CN217755928U - High-purity manganese sulfate processing is with throwing material device - Google Patents

Abstract

The utility model relates to a feeding device for processing high-purity manganese sulfate, which comprises a base; the hopper is fixedly arranged on the upper side of the base through a corresponding support frame, the bottom of the hopper is downwards communicated and connected with a corresponding blanking pipe, one side of the top of the hopper is outwards and fixedly connected with a corresponding connecting plate, and a corresponding vibration motor is fixedly arranged on the connecting plate; the discharging auger is fixedly arranged on the base through a plurality of corresponding vibration isolation mechanism fixing devices, a set of auger feeding pipe arranged on the periphery of the discharging pipe is fixedly connected to the feeding port of the discharging auger upwards, a circle of vibration isolation gasket made of flexible materials is arranged between the auger feeding pipe and the discharging pipe, and the discharging end of the discharging auger extends outwards to the outer side of the base and is connected with a corresponding feeding pipe in a downward communication mode. The utility model can effectively prevent the materials from being piled up; and can effectively reduce the adverse effect of vibrating motor to the ejection of compact auger.

Description

High-purity manganese sulfate processing is with throwing material device

Technical Field

The utility model relates to a high-purity manganese sulfate processing is with throwing material device, its mainly used transports raw and other materials such as manganese powdered ore, lime to corresponding station with high-purity manganese sulfate processing to can be under the prerequisite of long-pending material, throw the raw and other materials transported and expect to the feed inlet end of corresponding processing equipment.

Background

The process for producing high-purity manganese sulfate by the two-ore method comprises the following steps: acid leaching of manganese oxide ore and pyrite by a two-ore method, pH adjustment, solid-liquid separation, heavy metal impurity removal (such as lead, zinc, copper and iron) and solid-liquid separation, light metal impurity removal (such as aluminum, calcium and magnesium) and solid-liquid separation, fluoride ion removal and solid-liquid separation, concentration crystallization, drying and the like to obtain a manganese sulfate monohydrate solid.

Before acid leaching of manganese ore powder, transferring manganese ore powder for high-purity manganese sulfate processing through a corresponding feeder, feeding the manganese ore powder into a corresponding size mixing tank for size mixing, and conveying the material in the size mixing tank into the acid leaching tank in a pumping mode; in the acid leaching process, after the acid and the reducing agent are added for reaction, the lime raw material for adjusting the pH value needs to be transported and fed into the acid leaching tank through a feeder. At present, a feeder for transporting and feeding manganese ore powder and lime raw materials generally comprises a movable base, a hopper and a discharge auger, wherein the hopper and the discharge auger are arranged on the movable base, the movable base is matched with the hopper to transport the materials, and the discharge auger is used for outputting and feeding the raw materials in the hopper. Because raw materials such as manganese ore powder, lime and the like are easy to form and stack in the hopper, the feeding process of the raw materials is very troublesome because the workpieces are often manually held to scatter the stacked materials, and therefore, the feeder with the vibration motor is put into use. The vibration of the vibration motor can effectively shake the accumulated materials, so that the problem of material accumulation is solved. However, the vibration motor vibrates the discharging auger invisibly, so that the matching effect of all parts of the discharging auger is greatly reduced, and the failure rate of the driving part of the discharging auger is greatly increased.

Therefore, the vibration motor can be effectively installed, so that materials are prevented from being accumulated, and the feeding effect and the feeding efficiency are ensured; and can effectively reduce vibrating motor to the harmful effects of ejection of compact auger to effectively ensure equipment result of use and extension equipment life's high-purity manganese sulfate processing is with throwing the material device be the utility model discloses a research purpose.

Disclosure of Invention

To the technical problem that above-mentioned prior art exists, the utility model provides a high-purity manganese sulfate processing is with throwing material device, this high-purity manganese sulfate processing is with throwing material device can effectively solve the technical problem that above-mentioned prior art exists.

The technical scheme of the utility model is that:

a feeding device for processing high-purity manganese sulfate comprises

The bottom side surface of the base is uniformly provided with a plurality of corresponding moving wheels;

the hopper is fixedly arranged on the upper side of the base through a corresponding support frame, the bottom of the hopper is downwards communicated and connected with a corresponding blanking pipe, one side of the top of the hopper is outwards and fixedly connected with a corresponding connecting plate, and a corresponding vibration motor is fixedly arranged on the connecting plate;

the discharging auger is fixedly connected with a set of auger inlet pipe arranged on the periphery of the discharging pipe upwards through a plurality of corresponding vibration isolation mechanism fixing devices on the base, the auger inlet pipe is fixedly connected with a ring of vibration isolation gasket made of flexible materials between the discharging pipe, and the discharging end of the discharging auger outwards extends to the outer side of the base and is connected with a corresponding feeding pipe downwards in a communicating manner.

The vibration isolation mechanism comprises a support groove and damping particles for vibration reduction filled in the support groove, and corresponding support plates are welded at the notch of the support groove in a sealing mode.

The discharging auger comprises a feeding pipe fixedly welded on the support plate of the vibration isolation mechanism, a corresponding driving shaft is rotatably installed in the feeding pipe, the driving shaft is driven by a driving motor which is fixedly arranged on the support plate of the vibration isolation mechanism, and a corresponding feeding helical blade is fixedly connected to the driving shaft.

The support frame contain fixed weld in four support angle steel on the base, fixed weld respectively has corresponding tractive fixed plate between the top portion of two adjacent support angle steel, the middle part of hopper is fixed welded to the top portion of support angle steel and on the tractive fixed plate.

And a circle of corresponding surrounding edge plate is vertically and upwards fixedly connected to the top of the hopper.

The vibration isolation gasket is made of a rubber material.

The moving wheel is a moving wheel with a brake.

And a group of handles for pushing are fixedly connected downwards on two sides of the connecting plate.

The damping particles for vibration reduction are spherical particles made of metal.

The utility model has the advantages that:

1) The utility model discloses a hopper passes through support frame fixing device in the upside of base, and the outside rigid coupling in top one side of hopper has corresponding linkage plate, and through fixing device vibrating motor's on linkage plate vibration, can effectively form vibration/shake to the material in the hopper to prevent it and pile up, thereby ensure to throw the material effect and throw material efficiency.

2) The utility model discloses an ejection of compact auger passes through the corresponding vibration isolation mechanism fixing device of a plurality of on the base, and the feed inlet of ejection of compact auger makes progress the rigid coupling and has one set of auger inlet pipe of locating the unloading pipe periphery of hopper to fixing device has the vibration isolation packing ring that the round was made by flexible material between auger inlet pipe and unloading pipe. The auger feeding pipe is sleeved with the discharging pipe, so that materials can be effectively ensured to smoothly enter the auger feeding pipe along the discharging pipe, and the vibration isolation gasket is arranged, so that the material leakage is effectively avoided in the discharging process; and throw the produced vibration of vibrating motor of material in-process and can follow hopper, support frame and transmit to the base on, through the setting of vibration isolation mechanism and vibration isolation packing ring, can reduce the vibration volume of transmitting to ejection of compact auger by a wide margin to when not influencing and throw the material, effectively reduce vibrating motor to the harmful effects of ejection of compact auger, thereby effectively ensure equipment result of use and extension equipment life.

3) The utility model discloses a vibration isolation mechanism contains and supports the groove and fill in the damping for the damping in supporting the inslot, supports the notch department sealing weld in groove and has corresponding backup pad. Through the setting of backup pad, can enough form to seal damping particle for the damping, and can form stable installation to the conveying pipe of ejection of compact auger, and can effectively reduce the vibration volume of transmitting to ejection of compact auger by a wide margin through the friction power consumption between the damping particle for the damping, thereby effectively ensure the utility model discloses a practical function.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a usage state diagram of the present invention.

Detailed Description

To facilitate understanding for those skilled in the art, the structure of the present invention will now be described in further detail with reference to the following examples, in which:

referring to FIGS. 1-2, a feeding device for processing high-purity manganese sulfate comprises

The device comprises a base 1, wherein a plurality of corresponding moving wheels 2 are uniformly distributed and installed on the bottom side surface of the base 1;

the hopper 3 is fixedly arranged on the upper side of the base 1 through a corresponding support frame 4, the bottom of the hopper 3 is downwards communicated and connected with a corresponding blanking pipe 301, one side of the top of the hopper 3 is outwards fixedly connected with a corresponding connecting plate 5, and a corresponding vibration motor 6 is fixedly arranged on the connecting plate 5;

ejection of compact auger 7 through the corresponding 8 fixing device of vibration isolation mechanism of a plurality of in on the base 1, the feed inlet of ejection of compact auger 7 makes progress the rigid coupling has one set to locate blanking pipe 301 outlying auger inlet pipe 13, auger inlet pipe 13 with fixing device has the vibration isolation packing ring 9 that the round was made by flexible material between blanking pipe 301, the discharge end of ejection of compact auger 7 outwards extends to the outside of base 1 and downward intercommunication are connected with corresponding feeding pipe 10.

Through the vibration of the vibrating motor 6 fixed on the connecting plate 5, the materials in the hopper 3 can be effectively vibrated to prevent the materials from being accumulated, so that the feeding effect and the feeding efficiency are ensured. The auger feeding pipe is sleeved with the blanking pipe, so that materials can be effectively ensured to smoothly enter the auger feeding pipe 13 along the blanking pipe 301, and the vibration isolation gasket 9 is arranged, so that the material leakage is effectively avoided in the blanking process; and the vibration that throws the produced vibration of vibrating motor 6 of material in-process can be followed hopper 3, support frame 4 and transmitted to base 1 on, through the setting of vibration isolation mechanism 8 and vibration isolation packing ring 9, can reduce the vibration volume of transmitting to ejection of compact auger 7 by a wide margin to when not influencing and throwing the material, effectively reduce vibrating motor 6 to ejection of compact auger 7's harmful effects, thereby effectively ensure equipment result of use and extension equipment life.

The vibration isolation mechanism 8 includes a support groove 801 and damping particles 802 for vibration damping filled in the support groove 801, and support plates 803 are hermetically welded to notches of the support groove 801.

The discharge auger 7 comprises a feed pipe 701 fixedly welded on a support plate 803 of the vibration isolation mechanism 8, a corresponding drive shaft 702 is rotatably installed in the feed pipe 701, the drive shaft 702 is driven by a drive motor 703 fixedly arranged on the support plate 803 of the vibration isolation mechanism 8, and a corresponding feed helical blade 704 is fixedly connected on the drive shaft 702. (in this embodiment, the driving motor 703 who adopts is variable frequency speed motor, and it can realize the feed speed adjustment, in order to promote the utility model discloses an adaptability.)

Through the setting of backup pad 803, can enough form to seal damping particle for the damping, and can form stable installation to ejection of compact auger 7's conveying pipe 701, and can effectively reduce the vibration volume that transmits to ejection of compact auger 7 by a wide margin through the friction power consumption between damping particle 802 for the damping, thereby effectively ensure the utility model discloses a practical function.

The support frame 4 contains fixed welding in four support angle steel 401 on the base 1, and the fixed welding respectively has corresponding tractive fixed plate 402 between the top portion of two adjacent support angle steel 401, the middle part of hopper 3 is fixed welded the top portion of support angle steel 401 and on the tractive fixed plate 402.

And a circle of corresponding surrounding edge plate 11 is vertically and upwards fixedly connected to the top of the hopper 3. A group of pushing handles 12 are fixed downwards on both sides of the connection plate 5.

The vibration isolating gasket 9 is made of a rubber material. The moving wheel 2 is a moving wheel with a brake. The damping particles 802 for vibration damping are spherical particles made of metal.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (9)

1. The utility model provides a high-purity manganese sulfate processing is with throwing material device which characterized in that: comprises that

The device comprises a base (1), wherein a plurality of corresponding moving wheels (2) are uniformly distributed and mounted on the bottom side surface of the base (1);

the hopper (3) is fixedly arranged on the upper side of the base (1) through a corresponding support frame (4), the bottom of the hopper (3) is downwards communicated and connected with a corresponding blanking pipe (301), one side of the top of the hopper (3) is outwards fixedly connected with a corresponding connecting plate (5), and a corresponding vibrating motor (6) is fixedly arranged on the connecting plate (5);

ejection of compact auger (7), through corresponding vibration isolation mechanism (8) fixing device of a plurality of in on base (1), the feed inlet of ejection of compact auger (7) makes progress the rigid coupling have one set to be located blanking pipe (301) outlying auger inlet pipe (13), auger inlet pipe (13) with fixing device has vibration isolation packing ring (9) that the round was made by flexible material between blanking pipe (301), the discharge end of ejection of compact auger (7) outwards extends the outside of base (1) and downward intercommunication are connected with corresponding feeding pipe (10).

2. The feeding device for processing high-purity manganese sulfate according to claim 1, characterized in that: the vibration isolation mechanism (8) comprises a support groove (801) and damping particles (802) for vibration reduction filled in the support groove (801), and corresponding support plates (803) are hermetically welded at the notch of the support groove (801).

3. The feeding device for processing high-purity manganese sulfate according to claim 2, characterized in that: discharge auger (7) contain fixed weld in feeding pipe (701) on backup pad (803) of vibration isolation mechanism (8), rotatable installation has corresponding drive shaft (702) in feeding pipe (701), drive shaft (702) are driven by driving motor (703) of fixing device on backup pad (803) of vibration isolation mechanism (8), just the rigid coupling has corresponding pay-off helical blade (704) on drive shaft (702).

4. The feeding device for processing high-purity manganese sulfate according to claim 1, characterized in that: the support frame (4) contain fixed weld in four support angle steel (401) on base (1), between the top portion of two adjacent support angle steel (401) respectively fixed weld have corresponding tractive fixed plate (402), the middle part fixed weld of hopper (3) is in the top portion of support angle steel (401) and on tractive fixed plate (402).

5. The feeding device for processing high-purity manganese sulfate according to claim 1, characterized in that: and a circle of corresponding surrounding edge plate (11) is vertically and upwardly fixedly connected to the top of the hopper (3).

6. The feeding device for processing high-purity manganese sulfate according to claim 1, characterized in that: the vibration isolation gasket (9) is made of a rubber material.

7. The feeding device for processing high-purity manganese sulfate according to claim 1, characterized in that: the moving wheel (2) is a moving wheel with a brake.

8. The feeding device for processing high-purity manganese sulfate according to claim 1, characterized in that: a group of pushing handles (12) are fixedly connected downwards on two sides of the connecting plate (5).

9. The feeding device for processing high-purity manganese sulfate according to claim 2, characterized in that: the damping particles (802) for vibration damping are spherical particles made of metal.

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