CN211225538U - Powder conveyer - Google Patents

Abstract

The utility model discloses a powder conveyer relates to panel processing technology field. In the present application, a powder transporting device comprises: the blowing device sets up on the horizon, and the blowing device becomes perpendicularly with the horizon, and the blowing device is used for transporting the powder, and the blowing device includes: the lifting device is used for lifting the powder away from the ground level, and the lifting device is vertical to the ground level; the feeding device is arranged below the discharging device, and a space is reserved between the feeding device and the discharging device and used for powder circulation; the feeding device is arranged above the feeding device, a space is reserved between the feeding device and the discharging device, the feeding device and the feeding device form the same center, and the feeding device is connected with the feeding device. The utility model discloses feeding process adopts blowing device, material feeding unit, loading attachment, storage device's cooperation to solve artifical material loading before the processing to magnesium oxide powder and leads to the powder to omit the problem that influences air circumstance in the periphery of processing equipment.

Description

Powder conveyer

Technical Field

The utility model relates to a panel processing technology field, in particular to powder conveyer.

Background

By sheet material is meant a flat rectangular panel of building material sized for use as a wall, ceiling or floor element.

When the plate is used, in order to improve the flame retardance of the plate, industrial magnesium oxide is used as a raw material to manufacture the plate, when the magnesium oxide is used as the raw material to manufacture the plate, the magnesium oxide needs to be pulped, the magnesium oxide is poured into a pulping pot through the cooperation of workers and then pulped by the pulping pot, a pulping machine is placed after pulping is completed to mix other raw materials, and finally the plate is manufactured.

Before magnesium oxide is put into a pulping pot for pulping, partial magnesium oxide is left out of the pulping pot due to manual pouring of the magnesium oxide (because a ton bag containing the magnesium oxide is lifted up by two persons and then poured into the pulping pot in the pouring process, the weight of the ton bag can prevent workers from completely lifting up the ton bag, the ton bag can lean against the edge of the pulping pot and then dumping is carried out due to the self-generated weight of the ton bag, the magnesium oxide is left out due to the method, the magnesium oxide falls out from the side edge of the ton bag due to the deformation of the ton bag), so that dust in the air of a working area influences the air environment, in order to solve the problem that the magnesium oxide is left out of the pulping pot, the manual pouring is cancelled, a mechanical pouring device which can fix the ton bag and incline the ton bag towards the pulping pot is usually adopted, the magnesium oxide slides into the pulping pot through inclination and gravity, and manual control of the ton bag is not needed, omission outside the pulping pot when reducing magnesium oxide and pouring in, adhere to workman skin surface, and it is not the best to adopt this kind of material loading mode yet, the magnesium oxide material loading of this mode need wait that the first ton package can empty the second ton package after finishing, lead to the pulping cycle extension, the unable compact pulping work that carries on, the material loading of this mode also can't control the volume of empting of magnesium oxide simultaneously, can't effective control when the pulping pot only needs partial magnesium oxide, the magnesium oxide that does not use in the ton package that has opened simultaneously also can't carry out effectual saving, so need a new loading attachment.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a powder conveyer for adopt artifical material loading to lead to the powder to omit outside the making beating pot when solving among the prior art powder material loading, the unable problem of slurrying in succession can't be carried out to the volume of pouring of the uncontrollable magnesium oxide behind the adoption mechanical type material loading.

In order to achieve the above purpose, the embodiments of the present application adopt the following technical solutions: a powder transport device comprising: the blowing device, this blowing device sets up on the horizon, and this blowing device becomes perpendicular with this horizon, and this blowing device is used for transporting this powder, and this blowing device includes: the lifting device is used for lifting the powder away from the ground level, and the lifting device is vertical to the ground level; the feeding device is arranged below the discharging device, a space is reserved between the feeding device and the discharging device, and the space is used for circulating the powder; the feeding device is arranged above the feeding device, the feeding device and the discharging device are arranged on the same plane, the feeding device and the feeding device form the same center, and the feeding device is connected with the feeding device.

In the technical scheme, the embodiment of the application aims at solving the problem that magnesium oxide is poured manually before being poured into a pulping pot for pulping, the omission of the magnesium oxide can be caused to a great extent by the mode, the omitted magnesium oxide is deposited outside the pulping pot, dust is contained in the air of a working area, and meanwhile, part of magnesium oxide powder is attached to the surface of the skin of a worker to easily cause the skin damage of the worker when the omission occurs. This application adopts blowing device, material feeding unit, loading attachment and storage device's cooperation, and the assigned position is placed to the artifical ton package that will contain magnesium oxide through transport mechanism, and this mode need not to consider the cooperation nature between ton package and the whole loading attachment, improves the continuity of making beating work, and storage device's setting is after the completion of making beating work simultaneously, and unnecessary magnesium oxide need not leave in the ton package, leaves the follow-up use problem that reduces magnesium oxide in the storage device.

Further, in the embodiment of the present invention, the emptying device further includes: the bottom plate is arranged on the ground plane and is connected with the ground plane in a fitting manner; the supporting rod is arranged above the bottom plate, fixedly connected with the bottom plate and vertically arranged with the bottom plate; the rotating arm is arranged above the supporting rod and movably connected with the supporting rod, and the rotating arm is used for rotating around the center of the supporting rod at the upper end of the supporting rod; the driving device is arranged below the rotating arm, one end of the driving device is connected with the rotating arm, the other end of the driving device is connected with the supporting rod, the driving device is fixedly connected with the supporting rod, and the driving device is movably connected with the rotating arm; one end of the driving device movably connected with the rotating arm rotates around the center of the supporting rod.

Further, in the embodiment of the present invention, the lifting device is slidably connected to the rotating arm.

Further, in the embodiment of the present invention, the lifting device is configured as a lifting motor.

Further, in the embodiment of the present invention, the driving device is configured as a small-sized rotating electrical machine.

Further, in the embodiment of the present invention, the feeding device is fixedly connected to the feeding device.

Further, in the embodiment of the present invention, the feeding device includes: the inner shell is arranged in the plane and is connected with the feeding device in a matching way, and the inner shell is hollow; the fan, this fan setting is in this inner shell, and this fan fixed connection is inside this inner shell, and this fan is arranged in the powder transport of this inner shell.

Further, in the embodiment of the present invention, the feeding device is hollow, a space is provided between the feeding device and the discharging device, and the space is used for providing a moving distance to enable the discharging device to move the powder.

Further, in the embodiment of the present invention, the powder feeding device further includes: and the storage device is arranged on one side of the feeding device, is connected with the feeding device, and has a gap between the storage device and the feeding device.

Further, in the embodiment of the present invention, a pipeline is disposed at the periphery of the storage device, one end of the pipeline is connected to the feeding device, and the other end of the pipeline is connected to the storage device; the storage device is hollow, an auger device is arranged in the storage device and controlled by a rotating motor, the auger device and the storage device form the same center, and the auger device is a helical blade.

The embodiment of the utility model provides a still disclose a powder conveyer's application method, including following step:

lifting and transporting, namely transporting the ton bag away from the ground by adopting a discharging device, wherein the ton bag is filled with magnesium oxide powder;

adjusting the position, namely moving the ton bag to the position above the feeding device while transporting the ton bag by adopting a discharging device;

and (3) conveying the material, namely conveying the material to a feeding device by using a feeding device, wherein the material is the magnesium oxide powder.

Further, in the embodiment of the present invention, in the lifting and transporting step, the ton bag is connected to the surface of the ton bag through the lifting device of the emptying device, and lifted off the ground.

Further, in the embodiment of the present invention, in the position adjusting step, after the ton bag is hoisted by the discharging device, the rotating arm of the discharging device drives the rotating arm to rotate around the center of the supporting rod through the driving device, and the rotating arm stops after rotating the top of the feeding device.

Further, in the embodiment of the present invention, after the step of transferring the material, there are the following steps: and storing the materials, and temporarily storing the magnesium oxide powder conveyed by the feeding device by adopting a storage device.

Further, in the embodiment of the present invention, after the step of storing the material, the following steps are further performed: and (3) internal feeding, namely, upwards moving the magnesium oxide powder in the storage device to a metering device through a discharge hole of the storage device by using an auger device in the storage device.

The utility model has the advantages that: firstly, the utility model discloses a loading attachment reduces the powder and omits and reduce the workman and contact the frequency of magnesium oxide when the making beating pot is poured into in the powder material loading. First, will contain the ton package of magnesium oxide through the blowing device and pull up, make the ton package keep away from ground, blowing device and material feeding unit become relative setting simultaneously, the blowing device is unsettled in the material feeding unit top with the ton package, it holds up to machinery to change artifical ton package of holding up into through this kind of mode, the amount of labour that significantly reduces, reduce artifical and magnesium oxide's contact frequency simultaneously, it makes the magnesium oxide flow out to prick the mouth through opening ton package below, magnesium oxide falls into to material feeding unit, then shift the material loading through material feeding unit, this mode only needs to adopt a manual control machine to hang up then open and prick the mouth and unload to the ton package, very big reduction the amount of labour, the artifical occupancy has been reduced simultaneously. Secondly, through the combination of the feeding device, the feeding device and the storage device, after the magnesium oxide falls into the feeding device, the magnesium oxide is transferred to the feeding device through the feeding device, and is temporarily stored in the storage device through the feeding device, in the use of the magnesium oxide, the magnesium oxide which is processed in a sufficient amount and is not processed is not required to be considered, and the magnesium oxide cannot be well stored, in the mode, a large amount of magnesium oxide is temporarily stored in the storage device, and the magnesium oxide in the storage device is taken out when the magnesium oxide needs to be used, so that the use convenience is improved, and the occupied area of a magnesium oxide ton bag can be reduced.

Drawings

The present application is further described below with reference to the drawings and examples.

Fig. 1 is a front view of a transportation device according to an embodiment of the present invention.

Fig. 2 is a top view of a transportation device according to an embodiment of the present invention.

Fig. 3 is a schematic structural view of a discharging device of a transporting device according to an embodiment of the present invention.

Fig. 4 is a process flow diagram for using the transportation device according to the embodiment of the present invention.

10. Emptying device 101, bottom plate 102 and supporting rod

103. Rotating arm 104, driving device 105 and lifting device

20. Feeding device 30, feeding device 40 and storage device

50. Metering device

Detailed Description

In order to make the objects and technical solutions of the present invention clear and fully described, and the advantages thereof more clearly understood, the embodiments of the present invention are described in further detail below with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of some, but not all, embodiments of the present invention and are not to be considered as limiting, and that all other embodiments can be made by one of ordinary skill in the art without any inventive work.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "inner", "outer", "top", "bottom", "side", "vertical", "horizontal", and the like indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "a," "an," "first," "second," "third," "fourth," "fifth," and "sixth" 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 "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

For the purposes of simplicity and explanation, the principles of the embodiments are described by referring mainly to examples. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the embodiments. It will be apparent, however, to one skilled in the art that the embodiments may be practiced without these specific details. In some instances, well-known methods and structures have not been described in detail so as not to unnecessarily obscure the embodiments. In addition, all embodiments may be used in combination with each other.

The first embodiment is as follows:

as shown in fig. 1, 2, 3 and 4, the present embodiment discloses a powder transporting apparatus, including: blowing device 10, material feeding unit 20, loading attachment 30, storage device 40, blowing device 10 sets up on the horizon, and blowing device 10 becomes perpendicular with the horizon, and blowing device 10 is used for transporting the powder, and blowing device 10 includes: the lifting device 105 is used for lifting the powder away from the ground level, the lifting device 105 is perpendicular to the ground level, the lifting device 105 is arranged as a lifting motor, the lifting motor drives the ton bag to move, powder leakage caused by manual carrying is reduced, the feeding device 20 is arranged below the discharging device 10, a gap exists between the feeding device 20 and the discharging device 10, the gap is a channel for conveying the powder in the ton bag through the feeding device 20 and the discharging device 10, the channel is used for circulating the powder to flow upwards into the storage device 40, the feeding device 20 and the lifting device 105 are arranged oppositely, the feeding device 20 is arranged below the discharging device 10, a space is arranged between the feeding device 20 and the discharging device 10, the ton bag and the feeding device 20 are prevented from rubbing to damage the surface of the ton bag to cause powder leakage in the process of moving the ton bag through the space, and a feeding port is arranged at the periphery of the feeding device 20, the feeding port is arranged on the left side of the feeding device 20, the feeding port of the feeding device 20 and the lifting device 105 keep the same center, the feeding device 30 is arranged above the feeding device 20, the feeding device 30 and the discharging device 10 are arranged on the same plane, the feeding device 30 and the feeding device 20 form the same center, the feeding device 30 is connected with the feeding device 20, the feeding device 30 is arranged right above the feeding device 20, the feeding device 30 is fixedly connected with the feeding device 20, the storage device 40 is arranged on the right side of the feeding device 30, the storage device 40 is connected with the feeding device 30, a gap is reserved between the storage device 40 and the feeding device 30, a channel is fixedly connected to the gap and is obliquely arranged, the interior of the channel is hollow, and powder in the feeding device 30 is guided into the storage device 40 by the channel.

Through loading attachment 30 solve magnesium oxide and pour into through the manual work before pouring into the making beating pot and carry out the making beating work, this kind of mode very big degree can cause the omission of magnesium oxide, and the magnesium oxide deposit of omitting is outside the making beating pot, causes to contain the dust in the air of workspace, and the part is attached to the workman skin surface and causes workman skin damage when omitting simultaneously. This application adopts blowing device 10, material feeding unit 20, loading attachment 30 and storage device 40's cooperation, the assigned position is placed to the ton package that the manual work will contain magnesium oxide through transport mechanism, this mode need not to consider the cooperation nature between ton package and whole loading attachment 30, improve the continuity of making beating work, storage device 40's setting is after the completion of making beating work simultaneously, unnecessary magnesium oxide need not leave in the ton package, leave the follow-up use problem that reduces magnesium oxide in storage device 40. Because the manual work all adopts the manual work to empty when empting the powder and get into the pulping pot usually, and not only can lead to partial powder to omit outside the pulping pot when adopting the manual work to empty, the manual work is emptyd and all is opened a whole package powder ton package at every turn simultaneously, just it can leave in the ton package if not empting clean surplus powder to mean the ton package of opening, and the magnesium oxide powder can take place the oxidation under air circumstance, this leads to remaining magnesium oxide powder easily and can't reach the service standard when beating again, cause the wasting of resources, remaining powder ton package can't be handled again and need occupy new position and place simultaneously. And can deposit the powder in all ton bags that open through storage device 40, reduce to take place the oxidation with the outside air contact to the magnesium oxide of depositing can not cause and occupy extra floor area, has increased the ground rate of utilization.

Specifically, the discharging device 10 further includes: the device comprises a bottom plate 101, a supporting rod 102, a rotating arm 103 and a driving device 104, wherein the bottom plate 101 is arranged on a ground plane, the bottom plate 101 is connected with the ground plane in a fitting manner, the bottom plate 101 is fixed on the ground plane through screws, the supporting rod 102 is arranged above the bottom plate 101, the supporting rod 102 is fixedly connected with the bottom plate 101 through welding, the supporting rod 102 is perpendicular to the bottom plate 101, the rotating arm 103 is arranged above the supporting rod 102, the rotating arm 103 is movably connected with the supporting rod 102, the rotating arm 103 is used for rotating around the center of the supporting rod 102 at the upper end of the supporting rod 102, the driving device 104 is arranged below the rotating arm 103, one end of the driving device 104 is connected with the rotating arm 103, the other end of the driving device 104 is connected with the supporting rod 102, the other, the driving device 104 is a small-sized rotating electric machine.

Specifically, the lifting device 105 is slidably connected to the rotating arm 103, the lifting device 105 slides along the extending direction of the rotating arm 103, a powder ton bag is connected below the lifting device 105, and then the powder ton bag is lifted away from the inlet of the feeding device 20.

Adopt drive arrangement 104 and elevating gear 105, carry powder ton package original manual work and adopt mechanical type transport, because the material loading in-process at powder ton package usually all adopts double transport ton package, then open ton package opening and empty the powder and get into the beating pot, and the manual work is emptyd and can take place deformation when powder content reduces in the ton package, the ton package takes place to lead to partial powder to omit outside the beating pot after deformation easily, thereby it can't add again to go into the beating pot and use to accumulate outside the beating pot to omit the powder outside the beating pot, cause environmental pollution and led to the fact the wasting of resources, this also reflects in this scheme and adopts drive arrangement 104 and elevating gear 105 to adopt mechanical type transport with original manual work transport, the artificial quantity has been reduced promptly, the manual work need not carry the heavy object for a long time simultaneously and has reduced the frequency with the powder contact.

Specifically, the feeding device 20 is fixedly connected with the feeding device 30, and the feeding device 20 and the feeding device 30 are hollow.

Specifically, the feeding device 20 includes: the inner shell, the inner shell setting is in the plane, and the inner shell is connected with loading attachment 30 cooperation, and the inner shell becomes cavity, collects the magnesium oxide powder that the ton package fell through the inner shell, blows magnesium oxide to loading attachment 30 inside through the fan that sets up in the inner shell, and fan fixed connection is inside the inner shell, and the fan is arranged in the powder transport of inner shell.

Specifically, loading attachment 30 is inside to become the cavity, is provided with the interval between loading attachment 30 and the blowing device 10, and the interval is used for providing the migration distance and realizes blowing device 10 removal powder ton package, and the interval is the passageway, carries the powder through the passageway.

Specifically, a pipeline is arranged on the periphery of the storage device 40, one end of the pipeline is connected with the feeding device 30, and the other end of the pipeline is connected with the storage device 40; the storage device 40 is hollow, an auger device is arranged in the storage device 40 and controlled by a rotating motor, the auger device and the storage device 40 are in the same center, the auger device is a helical blade, and the storage device 40 adopts a storage tank.

Specifically, a metering device 50 is provided on the discharge port side of the storage device 40, the metering device 50 is fixedly connected to the storage device 40, and the metering device 50 is used for metering the amount of the magnesium oxide powder conveyed from the storage device 40 to the metering device 50.

When the driving device 104, the lifting device 105, the feeding device 20, the feeding device 30 and the storage device 40 are used simultaneously, the number of users in the powder pulping process is reduced, meanwhile, the original manual handling ton bag is changed into mechanical handling, the manual use amount is reduced, meanwhile, the manual contact frequency with powder is reduced, and the manual damage condition is reduced, after the ton bag is lifted by the driving device 104 and the lifting device 105 and is far away from the ground, an opening at the bottom of the ton bag is manually opened, the powder in the ton bag is poured into the feeding device 20, the powder is conveyed to the feeding device 30 through the feeding device 20, flows into the storage device 40 through the feeding device 30, so that the step of manually pouring the powder into the pulping pot is reduced, the manual work does not need to consider whether the powder in the ton bag can be left outside the pulping pot or not, meanwhile, the environmental pollution can not be caused, and residual powder cannot exist in the opened ton bag, just also can not cause the waste of powder, and also can not cause and occupy the floor area, the efficiency of making beating has just also been improved, and the powder in ton package just can take place the oxidation with the outside air more or less even not opening the opening, the emergence of this kind of condition has been stopped completely to use storage device 40, the rate of utilization of powder has just also been improved, reduce the processing of unqualified powder, can know by the aforesaid, the material loading realization automation of this scheme of adoption in with powder making beating process, and reduce the waste of powder, reduce artificial participation frequency, and then improve machining efficiency, reduce the processing cycle extension that original artifical material loading leads to.

When the device is used, a ton bag filled with magnesium oxide powder is transported to the position near the discharging device 10 through a transport vehicle, the rotating arm 103 is rotated by the driving device 104 to move towards the ton bag, then a hook connected with the lifting device 105 is manually lifted up to be sleeved on the ton bag, the lifting device 105 is manually controlled to lift up and pull the ton bag to leave the ground, then the driving device 104 drives the rotating arm 103 to turn to the inlet of the feeding device 20 and simultaneously keep the distance between the ton bag and the ground, a binding opening at the bottom of the ton bag is manually opened, the magnesium oxide powder flows into the feeding device 20 through the opened binding opening, then a fan in the feeding device 20 generates airflow to drive the magnesium oxide powder to move upwards through the feeding device 30 and enter the storage device 40, when the magnesium oxide powder in the storage device 40 needs to be used, the auger device in the storage device 40 drives the magnesium oxide powder to move upwards, and the magnesium oxide powder flows to the metering device, at the same time, the amount of the magnesium oxide powder used is measured by the measuring device 50, and the magnesium oxide powder is subjected to a beating step.

The method comprises the steps of pulling up a ton bag containing magnesium oxide through a material placing device 10 to enable the ton bag to be far away from the ground, enabling the material placing device 10 and a material feeding device 20 to be oppositely arranged, enabling the ton bag to be suspended above the material feeding device 20 through the material placing device 10, changing manual lifting of the ton bag into mechanical lifting through the mode, greatly reducing the amount of manual labor, simultaneously reducing the contact frequency of workers and the magnesium oxide, enabling the magnesium oxide to flow out through opening a tying opening below the ton bag, enabling the magnesium oxide to fall into the material feeding device 20, then transferring and feeding through the material feeding device 20, only needing to adopt a manual control machine to lift up the ton bag and then open the tying opening for discharging through the mode, greatly reducing the amount of manual labor, simultaneously reducing the manual occupancy rate, and transferring the magnesium oxide to the material feeding device 30 through the material feeding device 30, the material feeding device 20 and the storage device 40 after falling into the material feeding device 20, when the magnesium oxide is temporarily stored in the storage device 40 through the feeding device 30, the magnesium oxide which is not processed yet is not stored well without considering that the magnesium oxide is processed in a sufficient amount, and the magnesium oxide is temporarily stored in the storage device 40 in such a way that the magnesium oxide in the storage device 40 is taken out when the magnesium oxide is needed, so that the use convenience is improved, and the occupied area of the magnesium oxide per ton bag can be reduced.

Finally, a method for using a powder feeding device 30 is provided, comprising the following steps:

lifting and transporting, namely transporting the ton bags away from the ground by adopting a discharging device 10, wherein the ton bags are ton bags filled with magnesium oxide powder;

adjusting the position, namely moving the ton bag to the position above the feeding device 20 while transporting the ton bag by using the discharging device 10;

and (3) conveying the materials, namely conveying the materials to a feeding device 30 by using a feeding device 20, wherein the materials are magnesium oxide powder.

Specifically, in the lifting and transporting step, the ton bag is lifted off the ground by being sleeved on the surface of the ton bag through the lifting device 105 of the emptying device 10.

Specifically, in the position adjusting step, after the ton bag is lifted by the emptying device 10, the rotating arm 103 of the emptying device 10 drives the rotating arm 103 to rotate around the center of the supporting rod 102 through the driving device 104, and the rotating arm 103 stops after rotating above the feeding device 20.

Specifically, after the material conveying step, the following steps are also included: and storing the materials, and temporarily storing the magnesium oxide powder conveyed by the feeding device 30 by using the storage device 40.

Specifically, after the step of storing the materials, the following steps are also included: the magnesium oxide powder in the storage device 40 is moved upward by an auger device in the storage device 40, and the magnesium oxide powder is conveyed to the metering device 50 through a discharge port of the storage device 40.

Specifically, in the step of storing the material, the storage device 40 can temporarily store 30 ten thousand kilograms of magnesium oxide powder.

Specifically, in the material conveying step, the storage device 40 conveys the internal magnesium oxide powder to the metering device 50, and the flow rate is 150 kg per minute; in the position adjusting step, the rotating arm 103 of the emptying device 10 rotates 180 degrees around the center of the supporting rod 102.

Specifically, the feeding device 20 conveys the magnesium oxide powder upward to the storage device 40 by an internal fan, and the conveying amount is 10 ten thousand kilograms per hour.

Specifically, after the processing step, the method further comprises the following steps: and (3) making a board, wherein the magnesium oxide powder which is subjected to pulping is used as an additive of the board to carry out the board making step.

Hoisting the ton bag by using a lifting device 105, driving the ton bag to move above a feeding port of the feeding device 20 by using a driving device 104, manually opening an opening below the ton bag, and enabling powder in the ton bag to fall into the feeding device 20; the feeding device 20 drives the powder to flow to the feeding device 30 through an internal fan; the feeding device 30 delivers the powder into the storage device 40 through an external passage; when the device is used, the spiral blades in the storage device 40 rotate to drive the powder to flow upwards to the metering device 50, and the powder enters the metering device 50 through the discharge port to be pulped.

Although the illustrative embodiments of the present application have been described above to enable those skilled in the art to understand the present application, the present application is not limited to the scope of the embodiments, and various modifications within the spirit and scope of the present application defined and determined by the appended claims will be apparent to those skilled in the art from this disclosure.

Claims (10)

1. A powder conveyance device, comprising:

the blowing device, the blowing device sets up on the horizon, the blowing device with it becomes perpendicular to become the horizon, the blowing device is used for transporting the powder, the blowing device includes:

a lifting device for lifting the powder away from the ground level, the lifting device being perpendicular to the ground level;

the feeding device is arranged below the discharging device, a space is reserved between the feeding device and the discharging device, and the space is used for circulating the powder;

the feeding device is arranged above the feeding device, a space is reserved between the feeding device and the discharging device, the feeding device and the feeding device form the same center, and the feeding device is connected with the feeding device.

2. A powder transporting apparatus as claimed in claim 1, wherein the emptying means further comprises:

the bottom plate is arranged on the ground plane and is connected with the ground plane in a fit manner;

the supporting rod is arranged above the bottom plate, the supporting rod is fixedly connected with the bottom plate, and the supporting rod and the bottom plate are vertically arranged;

the rotating arm is arranged above the supporting rod and movably connected with the supporting rod, and the rotating arm is used for rotating around the center of the supporting rod at the upper end of the supporting rod;

the driving device is arranged below the rotating arm, one end of the driving device is connected with the rotating arm, the other end of the driving device is connected with the supporting rod, the driving device is fixedly connected with the supporting rod, and the driving device is movably connected with the rotating arm.

3. A powder transportation apparatus as defined in claim 2, wherein the lifting means is in sliding connection with the rotating arm.

4. A powder conveyance device according to claim 1, wherein the lifting means is provided as a lifting motor.

5. A powder conveyance device according to claim 2, wherein the drive means is provided as a small rotary motor.

6. A powder handling device according to claim 1, wherein the feeder device is fixedly connected to the feeder device.

7. A powder transporting apparatus as claimed in claim 1, wherein the feeding means comprises:

the inner shell is arranged in the plane, the inner shell is connected with the feeding device in a matched mode, and the inner shell is hollow;

the fan, the fan sets up in the inner shell, fan fixed connection is in inside the inner shell, the fan is used for powder transport in the inner shell.

8. A powder transporting apparatus as claimed in claim 1, wherein the loading device is hollow, and a space is provided between the loading device and the discharging device, the space being used for providing a moving distance for the discharging device to move the powder.

9. A powder transporting device according to claim 1, wherein the powder transporting device further comprises:

the storage device is arranged on one side of the feeding device and connected with the feeding device, and a gap is reserved between the storage device and the feeding device.

10. The powder conveying device according to claim 9, wherein a pipeline is arranged on the periphery of the storage device, one end of the pipeline is connected with the feeding device, and the other end of the pipeline is connected with the storage device;

the storage device is internally hollow, the storage device is internally provided with the auger device, the auger device is controlled by the rotating motor, the auger device and the storage device form the same center, and the auger device is a helical blade.

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