamping device cylinder and is fixed on the lifting frame; this powder packagine machine still has dust recovery unit, dust recovery unit includes centrifugal dust remover, dust cage and connects the dust conveyer pipe between the air-out pipe of dust cage and centrifugal dust remover's air-supply line, and the dust cage is fixed and is being located the crane position of bag holder barrel top and the loose cover on the filling tube, and centrifugal dust remover is fixed at the top of feed bin, and its dust outlet and the recovery mouth butt joint at feed bin top, and centrifugal dust remover's dust outlet department is provided with the dust exhaust valve.

A sliding seat is arranged in the lifting power box, and a lifting power mechanism drives the lifting frame to lift through the sliding seat.

The lifting power box is internally provided with a pair of guide rods, the sliding seat is provided with two guide holes, linear bearings are arranged in the guide holes, and the sliding seat is connected to the two guide rods in a sliding mode through the linear bearings.

The dust hood is provided with a left air outlet pipe and a right air outlet pipe, the lifting frame is provided with a first pipeline joint which is a three-way pipe, the sliding seat is provided with a second pipeline joint, the two air outlet pipes of the dust hood are connected with the first pipeline joint through two first hoses, the first pipeline joint is connected with the second pipeline joint through a second hose, the second pipeline joint is connected with an air inlet pipe of the centrifugal dust collector through a third hose, and the dust conveying pipe comprises a first hose, a second hose and a third hose.

The invention has the following positive effects: 1) according to the invention, the dust collection cover is arranged above the bag holder cylinder, and under the action of the centrifugal dust remover, dust raised in the falling process of the material is absorbed by the dust collection cover and is conveyed into the centrifugal dust remover through the dust conveying pipe, so that the dust is prevented from leaking. The dust outlet of the centrifugal dust remover is in butt joint with the recovery port at the top of the storage bin, the bottom of the centrifugal dust remover is provided with an automatic dust exhaust valve, when the centrifugal dust remover is in an inoperative state, the dust exhaust valve at the bottom of the centrifugal dust remover is opened, and dust recovered by the centrifugal dust remover enters the storage bin for utilization. 2) In the feeding process, the feeding screw can extrude a part of gas contained in the material, so that the gas content of the material is reduced, the flying of dust in the hopper is reduced, the bag clamping device is lifted along the feeding pipe, the material is kept a smaller distance from falling to depositing, the blanking space is smaller, the flying dust is less, and the environment is protected. 3) The recovered dust is utilized, no waste is generated, and the cost is favorably controlled.

FIG. 1 is a perspective view of the present invention (the centrifugal dust collector is omitted).

Fig. 2 is a top view of fig. 1.

Fig. 3 is a sectional view a-a of fig. 2.

Fig. 4 is a perspective view of the charging device.

Fig. 5 is a top view of fig. 4.

Fig. 6 is a sectional view B-B of fig. 5.

FIG. 7 is a connection diagram of the silo and the centrifugal dust collector.

Fig. 8 is a perspective view of the bag-clamping lifting device.

Fig. 9 is a perspective view of the connection of the members lifted and lowered by the lifting frame.

Fig. 10 is a plan view of fig. 9.

Fig. 11 is a cross-sectional view of fig. 10 taken along line C-C.

Fig. 12 is a perspective view of a first pipe joint.

Fig. 13 is a schematic view of a dust transporting pipe.

The reference numbers are as follows: the device comprises a feeding device A, a bin A1, a mounting plate A1-1, a feeding port A1-2, a recovery port A1-3, a feeding pipe A2, a feeding screw A3, a feeding power mechanism A4, a feeding motor A4-1, a feeding speed reducer A4-2, a feeding driving sprocket A4-3, a feeding driven sprocket A4-4, a feeding chain A4-5, a feeding driven shaft A4-6, a discharging valve A5, a bearing seat A6, a hollow arch breaking shaft A7, an arch breaking knife A8, an arch breaking power mechanism A9, an arch breaking motor A9-1, an arch breaking speed reducer A9-2, an arch breaking driving sprocket A9-3, an arch breaking driven sprocket A9-4 and an arch breaking chain A9-5; the bag clamping and lifting device comprises a bag clamping and lifting device B, a lifting power box B1, a lifting frame B2, a vertical frame B2-1, a carrier roller table B2-2, a bag clamping device B3, a bag clamping device cylinder B3-1, a sensor B4, a guide rod bracket B5, a sliding seat B6, a linear bearing B7, a guide rod B8, a lifting power mechanism B9, a lifting motor B9-1, a lifting speed reducer B9-2, a lifting driving sprocket B9-3, a lifting driven sprocket B9-4, a lifting chain B9-5, a driven sprocket shaft frame B9-6 and a chain connecting seat B9-7; a dust recovery device C, a centrifugal dust collector C1, an air inlet pipe C1-1, a dust exhaust valve C1-2, a dust collection hood C2, an air outlet pipe C2-1, a first pipeline joint C3 and a second pipeline joint C4; frame D, supporting legs D3, platform D2, handrail D1.

Detailed Description

Example 1

Referring to fig. 1 to 13, the present embodiment has a frame D, a charging device a, a bag-clamping elevating device B, and a dust recovery device C.

Referring to fig. 1, the machine frame D includes a platform D2, four support frames D3 supporting the platform D2, a guard rail D1 disposed around the platform D2, and an escalator.

Referring to fig. 1 to 6, the feeding device a includes a storage bin a1, a feeding pipe a2, a feeding screw A3, a feeding power mechanism a4, a discharging valve a5, a hollow arch breaking shaft a7, an arch breaking knife A8, and an arch breaking power mechanism a 9.

A square window D2-1 is arranged on a platform D2 of the rack D, an installation plate A1-1 is fixed to the top of the bin A1, and the bin A1 is fixed to the platform D2 corresponding to the square window through the installation plate A1-1. The top of the storage bin A1 is provided with a feed inlet A1-2, a bearing seat A6 is fixed on a mounting plate A1-1 of the storage bin A1, a feed pipe A2 is connected to the lower end of the storage bin A1, and a feed screw A3 is arranged in the feed pipe A2. The feed screw A3 was rotated by a feed power mechanism A4. The feeding power mechanism A4 is a chain transmission mechanism, a feeding motor A4-1 is fixed on a platform D2, the feeding motor A4-1 is connected with a feeding speed reducer A4-2, an output shaft of the feeding speed reducer A4-2 is connected with a feeding driving sprocket A4-3, a feeding driven shaft A4-6 is inserted into a bin and connected with a feeding screw A3, the upper end of a feeding driven shaft A4-6 is connected with a feeding driven sprocket A4-4, and the feeding driving sprocket A4-3 and the feeding driven sprocket A4-4 are connected through a feeding chain A4-5. The hollow arch breaking shaft A7 is sleeved outside the feeding driven shaft A4-6 and supported by a first bearing A6-1 in a bearing seat A6, the hollow arch breaking shaft A7 and the feeding driven shaft A4-6 are isolated by a second bearing A7-1, the lower end of the hollow arch breaking shaft A7 is connected with an arch breaking knife A8, and the hollow arch breaking shaft A7 is driven to rotate by an arch breaking power mechanism A9. The arch breaking power mechanism A9 is a chain transmission mechanism, an arch breaking motor A9-1 is fixed on a platform D2, the arch breaking motor A9-1 is connected with an arch breaking reducer A9-2, an output shaft of the arch breaking reducer A9-2 is connected with an arch breaking driving sprocket A9-3, the upper end of a hollow arch breaking shaft A7 is connected with an arch breaking driven sprocket A9-4, and the arch breaking driving sprocket A9-3 and the arch breaking driving sprocket A9-4 are connected through an arch breaking chain A9-5. The mounting plate A1-1 is provided with a housing A1-4 which covers the bearing seat A6, the feeding driven sprocket A4-4 and the arch breaking driven sprocket A9-4.

Referring to fig. 3 and 8 to 11, the bag clamping lifting device B comprises a lifting power box B1, a lifting frame B2, a bag clamping device B3 and a lifting power mechanism B9, wherein the lifting power box B1 is positioned below the platform E2, the lifting frame B2 is positioned in front of the lifting power box B1, and the lifting frame B2 is L-shaped and consists of a stand B2-1 and a carrier roller table B2-2. The structure of the bag gripper B3 can be seen in CN103332306B, which discloses a bag gripper structure in a vertical screw type feeding packaging machine. A cylinder B3-1 of the bag clamping device B3 is loosely sleeved on the feeding pipe A2, and the bag clamping device B3 is fixed on the lifting frame B2 by using a cylinder B3-1. A pair of guide rods B8 and a sliding seat B6 are arranged in the lifting power box B1, two pairs of guide rod brackets B5 are arranged in the lifting power box B1, each guide rod B8 is supported by a pair of guide rod brackets B5, the sliding seat B6 is provided with two guide holes, a linear bearing B7 is arranged in each guide hole, and the sliding seat B6 is connected to the two guide rods B8 in a sliding mode through the linear bearing B7. The sliding seat B6 is connected with the lifting frame B2, and the sliding seat B6 and the lifting frame B2 are connected by a sensor B4 in the embodiment. The lifting power mechanism B9 is a chain transmission mechanism, a lifting motor B9-1 is fixed at the lower part in a lifting power box B1, the lifting motor B9-1 is connected with a lifting reducer B9-2, an output shaft of the lifting reducer B9-2 is connected with a lifting driving sprocket B9-3, a lifting driven sprocket B9-4 is supported by a driven sprocket shaft frame B9-6 arranged at the upper part in the lifting power box B1, the upper side and the lower side of the sliding seat B6 are respectively provided with a chain connecting seat B9-7, and two ends of a lifting chain B9-5 are respectively connected to two chain connecting seats B9-7. The lifting motor B9-1 operates to drive the sliding seat B6 to lift. Because the lifting frame B2 is L-shaped, the packing case or barrel of other forms except the packing bag can be placed on the roller table of the lifting frame, the inner bag is in the case or barrel, the upper end of the inner bag is fixed on the bag clamping device, the inner bag and the case/barrel can be lifted along with the lifting frame, when the inner bag is filled, the outer packing can be completed immediately, the packing requirement can be met at one time, and the multi-form packing can be conveniently met.

Referring to fig. 3 and 7 to 13, the dust recycling device C comprises a centrifugal dust collector C1, a dust collection hood C2, and a dust conveying pipe connected between an air outlet pipe C2-1 of the dust collection hood C2 and an air inlet pipe C1-1 of the centrifugal dust collector C1, the dust collection hood C2 is fixed at the position of a lifting frame B2 above a bag holder cylinder B3-1 and loosely sleeved on a feeding pipe a2, the centrifugal dust collector C1 is fixed at the top of a bin a1, a dust outlet of the centrifugal dust collector C1 is in butt joint with a recycling port a1-3 at the top of the bin a1, and a dust exhaust valve C1-2 is arranged at the dust outlet of the centrifugal dust collector C1. The dust exhaust valve C1-2 is controlled by the cylinder. The dust hood C2 is provided with a left air outlet pipe C2-1 and a right air outlet pipe C2-1 respectively, the lifting frame B2 is provided with a first pipeline joint C3 which is a three-way pipe, the sliding seat B6 is provided with a second pipeline joint C4, two air outlet pipes C2-1 of the dust hood C2 are connected with the first pipeline joint C3 through two first hoses C5, the first pipeline joint C3 is connected with the second pipeline joint C4 through a second hose C6, a third hose C7 is arranged between the second pipeline joint C4 and an air inlet pipe C1-1 of the centrifugal dust collector C1, one end of the third hose C7 is connected with the second pipeline joint C4, the other end of the third hose upwards extends through a square window to be connected with an air inlet pipe C1-1 of the centrifugal dust collector C1, and the dust conveying pipe comprises a first hose 5, a second hose 6 and a third hose 7. Under the action of the centrifugal dust remover, dust raised in the falling and loading process of the materials is absorbed by the dust collection cover C2 and is conveyed into the centrifugal dust remover through the dust conveying pipe, and when the centrifugal dust remover is in an idle state, the dust discharge valve C1-2 is opened, and the dust in the centrifugal dust remover enters the storage bin.

When the powder packaging machine works, materials enter the stock bin A1 through the feed inlet A1-2, the material level in the stock bin A1 is displayed, and the upper valve is closed to stop feeding after the materials are fully filled. The arch breaking motor A9-1 is started, and the arch breaking chain wheel and the chain drive the arch breaking knife A8 to rotate so as to mix materials. Manually sleeving the packaging bag into a bag holder cylinder B3-1, clamping the packaging bag by the bag holder, starting a lifting motor B9-1, driving a sliding seat B6 through a lifting chain wheel and a chain, further driving a lifting frame B2 to lift, lifting a bag holder B3 and a dust hood C2 along a lifting frame B2 and along a feeding pipe A2, synchronously displaying and weighing, lifting the lifting frame B2 to the highest position, immediately lifting the packaging bag to the highest position, supporting the bottom of the feeding pipe A2 to a position of 100 mm and 200mm away from the bottom of the packaging bag, starting a feeding power mechanism A4, rotating a feeding screw A3, extruding materials into the packaging bag, starting the lifting frame C1, reversing the lifting motor B9-1, slowly descending the centrifugal lifting frame at the time of loading, absorbing dust by the dust hood, conveying the dust into a centrifugal dust collector C1 through a dust conveying pipe, and when the packaging bag is lowered to the bottom, achieving the weight standard, and (5) finishing feeding.

Claims (4)

1. The utility model provides an environment-friendly powder packagine machine, has frame (D), feeding device (A) and double-layered bag elevating gear (B), and feeding device (A) includes feed bin (A1), filling tube (A2), and feed bin (A1) are fixed on platform (E2) of frame (E), and the lower extreme at feed bin (A1) is connected in filling tube (A2), double-layered bag elevating gear (B) is including pressing from both sides bag ware (B3) and lifting power unit (B9), its characterized in that: the bag clamping lifting device (B) further comprises a lifting power box (B1) arranged below the platform (E2) and a lifting frame (B2) positioned in front of the lifting power box (B1), and the bag clamping device (B3) is loosely sleeved on the feeding pipe (A2) by using a bag clamping device cylinder body (B3-1) and is fixed on the lifting frame (B2); the powder packaging machine is further provided with a dust recovery device (C), the dust recovery device (C) comprises a centrifugal dust collector (C1), a dust collection hood (C2) and a dust conveying pipe connected between an air outlet pipe (C2-1) of the dust collection hood (C2) and an air inlet pipe (C1-1) of the centrifugal dust collector (C1), the dust collection hood (C2) is fixed at the position of a lifting frame (B2) above a bag clamping device cylinder body (B3-1) and loosely sleeved on a feeding pipe (A2), the centrifugal dust collector (C1) is fixed at the top of a storage bin (A1), a dust outlet of the centrifugal dust collector (C1) is in butt joint with a recovery port (A1-3) at the top of the storage bin (A1), and a dust discharge valve (C1-2) is arranged at the dust outlet of the centrifugal dust collector (C1).

2. The environment-friendly powder packaging machine according to claim 1, wherein: a sliding seat (B6) is arranged in the lifting power box (B1), and the lifting power mechanism (B9) drives the lifting frame (B2) to lift through the sliding seat (B6).

3. The environment-friendly powder packaging machine according to claim 2, wherein: a pair of guide rods (B8) is arranged in the lifting power box (B1), the sliding seat (B6) is provided with two guide holes, a linear bearing (B7) is arranged in each guide hole, and the sliding seat (B6) is connected to the two guide rods (B8) in a sliding mode through linear bearings (B7).

4. The environment-friendly powder packaging machine according to claim 2, wherein: the dust collection hood (C2) is provided with a left air outlet pipe (C2-1) and a right air outlet pipe (C2-1), the lifting frame (B2) is provided with a first pipeline joint (C3) which is a three-way pipe, the sliding seat (B6) is provided with a second pipeline joint (C4), the two air outlet pipes (C2-1) of the dust collection hood (C2) are connected with the first pipeline joint (C3) through two first hoses (C5), the first pipeline joint (C3) is connected with the second pipeline joint (C4) through a second hose (C6), the second pipeline joint (C4) is connected with an air inlet pipe (C1-1) of the centrifugal dust collector (C1) through a third hose (C7), and the dust conveying pipe comprises a first hose (C5), a second hose (C6) and a third hose (C7).

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