CN214717081U - Block ash discharging and transferring device - Google Patents

Abstract

The utility model discloses a piece ash unloading transfer device, including the slope downwards or the vertical feed cylinder that sets up downwards, in be provided with a plurality of breaking unloading mechanisms, each along its axial interval in the feed cylinder down breaking unloading mechanism through a actuating mechanism drive and rotate to the piece ash that constitutes the whereabouts in the feed cylinder is broken by breaking unloading mechanism and is discharged to the conveyer belt on. The utility model discloses an at the in-process that the lump ash was transported, in advance with its broken fritter that becomes, the operation such as its transportation, transport of being convenient for has improved transportation efficiency, has reduced the emergence of incident. The utility model is suitable for a technical field that the lump ash was transported.

Description

Block ash discharging and transferring device

Technical Field

The utility model belongs to the technical field of lump ash is transported, specific theory relates to a lump ash unloading transfer device.

Background

The existing conveying of block ash mainly comprises the steps of hoisting by a crane and then manually breaking bags for unloading, and also comprises the steps of bagging the block ash in bulk by a forklift, and then conveying the block ash to a specified place by the forklift for hoisting. Consumes labor and greatly slows down production efficiency. In addition, as the volume of the block ash is larger, the block ash can roll off in the processes of loading, unloading, lifting and other operations, so that the transfer efficiency of the block ash is not reduced, and safety accidents are easily caused.

SUMMERY OF THE UTILITY MODEL

The utility model provides a lump ash unloading transfer device for realize at the in-process that the lump ash was transported, in advance with its breakage one-tenth fritter, be convenient for its operations such as transportation, transport improve the transfer efficiency, reduce the emergence of incident.

In order to achieve the above object, the utility model adopts the following technical scheme:

the utility model provides a lump ash unloading transfer device, includes the slope downwards or the vertical feed cylinder that sets up downwards, in be provided with a plurality of breaking unloading mechanisms, each along its axial interval in the feed cylinder down breaking unloading mechanism through a actuating mechanism drive and rotate to the lump ash that constitutes to fall in the feed cylinder is broken by breaking unloading mechanism and is discharged to the conveyer belt.

Furthermore, smash unloading mechanism includes that both ends rotate to be connected in the installation pole on the corresponding lateral wall of feed cylinder down, in install a plurality of crushed aggregates units along its axial interval on the installation pole.

Furthermore, each crushing unit comprises a mounting sleeve sleeved on the mounting rod, and the crushing rods are uniformly formed on the mounting sleeve along the circumferential direction of the mounting sleeve.

Furthermore, crushed aggregates pole includes dead lever and the stereoplasm spring that radially outwards connects gradually along the installation cover.

Furthermore, at least one fixing hole is formed in the mounting sleeve, and the mounting sleeve is fixedly connected with the mounting rod through a locking screw penetrating through the fixing hole.

Furthermore, an assembly opening and a connecting seat are respectively formed in the side wall of the lower charging barrel and at the two ends of the mounting rod, and the smashing and discharging mechanism extends into the lower charging barrel from the assembly opening and is rotatably connected with the connecting seat.

Furthermore, a cover plate is detachably connected to the assembly opening, a rotating rod is rotatably connected to the cover plate, and the rotating rod extends into the lower charging barrel and is coaxially connected with the mounting rod.

Furthermore, each rotating rod is respectively provided with a driving wheel, the driving mechanism comprises a driving motor, driving wheels are arranged on an output shaft of the driving motor at intervals, and each driving wheel is in transmission connection with the corresponding driving wheel.

Furthermore, a shaft lever is rotatably connected to the connecting seat, a connecting block with a slot is formed at one end of the shaft lever, which extends into the lower charging barrel, an inserting strip with a cross section being a regular hexagon is formed at one axial end of the mounting rod, and the inserting strip is inserted into the slot and is matched with the slot.

Furthermore, a bell mouth is formed at the upper end of the lower charging barrel, and the large-diameter end of the bell mouth faces upwards.

The utility model discloses owing to adopted foretell structure, it compares with prior art, and the technical progress who gains lies in: the lump ash enters the discharging barrel of the utility model, a plurality of crushing discharging mechanisms of the discharging barrel are driven by the driving mechanism to operate, the lump ash is sequentially crushed by each crushing discharging mechanism from top to bottom and gradually becomes small blocks, the crushed lump ash falls on the conveying belt, and the conveying belt conveys the lump ash to the lump ash bin for digestion, thus fully avoiding the occurrence of the lump ash with large volume; to sum up, the utility model discloses an at the in-process that the lump ash was transported, broken into the fritter with it in advance, the operation such as its transportation, transport of being convenient for has improved transportation efficiency, has reduced the emergence of incident.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a partial structural sectional view of an embodiment of the present invention;

FIG. 3 is a schematic view of the separated partial structure of the discharging barrel and the crushing discharging mechanism of the present invention;

FIG. 4 is a schematic structural view of a shredding and blanking mechanism according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a material crushing unit according to an embodiment of the present invention;

FIG. 6 is a schematic structural view of a connection mode between the driving mechanism and the material breaking and discharging mechanism according to an embodiment of the present invention;

fig. 7 is a schematic structural view of another connection mode of the driving mechanism and the crushing and blanking mechanism according to the embodiment of the present invention.

Labeling components: 100-blanking cylinder, 101-bell mouth, 102-connecting seat, 103-cover plate, 104-shaft rod, 105-connecting block, 106-assembling port, 200-driving motor, 201-first driving wheel, 202-second driving wheel, 203-driven wheel, 204-first driving belt, 205-second driving belt, 206-rotating rod, 300-crushing blanking mechanism, 301-mounting rod, 302-mounting sleeve, 303-fixing rod, 304-hard spring, 305-inserting strip, 306-fixing sleeve and 307-fixing hole.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings. It should be understood that the preferred embodiments described herein are for purposes of illustration and explanation only and are not intended to limit the invention.

The utility model discloses a lump ash unloading transfer device, as shown in fig. 1-3, including feed cylinder 100 down, actuating mechanism and a plurality of breaking feed mechanism 300, wherein, feed cylinder 100 slope sets up downwards or vertical downwards, foretell a plurality of breaking feed mechanism 300 settings in feed cylinder 100 down to axial interval along feed cylinder 100 sets up, every breaking feed mechanism 300 takes place to rotate through the actuating mechanism drive, makes the lump ash of whereabouts in feed cylinder 100 down break and discharge to the conveyer belt by breaking feed mechanism 300, carries out subsequent transport operation. The utility model discloses a theory of operation and advantage lie in: the lump ash enters the discharging barrel 100 of the utility model, the plurality of crushing discharging mechanisms 300 of the discharging barrel 100 are driven by the driving mechanism to operate, the lump ash is sequentially crushed by each crushing discharging mechanism 300 from top to bottom and gradually becomes small blocks, the crushed lump ash falls on the conveyer belt, and the conveyer belt conveys the lump ash to the lump ash bin for digestion, thus fully avoiding the occurrence of large-volume lump ash; to sum up, the utility model discloses an at the in-process that the lump ash was transported, broken into the fritter with it in advance, the operation such as its transportation, transport of being convenient for has improved transportation efficiency, has reduced the emergence of incident.

As a preferred embodiment of the present invention, as shown in fig. 2, the crushing and discharging mechanism 300 comprises a mounting rod 301 and a plurality of crushing units, wherein the two ends of the mounting rod 301 are rotatably connected to the corresponding side walls of the discharging barrel 100, and the crushing units are mounted on the mounting rod 301 along the axial interval of the mounting rod 301. In this embodiment, in order to gradually crush the lump ash into a suitable volume, the intervals between the crushing units of the crushing and discharging mechanisms 300 are gradually decreased from top to bottom, that is, the gaps between the crushing units of the upper crushing and discharging mechanism 300 are larger than the gaps between the crushing units of the lower crushing and discharging mechanism 300. The particle units of this embodiment are preferably configured such that, as shown in fig. 4-5, each particle unit includes a mounting sleeve 302 sleeved on a mounting rod 301, at least one fixing hole 307 is formed on the mounting sleeve 302, the mounting sleeve 302 is fixedly connected to the mounting rod 301 via a locking screw passing through the fixing hole 307, and the particle rods are uniformly configured on the mounting sleeve 302 along the circumferential direction thereof. Wherein, crushed aggregates pole includes dead lever 303 and the stereoplasm spring 304 that radially outwards connects gradually along installation cover 302, wherein, be constructed with fixed cover 306 in the one end of stereoplasm spring 304, this fixed cover 306 suit is on dead lever 303, and through bolt-up, installation pole 301 is driven and rotates, make the piece ash stir and smash and drop downwards along the rotation direction of crushed aggregates pole by the crushed aggregates pole, because the effect of stereoplasm spring 304, make the piece ash that is difficult to be smashed fall through the deformation of stereoplasm spring 304, the problem that crushed aggregates unit takes place to damage has been avoided appearing.

As a preferred embodiment of the present invention, in order to make the connection between the shredding mechanism 300 and the lower charging barrel 100 more stable and facilitate the disassembly and maintenance of the shredding mechanism 300, as shown in fig. 2-3, an assembling opening 106 and a connecting seat 102 are respectively formed on the side wall of the lower charging barrel 100 and at the two ends of the mounting rod 301, and the shredding mechanism 300 extends into the lower charging barrel 100 from the assembling opening 106 and is rotatably connected to the connecting seat 102. In this embodiment, a cover plate 103 is detachably connected to the mounting opening 106, a rotating rod 206 is rotatably connected to the cover plate 103, and the rotating rod 206 extends into the lower cartridge 100 and is coaxially connected to the mounting rod 301. In order to facilitate detachment and installation, a shaft lever 104 is rotatably connected to the connecting seat 102, a connecting block 105 having a slot is configured at one end of the shaft lever 104 extending into the lower charging barrel 100, an inserting bar 305 having a regular hexagonal cross section is configured at one axial end of the mounting rod 301, the inserting bar 305 is inserted into the slot, and the two are mutually matched.

As a preferred embodiment of the present invention, in order to facilitate the entrance of the lump ash into the lower charging barrel 100, as shown in fig. 1, a bell mouth 101 is formed at the upper end of the lower charging barrel 100, and the large diameter end of the bell mouth 101 faces upward.

As a preferred embodiment of the present invention, as shown in fig. 1 and fig. 6 to 7, each rotating rod 206 is equipped with a driven wheel 203, the driving mechanism includes a driving motor 200, the driving wheels are installed on the output shaft of the driving motor 200 at intervals, and each driving wheel is in transmission connection with the corresponding driven wheel 203. In this embodiment, two shredding and blanking mechanisms 300 are taken as an example, and two transmission connection modes of the driving motor 200 and the two shredding and blanking mechanisms 300 are adopted, the first one is, as shown in fig. 6, a first driving wheel 201 and a second driving wheel 202 are installed on an output shaft of the driving motor 200 at intervals, the first driving wheel 201 and one of the driven wheels 203 are connected through a first transmission belt 204, the second driving wheel 202 and the other driven wheel 203 are connected through a second transmission belt 205, and the driving motor 200 drives the two driving wheels to rotate in the same direction; secondly, as shown in fig. 7, a first driving pulley 201 and a second driving pulley 202 are installed on an output shaft of a driving motor 200 at intervals, the first driving pulley 201 and one of the driven pulleys 203 are connected by a first transmission belt 204, the second driving pulley 202 and the other driven pulley 203 are connected by a second transmission belt 205, wherein the second transmission belt 205 is in a shape of "8", and the driving motor 200 drives the two to rotate in opposite directions, so that the lump ash crushed and dropped from the upper crushing and blanking mechanism 300 falls on the lower crushing and blanking mechanism 300, and the lump ash is crushed in the other direction due to the reverse rotation of the lower crushing and blanking mechanism 300, thereby sufficiently crushing the lump ash.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the protection of the claims of the present invention.

Claims (10)

1. The utility model provides a lump ash unloading transfer device which characterized in that: the device comprises a discharging barrel which is obliquely downward or vertically downward, wherein a plurality of crushing discharging mechanisms are arranged in the discharging barrel at intervals along the axial direction of the discharging barrel, and each crushing discharging mechanism is driven by a driving mechanism to rotate so as to crush the block ash falling into the discharging barrel by the crushing discharging mechanisms and discharge the crushed block ash onto a conveying belt.

2. The block ash unloading transfer device of claim 1, characterized in that: smash unloading mechanism includes that both ends rotate to be connected in the installation pole on the corresponding lateral wall of feed cylinder down, in install a plurality of crushed aggregates units along its axial interval on the installation pole.

3. The block ash unloading transfer device of claim 2, characterized in that: each crushing unit comprises a mounting sleeve sleeved on a mounting rod, and the crushing rods are uniformly constructed on the mounting sleeve along the circumferential direction of the mounting sleeve.

4. A block ash unloading transfer device of claim 3, characterized in that: the crushed aggregates pole includes dead lever and the stereoplasm spring that radially outwards connects gradually along the installation cover.

5. A block ash unloading transfer device of claim 3, characterized in that: at least one fixing hole is formed in the mounting sleeve, and the mounting sleeve is fixedly connected with the mounting rod through a locking screw penetrating through the fixing hole.

6. The block ash unloading transfer device of claim 2, characterized in that: the side wall of the lower charging barrel and the two ends of the mounting rod are respectively provided with an assembly opening and a connecting seat, and the smashing and discharging mechanism extends into the lower charging barrel from the assembly opening and is rotatably connected with the connecting seat.

7. A block ash unloading transfer device of claim 6, characterized in that: the assembling opening is detachably connected with a cover plate, the cover plate is rotatably connected with a rotating rod, and the rotating rod extends into the lower charging barrel and is coaxially connected with the mounting rod.

8. A block ash unloading transfer device of claim 7, characterized in that: and each rotating rod is respectively provided with a driving wheel, the driving mechanism comprises a driving motor, driving wheels are arranged on the output shaft of the driving motor at intervals, and each driving wheel is in transmission connection with the corresponding driving wheel.

9. A block ash unloading transfer device of claim 6, characterized in that: the connecting seat is rotatably connected with a shaft lever, one end of the shaft lever, which extends into the lower charging barrel, is provided with a connecting block with a slot, one axial end of the mounting rod is provided with an inserting strip with a regular hexagonal cross section, and the inserting strip is inserted into the slot and is matched with the slot.

10. The block ash unloading transfer device of claim 1, characterized in that: the upper end of the lower charging barrel is provided with a bell mouth, and the large-diameter end of the bell mouth faces upwards.

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