CN117864675B - Make things convenient for bucket elevator of dismouting - Google Patents

Abstract

The invention relates to the field of material transmission, in particular to a bucket elevator convenient to assemble and disassemble. The invention aims to solve the technical problems that: the disassembly and assembly process of the bucket elevator in the prior art needs to consume a great deal of time and manpower. The technical scheme is as follows: comprises a base, a shell and a machine head, wherein the shell is arranged on the base, and the machine head, the base and the like are arranged on the shell; the novel portable computer is characterized by further comprising a 匚 -shaped frame, wherein the bottoms of the 匚 -shaped frame are clamped into the first slide and slide in the first slide, a screw is connected to the 匚 -shaped frame in a threaded manner, a limiting plate is connected to the bottom of the screw, and a second slide is arranged at the bottoms of the base and the casing. According to the invention, through the design of the elastic locking plate, the base, the shell and the machine head can be quickly in butt joint fit, and through the fit of the 匚 -shaped frame and the screw rod, the base, the shell and the machine head can be more stably connected.

Description

Make things convenient for bucket elevator of dismouting

Technical Field

The invention relates to the field of material transmission, in particular to a bucket elevator convenient to assemble and disassemble.

Background

The bucket elevator is generally suitable for a scene of conveying materials in a large span in the vertical direction, and has the characteristics of simple structure, high conveying efficiency, stable operation and the like.

In the prior art, when the bucket elevator is installed, the shell is required to be connected by a bolt manually, then the hopper and the driving chain are installed manually, and a large amount of time is required to be consumed for assembling and disassembling the hopper and the driving chain manually, so that the construction progress is delayed.

Disclosure of Invention

In order to overcome the defect that the assembly process of the bucket elevator needs to consume a large amount of manpower and time, the technical problem to be solved is that: the bucket elevator is convenient to disassemble and assemble.

The technical scheme is as follows: the utility model provides a make things convenient for bucket elevator of dismouting, includes the base, be provided with the casing on the base, be provided with the aircraft nose on the casing, be provided with the hopper in base, casing and the aircraft nose, still including 匚 shape frame, the base with first slide has all been seted up at the casing top, 匚 shape frame bottom card is gone into in the first slide and is in slide in the first slide, the second slide has all been seted up to casing and aircraft nose bottom, 匚 shape frame removes the back bottom card and goes into in the second slide, threaded connection has the screw rod on the 匚 shape frame, the screw rod bottom is connected with the spacing dish, the base with the third slide has all been seted up at the casing top, the spacing dish card of screw rod is gone into in the third slide and is in slide, the fourth slide has all been seted up to casing and aircraft nose bottom, the spacing dish card of screw rod is gone into in the fourth slide, be provided with locking mechanical system in the casing, locking mechanical system is used for installing fast hopper, the last screw rod shape of correction mechanism has been provided for the quick detach mechanism.

In one embodiment, the machine further comprises an elastic locking plate, the elastic locking plate is arranged on the base and the machine shell, the elastic locking plate is in contact with the machine shell and the machine head, and the elastic locking plate is used for limiting the positions of the machine shell and the machine head.

In one embodiment, the device further comprises a mounting mechanism, the mounting mechanism comprises a movable plate, the movable plate is connected to the machine head in a mountable mode, a driving motor is mounted on one side of the machine head, a first sprocket is connected to the machine head in a rotating mode, an output shaft of the driving motor is fixedly connected with the first sprocket, a second sprocket is connected to the base in a rotating mode, a driving chain is arranged on the first sprocket and the second sprocket, a tensioning assembly is arranged on the base, the tensioning assembly is fixedly connected with the second sprocket, and the tensioning assembly is used for providing second sprocket movement.

In one embodiment, the installation mechanism further comprises a rectangular frame, one side of the base is fixedly connected with the rectangular frame, one side of the base is provided with a feeding hole, a rotary rod is hinged in the rectangular frame, a sliding groove is formed in the rotary rod, an installation rod is connected in the sliding groove of the rotary rod in a sliding mode, a protruding block is fixedly connected to the bottom end of the installation rod, a positioning block is fixedly connected to one side of the hopper, the installation rod is in contact with the positioning block, the installation rod is used for providing the movement of the positioning block, a stop block is fixedly connected in the rectangular frame, the rotary rod contacts with the stop block after rotating, the stop block is used for limiting the position of the rotary rod, and a movable frame is hinged to one side of the rectangular frame.

In one embodiment, the locking mechanism comprises a locking frame, the driving chain is fixedly connected with the locking frame, an elastic sliding rod is connected in the locking frame in a sliding manner, a wedge block is fixedly connected on one side of the elastic sliding rod, an elastic plate is connected in the locking frame in a sliding manner, a clamping shaft is fixedly connected on one side of the hopper, the wedge block is in contact with the clamping shaft, the wedge block is used for limiting the position of the clamping shaft, the clamping shaft is in contact with the elastic plate, and the clamping shaft is used for limiting the position of the elastic plate.

In one embodiment, the correction mechanism comprises a driving assembly, the driving assembly is arranged on one side of the machine head and fixedly connected with the first sprocket, a joint plate is arranged on the machine head, a centrifugal wheel is arranged on the machine head and fixedly connected with the driving assembly, and one end of a connecting rod is hinged to the centrifugal wheel.

In one embodiment, the correcting mechanism further comprises a limiting frame, the limiting frame is fixedly connected to the movable plate, the correcting frame is connected to the movable plate in a sliding mode, the correcting frame penetrates through the movable plate and is connected with the movable plate in a sliding mode, the other end of the connecting rod is connected with the correcting frame in a clamping mode through a bolt, balls are arranged in the correcting frame, the balls of the correcting frame are in contact with the hopper, and the balls of the correcting frame are used for extruding the hopper.

In one embodiment, the device further comprises a blocking frame, the blocking frame is fixedly connected in the machine head, an elastic trigger rod is hinged to the hopper, an elastic piece is arranged between the elastic trigger rod and the hopper, the elastic trigger rod is in contact with the blocking frame, the blocking frame is used for providing the elastic trigger rod to move, a sliding groove is formed in the elastic trigger rod, and an elastic expansion plate is connected in the sliding groove of the elastic trigger rod in a sliding mode.

In one embodiment, the dismounting mechanism comprises an extension plate, one side of the casing is hinged with the extension plate, one side of the extension plate is fixedly connected with a protruding shaft, one side of the casing is fixedly connected with a second elastic clamping piece, the protruding shaft of the extension plate is clamped into the second elastic clamping piece of the casing, the second elastic clamping piece of the casing is used for limiting the position of the extension plate, one side of the extension plate is hinged with one end of a telescopic rod, the other end of the telescopic rod is hinged with one end of a sliding rod, a special-shaped frame is fixedly connected in the casing, and the other end of the sliding rod is clamped into the special-shaped frame and slides in the special-shaped frame.

In one embodiment, the dismounting mechanism further comprises an elastic moving frame, the elastic moving frame is connected in a sliding manner in the special-shaped frame, the other end of the sliding rod is hinged to the elastic moving frame, an elastic unlocking rod is hinged to the elastic moving frame and is in contact with the elastic sliding rod, and the elastic unlocking rod is used for providing the elastic sliding rod to move.

The invention has the following advantages:

1. According to the invention, through the design of the elastic locking plate, the base, the shell and the machine head can be quickly in butt joint fit, and through the matching of the 匚 -shaped frame and the screw rod, the base, the shell and the machine head can be more stably connected, so that the assembly time can be greatly shortened, and the manpower consumption is reduced.

2. According to the invention, the hopper can be fast clamped and installed and kept stable through the cooperation of the clamping shaft and the wedge-shaped block, and the hopper can be positioned and installed more conveniently through the cooperation of the installation rod and the positioning block, so that the installation time of the hopper is greatly shortened.

3. According to the invention, through the cooperation of the elastic trigger rod and the blocking rod, the phenomenon that the materials cannot be separated from the hopper normally due to damp can be effectively prevented, and the conveying quantity of the return materials and the hopper is reduced.

4. According to the invention, through the design of the correction frame, the guide fins of the hopper can be corrected, the deflection caused by collision of the guide fins of the hopper and the hard materials is effectively prevented, and through the cooperation of the centrifugal wheel and the connecting rod, the correction frame can reciprocate up and down, so that the correction frame is prevented from colliding with the hopper.

5. According to the invention, through the design of the elastic unlocking rod, the clamping shaft of the hopper can be quickly released from the limit of the wedge block, and the hopper can be automatically released from the locking frame through the quick release of the elastic plate, so that the time required for disassembling the hopper can be greatly shortened.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the installation of the tensioning assembly of the present invention;

FIG. 3 is an enlarged view of a partial structure at A in FIG. 2 according to the present invention;

FIG. 4 is a schematic view of the installation of the present invention at a first sprocket;

FIG. 5 is a schematic view of the installation of the present invention at a mounting bar;

FIG. 6 is a schematic view of the installation of the clamping shaft of the present invention;

FIG. 7 is a schematic view of a locking mechanism of the present invention;

FIG. 8 is a schematic view of the installation of the calibration frame of the present invention;

FIG. 9 is a schematic view of the installation of the barrier of the present invention;

FIG. 10 is a schematic view of the installation of the resilient trigger lever of the present invention;

FIG. 11 is a schematic view of the installation of the extension plate of the present invention;

FIG. 12 is a schematic view of the installation of the slide bar of the present invention.

In the figure: 1. the base, 101, the housing, 102, the handpiece, 201, 匚 -shaped frame, 202, first slide, 203, second slide, 204, screw, 205, third slide, 206, fourth slide, 3, elastic locking plate, 401, movable plate, 402, driving motor, 403, first sprocket, 404, second sprocket, 501, rectangular frame, 502, rotating rod, 503, mounting rod, 504, positioning block, 505, stopper, 506, movable frame, 601, locking frame, 602, elastic sliding rod, 603, wedge, 604, elastic plate, 605, clamping shaft, 701, driving component, 702, engagement plate, 703, centrifugal wheel, 704, connecting rod, 705, limiting frame, 706, correction frame, 801, blocking frame, 802, elastic triggering rod, 803, elastic telescoping plate, 901, extension plate, 902, telescoping rod, 903, sliding rod, 904, profiled frame, 905, elastic moving frame, 906, elastic unlocking rod, 100, hopper, 200, driving chain, 300, tensioning component.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Example 1

The utility model provides a make things convenient for bucket elevator of dismouting, as shown in fig. 1-3, including base 1, base 1 upside is provided with casing 101, casing 101 comprises the multisection, upwards be first order down again respectively, second order and third order, third order casing 101 upside is provided with aircraft nose 102, base 1, be provided with hopper 100 in casing 101 and the aircraft nose 102, still including 匚 shape frame 201, first slide 202 has all been seted up to base 1 and casing 101 top front and back side symmetry, 匚 shape frame 201 bottom all blocks into first slide 202 and slide in first slide 202, casing 101 and the equal symmetry of aircraft nose 102 bottom front and back side have seted up second slide 203, 匚 shape frame 201 remove the back bottom card and have gone into in the second slide 203, 匚 shape frame 201 intermediate position all threaded connection has screw 204, screw 204 bottom all rotates and is connected with the spacing dish, base 1 and casing 101 top all have seted up third slide 205, the spacing dish card of screw 204 goes into in the third slide 205 and slide 205 in third slide 205, casing 101 and casing 101 bottom 206 all have set up fourth slide 205 and have the fourth slide 206 to be used for rectifying mechanism, fourth slide mechanism is used for dismantling in the quick-release mechanism is provided with fourth slide 100, quick-speed correction mechanism is realized, can be used for dismantling the mechanism is realized to the casing 100, quick-release mechanism is realized, quick-release mechanism is required to be installed to the fourth slide 100, the mechanism is easy to be dismantled 100.

As shown in fig. 2, the device further comprises an elastic locking plate 3, the base 1 and the top of the machine casing 101 are symmetrically and slidably connected with the elastic locking plate 3, the elastic locking plate 3 is in contact with the bottom of the machine casing 101 and the machine head 102, and the elastic locking plate 3 is used for limiting the positions of the machine casing 101 and the machine head 102.

At first, 匚 shape frame 201 is attached to one side of adjacent first slideway 202, first base 1 bottom is placed at installation position to fix, then first-stage casing 101 is lifted to right above base 1 by lifting equipment, then first-stage casing 101 is driven by lifting equipment to slowly descend, wedge-shaped surfaces on left and right sides of bottom of first-stage casing 101 after descending are contacted with adjacent elastic locking plates 3 on top of base 1 and squeeze elastic locking plates 3, two elastic locking plates 3 are squeezed to move away from each other, at this time first-stage casing 101 continues to descend downwards, first-stage casing 101 falls to cross bottom end of wedge-shaped surface of adjacent elastic locking plates 3, elastic locking plates 3 are moved close to each other and attached to planes on left and right sides of bottom of first-stage casing 101 after leaving restriction, thus first-stage casing 101 completes clamping fit with base 1, the second slide way 203 and the fourth slide way 206 at the bottom of the first-stage casing 101 are respectively matched with the first slide way 202 and the third slide way 205 at the top of the base 1, then two 匚 -shaped frames 201 of the base 1 are pushed to be close to each other manually, the bottom ends of 匚 -shaped frames 201 slide in the adjacent first slide way 202, the 匚 -shaped frames 201 drive adjacent screw rods 204 to move, the screw rods 204 drive adjacent limit plates to slide in the adjacent third slide way 205, the 匚 -shaped frames 201 are clamped into the second slide way 203 of the first-stage casing 101 after moving, at the moment, the 匚 -shaped frames 201 are positioned at the juncture center position of the first slide way 202 and the second slide way 203, at the same time, the 匚 -shaped frames 201 drive adjacent limit plates to be clamped into the fourth slide way 206 of the first-stage casing 101 through the screw rods 204, at the moment, the limit plates of the screw rods 204 are positioned at the juncture center position of the third slide way 205 and the fourth slide way 206, and then hand wheels on the two screw rods 204 are manually rotated, the hand wheel drives the screw 204 to rotate and move downwards in the adjacent 匚 -shaped frame 201, the screw 204 drives the adjacent limiting disc to move downwards, the limiting disc is moved to extrude the bottom of the third slideway 205 of the base 1 and the bottom of the fourth slideway 206 of the first-stage machine shell 101, meanwhile, the screw 204 drives the adjacent 匚 -shaped frame 201 to move upwards, the 匚 -shaped frame 201 is moved to extrude the top of the first slideway 202 of the base 1 and the top of the second slideway 203 of the first-stage machine shell 101, so that the base 1 and the first-stage machine shell 101 can be clamped and fastened, then the second-stage machine shell 101, the third-stage machine shell 101 and the machine head 102 are clamped and fastened and matched through lifting equipment in sequence, the first slideway 202, the second slideway 203, the third slideway 205 and the fourth slideway 206 between the first-stage machine shell 101 and the third-stage machine shell 101 are matched in the same matching mode as the first-stage machine shell 101 and the base 1, the second slideway 203 and the fourth slideway 206 at the bottom of the machine head 102 are matched with the first slideway 202 and the third slideway 205 at the top of the third-stage machine shell 101 respectively, and then the lifting equipment is assembled and installed on the machine head 101 through the lifting equipment.

Example 2

As shown in fig. 4, the device further comprises a mounting mechanism, the mounting mechanism comprises a movable plate 401, the top surface of the machine head 102 is connected with the movable plate 401 in a mountable manner, a driving motor 402 is mounted on the left side of the machine head 102, a first sprocket 403 is symmetrically and rotationally connected in the machine head 102, an output shaft of the driving motor 402 is fixedly connected with a rotating shaft of the first sprocket 403, a second sprocket 404 is symmetrically and rotationally connected in the base 1, a driving chain 200 is arranged on the first sprocket 403 and the second sprocket 404, a tensioning assembly 300 is arranged on the base 1, the tensioning assembly 300 is fixedly connected with the second sprocket 404, the tensioning assembly 300 is used for adjusting the position of the second sprocket 404, and the tensioning force of the driving chain 200 can be adjusted by adjusting the position of the second sprocket 404.

At first, the driving chain 200 is in a disconnection state, the movable plate 401 is detached and removed from the machine head 102 by manual work, a rectangular notch appears at the installation position of the machine head 102 and the movable plate 401, then the driving chain 200 is lifted to the upper side of the machine head 102 by a lifting device, then the driving chain 200 penetrates through the rectangular notch of the machine head 102 to sink into the machine head 102 and is meshed with the first sprocket 403 of the machine head 102, then the disconnection position of the driving chain 200 is connected by manual work, so that the driving chain 200 is integrated and is meshed with the second sprocket 404, and then the tensioning force of the driving chain 200 is adjusted by manual work through the tensioning assembly 300 (the tensioning assembly 300 is in the prior art and is not needed to be repeated).

As shown in fig. 5-6, the installation mechanism further includes a rectangular frame 501, the front side of the base 1 is fixedly connected with the rectangular frame 501, the front side of the base 1 is provided with a feed inlet, a rotating rod 502 is symmetrically hinged in the rectangular frame 501, a sliding groove is formed in the rotating rod 502, installation rods 503 are slidably connected in the sliding groove of the rotating rod 502, a protruding block is fixedly connected at the bottom end of each installation rod 503, the installation rods 503 are connected through a pull rod, a first elastic clamping piece is symmetrically fixedly connected at the front side of the base 1, the pull rod of each installation rod 503 is clamped into the first elastic clamping piece, the first elastic clamping piece is used for limiting the position of each installation rod 503, positioning blocks 504 are symmetrically fixedly connected at two sides of the hopper 100, the positioning blocks 504 at two sides of the hopper 100 are placed on the installation rods 503, the protruding blocks of each installation rod 503 are contacted with the corners of the positioning blocks 504, each installation rod 503 drives the hopper 100 to move through the positioning blocks 504, a stop block 505 is symmetrically fixedly connected in the rectangular frame 501, one side of each rotation rod 502 abuts against the top surface of the stop 505, the stop block 502 is used for limiting the position of the rotating rod 502, and one side of the rectangular frame 501 is hinged with a movable frame 506.

As shown in fig. 6-7, the locking mechanism comprises a locking frame 601, wherein the locking frame 601 is fixedly connected to one side of the driving chain 200, the locking frame 601 is slidably connected with an elastic sliding rod 602, two wedge blocks 603 are fixedly connected to one side of the elastic sliding rod 602, an elastic plate 604 is slidably connected in the locking frame 601, a clamping shaft 605 is fixedly connected to one side of the hopper 100, the wedge blocks 603 are in contact with the clamping shaft 605, the wedge blocks 603 are used for limiting the position of the clamping shaft 605, the clamping shaft 605 is in contact with the elastic plate 604, and the clamping shaft 605 is used for limiting the position of the elastic plate 604.

At first, the hasp on the movable frame 506 is in a clamping state with the convex shaft on the rectangular frame 501, the hasp on the movable frame 506 is rotated anticlockwise by a person, the hasp on the movable frame 506 is separated from the convex shaft on the rectangular frame 501 after rotating, then the movable frame 506 is driven by a person through a handle of the movable frame 506 to rotate anticlockwise by taking the hinge of the rectangular frame 501 as the circle center, the movable frame 506 is kept in a falling state under self weight after rotating, then the mounting rod 503 is driven by a person through a pull rod at the top of the mounting rod 503 to rotate anticlockwise, the mounting rod 503 is separated from the first elastic clamping piece on the base 1 after rotating, the mounting rod 503 drives the rotating rod 502 to rotate anticlockwise by taking the joint of the rectangular frame 501 as the circle center, the rotating rod 502 contacts with the top surface of the stop block 505 after rotating, the rotating rod 502 is limited by the stop block 505 to drive the installation rod 503 to form a horizontal state, then the installation rod 503 is pulled to one side far away from the base 1 by a person through a pull rod of the installation rod 503, the installation rod 503 slides on the rotating rod 502, then the hopper 100 is placed on the installation rod 503, the corners of the positioning blocks 504 at two sides of the hopper 100 are abutted against the protruding blocks at the bottom end of the installation rod 503, then the driving motor 402 is started, the output shaft of the driving motor 402 drives the first sprocket 403 to slowly rotate, the first sprocket 403 drives the second sprocket 404 to slowly rotate through the driving chain 200, thereby adjusting the position of the driving chain 200 so that the locking frame 601 on the driving chain 200 is positioned at the installation position of the hopper 100, then the installation rod 503 is pushed by a person through the pull rod of the installation rod 503 to move towards one side close to the driving chain 200, the bottom end of the installation rod 503 drives the hopper 100 to move by extruding the corner of the adjacent positioning block 504, the hopper 100 drives the clamping shafts 605 on two sides to move towards one side close to the locking frame 601, the clamping shafts 605 on two sides of the hopper 100 abut against the wedge surfaces of the adjacent wedge blocks 603 and extrude the wedge blocks 603 after moving, the wedge blocks 603 bear force to drive the elastic sliding rods 602 to extend downwards in the locking frame 601, simultaneously, the clamping shaft 605 contacts with the adjacent elastic plate 604 and presses the elastic plate 604, the elastic plate 604 is stressed to shrink and slide in the locking frame 601, the clamping shaft 605 is not contacted with the wedge surface of the wedge block 603 after continuing to move, at the moment, the wedge block 603 is separated from the limit of the clamping shaft 605 and can move, the wedge block 603 is not limited on the elastic sliding rod 602, the elastic sliding rod 602 shrinks and slides and drives the adjacent wedge block 603 to move and reset, the wedge block 603 contacts with the clamping shaft 605 after moving and limits the position of the clamping shaft 605, the clamping shaft 605 is limited to enable the adjacent elastic plate 604 to keep a shrink state, meanwhile, the clamping shaft 605 is limited and can not move so as to keep the hopper 100 stable, then the steps are repeated to finish the installation of the rest hoppers 100, after the installation of all hoppers 100 is finished, the installation rod 503 is pushed to the side close to the base 1 by the pull rod of the installation rod 503 manually, the installation rod 503 slides on the rotating rod 502 to reset, then the installation rod 503 is driven by the pull rod at the top of the installation rod 503 to rotate and reset by the manual work, the installation rod 503 is clamped into a first elastic clamping piece on the base 1 after rotating, the installation rod 503 is limited to drive the rotating rod 502 to keep stable, then the movable frame 506 is driven by the manual work through the handle of the movable frame 506 to rotate and reset by taking the hinge of the rectangular frame 501 as the circle center, after the movable frame 506 is reset, the hasp on the movable frame 506 is manually rotated and reset, and after the hasp of the movable frame 506 is reset, the hasp and the convex shaft on the rectangular frame 501 form a clamping state, so that the reset of the installation mechanism is completed.

As shown in fig. 8, the correction mechanism includes a driving component 701, a driving component 701 is disposed on one side of the machine head 102, the driving component 701 is composed of a large gear, a small gear, a transmission chain and a transmission shaft, the large gear of the driving component 701 is fixedly connected with a rotation shaft of the first sprocket 403, a connection plate 702 is fixedly connected on the machine head 102, the transmission shaft of the driving component 701 is rotationally connected with the connection plate 702, the small gear is fixedly connected with one end of the transmission shaft, the small gear and the large gear are disposed on the same vertical plane, a centrifugal wheel 703 is disposed on the machine head 102, the centrifugal wheel 703 is fixedly connected with the other end of the transmission shaft of the driving component, and one end of a connecting rod 704 is hinged on the centrifugal wheel 703.

As shown in fig. 4-8, the correcting mechanism further comprises a limiting frame 705, the front side of the top of the movable plate 401 is fixedly connected with the limiting frame 705, a correcting frame 706 is slidably connected in the limiting frame 705, the bottom end of the correcting frame 706 is in penetrating connection with the movable plate 401 in a sliding manner, and the other end of the connecting rod 704 is clamped with the correcting frame 706 through a bolt.

When the hopper 100 conveys hard materials of stones, the materials fall into the bottom of the base 1 through a gap between the hopper 100 after entering the base through a feeding hole of the base 1, the diversion fins of the hopper 100 are very easy to slightly skew, the diversion fins of the hopper 100 are slightly skewed, the diversion effect on the materials can be seriously affected, the materials can generate a material returning phenomenon after passing through the skewed diversion fins, after the hopper 100 is installed, the movable plate 401 is manually reinstalled on the machine head 102 to finish fixing the materials, then the connecting plate 702 is installed on one side of the machine head 102 through bolts, then the centrifugal wheel 703 is fixed at one end of a transmission shaft of the driving component 701, one end of the connecting rod 704 is connected with the correcting rack 706 through bolts, then the driving motor 402 is started, an output shaft of the driving motor 402 drives the first sprocket 403 to rotate, the first sprocket 403 drives the second sprocket 404 through the driving chain 200, the driving chain 200 drives the adjacent locking rack 601 to move, the hopper 100 is simultaneously conveyed into the feeding hole of the base 1 through a rectangular frame, the hopper 401 is manually reinstalled on the machine head 102, then the connecting plate 702 is installed on one side of the machine head 102 through bolts, then the centrifugal wheel 703 is fixed on one end of the driving component 704 is connected with the correcting rack 706 through bolts, and the driving the connecting rod 704 is driven by the driving shaft of the correcting rack to rotate, and the rotating small sprocket 703 is driven by the rotating small sprocket 706, and at the small sprocket 703 is simultaneously, and the small sprocket 703 is driven to rotate by the rotating the correcting rack 706 through the rotating the rotating shaft of the correcting rack 706 through the rotating shaft of the connecting rod 706 when the rotating shaft with the rotating shaft of the rotating shaft 706, the guide fins on one side of the hopper 100 in a moving state are clamped into the lower part of the correction frame 706 and then are in contact with the balls in the correction frame 706, the balls in the correction frame 706 roll the guide fins of the hopper 100, the guide fins of the hopper 100 are corrected to be in a straight state through rolling the guide fins of the hopper 100, the phenomenon that the guide fins of the hopper 100 are inclined to produce feed back can be effectively prevented, when the hopper 100 continues to move, the centrifugal wheel 703 drives the correction frame 706 to move upwards through the connecting rod 704, and the correction frame 706 avoids the moving track of the hopper 100 after moving upwards so as to prevent collision with the hopper 100.

As shown in fig. 9, the device further comprises a blocking frame 801, the blocking frame 801 is fixedly connected in the machine head 102, one side of the hopper 100 is hinged with an elastic triggering rod 802, an elastic piece is arranged between the elastic triggering rod 802 and the hopper 100, the elastic piece is a torsion spring, the elastic triggering rod 802 contacts with the blocking frame 801 after moving, the blocking frame 801 is used for enabling the elastic triggering rod 802 to rotate around the hinged position of the hopper 100, a sliding groove is formed in the elastic triggering rod 802, and an elastic expansion plate 803 is connected in the sliding groove of the elastic triggering rod 802 in a sliding mode.

When hopper 100 carries the easy wet material of grit class, the phenomenon of gluing with hopper 100 can appear in the material, hopper 100 can't pour the material completely, hopper 100 receives very big influence to the transport volume of material, when hopper 100 moves to directly over the first sprocket 403 and continue to move, the material in the hopper 100 receives gravity and hopper 100 to remove the inertia that produces and drop to the discharge gate department of aircraft nose 102 obliquely below, simultaneously the elastic triggering lever 802 of hopper 100 one side offsets with blocking frame 801, elastic triggering lever 802 is blocked frame 801 and is restricted to rotate with the articulated department of hopper 100 as the centre of a circle after hopper 100 continues to move, torsional spring shrink between elastic triggering lever 802 and the hopper 100, elastic triggering lever 802 drives the elastic expansion plate 803 to move to hopper 100 export in hopper 100, elastic expansion plate release movement and laminating with hopper 100 inner wall all the time, elastic triggering lever 803 can drive the material of hopper 100 bottom to be moved to the side that is close to the hopper 100 export, elastic triggering lever 802 and blocking frame 801 drive behind the continuous movement, elastic triggering lever 802 offsets with blocking frame 801 restriction, elastic triggering lever 802 and 100 drive elastic triggering lever 802 to rotate fast, the elastic expansion plate 803 to produce the vibration energy of material quick return to drive the elastic expansion plate 803 to rotate, the vibration can prevent the material of elastic expansion plate 803 from producing and the quick return to reset phenomenon.

As shown in fig. 11, the dismounting mechanism comprises an extension plate 901, the front side of the casing 101 is hinged with the extension plate 901, protruding shafts are fixedly connected to the upper parts of two sides of the extension plate 901, the front side of the casing 101 is symmetrically and fixedly connected with second elastic clamping pieces, the protruding shafts of the extension plate 901 are clamped into the second elastic clamping pieces, the second elastic clamping pieces are used for limiting the position of the extension plate 901, one end of a telescopic rod 902 is symmetrically hinged to the upper part of the rear side of the extension plate 901, the other end of the telescopic rod 902 is hinged with one end of a sliding rod 903, a special-shaped frame 904 is fixedly connected in the first-stage casing 101, and the other end of the sliding rod 903 is clamped into the special-shaped frame 904 and slides in the special-shaped frame 904.

As shown in fig. 12, the dismounting mechanism further includes an elastic moving frame 905, one side of the special-shaped frame 904 is slidably connected with the elastic moving frame 905, the other end of the sliding rod 903 is hinged to the adjacent elastic moving frame 905, the rear side of the bottom of the elastic moving frame 905 is hinged to an elastic unlocking rod 906, after the elastic unlocking rod 906 moves, the elastic unlocking rod 906 contacts with a corner of the elastic sliding rod 602, and the elastic unlocking rod 906 can drive the elastic sliding rod 602 to move.

At first, one side of the extension plate 901 is attached to the second-stage casing 101 and is in a contracted state, the elastic moving frame 905 drives the sliding rod 903 to keep a vertical state, the elastic moving frame 905 drives the elastic unlocking rod 906 to keep a far away state from the elastic sliding rod 602, when the whole device needs to be disassembled, the extension plate 901 is driven by a pull ring at the top end of the extension plate 901 to rotate anticlockwise by taking the hinging position of the first-stage casing 101 as a circle center, the extension plate 901 is separated from the second elastic clamping piece of the first-stage casing 101 after rotating, meanwhile, the extension plate 901 is driven to extend by the pull ring of the extension plate 901, then the top end of the extension plate 901 is overlapped with a self-contained collecting hopper, the extension plate 901 is driven to rotate while the extension rod 902 is driven to rotate, the extension rod 902 is extended after rotating, the extension rod 902 is driven to move downwards after the extension rod 902 extends to the limit, the sliding shaft of the sliding rod 903 slides downwards in the special-shaped frame 904 and extrudes the adjacent elastic moving frame 905, the elastic moving frame 905 is stressed to slide in the adjacent special-shaped frame 904 towards one side close to the hopper 100, the elastic moving frame 905 is propped against the special-shaped frame 904 to be stable after moving, then the driving motor 402 is started, the output shaft of the driving motor 402 drives the first sprocket 403 to rotate, the first sprocket 403 drives the second sprocket 404 to rotate through the driving chain 200, meanwhile, the driving chain 200 drives the adjacent locking frame 601 to move, the locking frame 601 drives the elastic sliding rod 602 to move, the corner of the bottom after the elastic sliding rod 602 moves is contacted with the elastic unlocking rod 906, the elastic sliding rod 602 is extruded by the elastic unlocking rod 906 to slide downwards in the adjacent locking frame 601, the elastic sliding rod 602 drives the adjacent wedge block 603 to move downwards, the wedge block 603 is not contacted with the adjacent clamping shaft 605 after moving, the clamping shaft 605 can move after being separated from the limit of the wedge block 603, at the moment, the elastic plate 604 releases and slides to push the adjacent clamping shaft 605, the clamping shaft 605 is stressed to drive the hopper 100 to move towards the discharge port of the first-stage shell 101 quickly, the hopper 100 slides on the extension plate 901 by inertia after moving quickly, then the hopper 100 slides into the self-contained collecting hopper through the extension plate 901, at the moment, the output shaft of the driving motor 402 continues to rotate, the elastic sliding rod 602 contacted with the elastic unlocking rod 906 continues to move upwards, at the moment, the elastic unlocking rod 906 is extruded by the elastic sliding rod 602 to shrink and rotate by taking the hinge part of the elastic moving frame 905 as the circle center, the elastic sliding rod 602 does not contact with the elastic unlocking rod 906 any more after moving, the elastic unlocking rod 906 releases and rotates to reset after being separated from the limit of the elastic sliding rod 602, and the elastic sliding rods 602 of the rest locking frames 601 sequentially contact with the elastic unlocking rod 906, so that the disassembly of the adjacent hopper 100 can be completed, and the manpower and time required for disassembling the hopper 100 can be greatly shortened.

After the hopper 100 is disassembled, the extension plate 901 is driven to retract and reset by a pull ring at the top end of the extension plate 901, then the extension plate 901 rotates and resets by taking the hinging position of the first-stage machine shell 101 as the center of a circle, the extension plate 901 rotates and drives the two telescopic rods 902 to rotate by taking the hinging position of the extension plate 901 as the center of a circle, meanwhile, the telescopic rods 902 rotate by taking the hinging position of the adjacent sliding rods 903 as the center of a circle, at the moment, the positions of the sliding rods 903 are not limited, the sliding rods 903 are separated from the limitation of the telescopic rods 902, then the elastic moving frames 905 can move, the elastic moving frames 905 release sliding reset on the adjacent special-shaped frames 904, the elastic moving frames 905 drive the adjacent sliding rods 903 to move and reset, the sliding shafts at the top ends of the sliding rods 903 slide upwards slide and reset in the adjacent special-shaped frames 904, meanwhile, the sliding rods 903 rotate and reset by taking the hinging position of the adjacent elastic moving frames 905 as the center of a circle, and simultaneously the sliding rods 903 drive the telescopic rods 902 to retract and reset, and the protruding shafts on the telescopic rods 903 after the extension plate 901 reset are clamped into the second elastic clamping pieces on the first-stage machine shell 101 to complete clamping reset.

Then the bolt between the connecting rod 704 and the correcting frame 706 is pulled out manually, the connecting rod 704 is disconnected with the correcting frame 706, then the centrifugal wheel 703 is detached from one end of a transmission shaft of the driving component 701, then the transmission chain is detached from a large gear and a small gear of the driving component 701, then the connecting plate 702 is detached from one side of the machine head 102, then the movable plate 401 is detached from the machine head 102 manually, a rectangular notch appears at the installation position of the machine head 102 and the movable plate 401, then the driving chain 200 is disconnected manually, then the driving chain 200 is taken out through a lifting device, then the hand wheel of the screw 204 on the base 1 is manually rotated, the screw 204 rotates and then drives the adjacent limiting disc to move upwards, the limiting disc does not press the third slideway 205 of the base 1 and the bottom of the fourth slideway 206 of the first-stage machine shell 101 any more, at this time, the 匚 -shaped frame 201 can move, then the two 匚 frames 201 of the base 1 are moved away from each other to reset by manpower, the bottom ends of the 匚 frames 201 slide in the adjacent first slide ways 202, the 匚 frames 201 drive the adjacent screw rods 204 to move, the screw rods 204 drive the adjacent limiting plates to move, the half part of the 匚 frames 201 close to the first-stage machine shell 101 after moving is separated from the third slide way 205 of the first-stage machine shell 101, the half part of the 匚 frames 201 drive the half part of the adjacent limiting plates to separate from the fourth slide way 206 of the first-stage machine shell 101 through the screw rods 204, then the two elastic locking plates 3 are driven by manpower through a handle on one side of the elastic locking plate 3 to move away from each other, then the machine head 102, the third-stage machine shell 101, the second-stage machine shell 101 and the first-stage machine shell 101 are lifted upwards through lifting equipment, the first-stage machine shell 101 is separated from the base 1 after being moved upwards, and then the machine head 102, the third-stage machine shell 101 are repeatedly moved, the second-stage casing 101 performs a disassembling work with the first-stage casing 101, thereby completing the disassembly of the entire apparatus.

While the present disclosure has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present disclosure as defined by the appended claims and their equivalents. The scope of the disclosure should, therefore, not be limited to the above-described embodiments, but should be determined not only by the following claims, but also by the equivalents of the following claims.

Claims (3)

1. Make things convenient for bucket elevator of dismouting, including base (1), be provided with casing (101) on base (1), be provided with aircraft nose (102) on casing (101), base (1) casing (101) with be provided with hopper (100) in aircraft nose (102), its characterized in that: still including 匚 shape frame (201), base (1) with first slide (202) have all been seted up at casing (101) top, 匚 shape frame (201) bottom card is gone into in first slide (202) and is in slide in first slide (202), second slide (203) have all been seted up to casing (101) and aircraft nose (102) bottom, 匚 shape frame (201) remove the back bottom card go into in second slide (203), threaded connection has screw rod (204) on 匚 shape frame (201), screw rod (204) bottom is connected with the limiting disc, base (1) with third slide (205) have all been seted up at casing (101) top, the limit disc of the screw (204) is clamped into the third slide way (205) and slides in the third slide way (205), the bottom of the machine shell (101) and the bottom of the machine head (102) are both provided with a fourth slide way (206), the limit disc of the screw (204) is clamped into the fourth slide way (206) after moving, the machine shell (101) is internally provided with a locking mechanism which is used for rapidly installing the hopper (100), the machine head (102) is provided with a correcting mechanism which is used for providing the recovery shape of the hopper (100), the machine shell (101) is provided with a disassembling mechanism, the disassembly mechanism is used for quickly disassembling the hopper (100);

The machine head is characterized by further comprising a mounting mechanism, the mounting mechanism comprises a movable plate (401), the machine head (102) is connected with the movable plate (401) in a mountable manner, a driving motor (402) is mounted on one side of the machine head (102), a first sprocket (403) is rotationally connected with the machine head (102), an output shaft of the driving motor (402) is fixedly connected with the first sprocket (403), a second sprocket (404) is rotationally connected with the base (1), a driving chain (200) is arranged on the first sprocket (403) and the second sprocket (404), a tensioning assembly (300) is arranged on the base (1), the tensioning assembly (300) is fixedly connected with the second sprocket (404), and the tensioning assembly (300) is used for providing movement of the second sprocket (404).

The mounting mechanism further comprises a rectangular frame (501), one side of the base (1) is fixedly connected with the rectangular frame (501), one side of the base (1) is provided with a feeding hole, a rotary rod (502) is hinged in the rectangular frame (501), a sliding groove is formed in the rotary rod (502), a mounting rod (503) is connected in the sliding groove of the rotary rod (502) in a sliding manner, a protruding block is fixedly connected to the bottom end of the mounting rod (503), a first elastic clamping piece is fixedly connected to one side of the base (1), the mounting rod is clamped into the first elastic clamping piece of the base (1), the first elastic clamping piece of the base (1) is used for limiting the position of the mounting rod, a positioning block (504) is fixedly connected to one side of the hopper (100), the mounting rod (503) is in contact with the positioning block (504), a stop block (505) is fixedly connected in the sliding groove of the rotary rod (502), the stop block (505) is contacted with the stop block (505) after the rotation, and the stop block (505) is used for limiting the position of the rotary rod (501) in a movable mode, and the rotary rod (506) is hinged to one side of the rotary rod (506).

The locking mechanism comprises a locking frame (601), the locking frame (601) is fixedly connected to the driving chain (200), an elastic sliding rod (602) is connected to the locking frame (601) in a sliding mode, a wedge block (603) is fixedly connected to one side of the elastic sliding rod (602), an elastic plate (604) is connected to the locking frame (601) in a sliding mode, a clamping shaft (605) is fixedly connected to one side of the hopper (100), the wedge block (603) is in contact with the clamping shaft (605), the wedge block (603) is used for limiting the position of the clamping shaft (605), the clamping shaft (605) is in contact with the elastic plate (604), and the clamping shaft (605) is used for limiting the position of the elastic plate (604);

The correcting mechanism comprises a driving assembly (701), wherein the driving assembly (701) is arranged on one side of the machine head (102), the driving assembly (701) is fixedly connected with the first chain wheel (403), a connecting plate (702) is arranged on the machine head (102), a centrifugal wheel (703) is arranged on the machine head (102), the centrifugal wheel (703) is fixedly connected with the driving assembly (701), and one end of a connecting rod (704) is hinged on the centrifugal wheel (703);

The correcting mechanism further comprises a limiting frame (705), the limiting frame (705) is fixedly connected to the movable plate (401), a correcting frame (706) is connected to the movable plate (705) in a sliding mode, the correcting frame (706) is connected with the movable plate (401) in a penetrating mode, the other end of the connecting rod (704) is clamped with the correcting frame (706) through a bolt, balls are arranged in the correcting frame (706), the balls of the correcting frame (706) are in contact with the hopper (100), and the balls of the correcting frame (706) are used for extruding the hopper (100);

The dismounting mechanism comprises an extension plate (901), one side of the casing (101) is hinged with the extension plate (901), one side of the extension plate (901) is fixedly connected with a protruding shaft, one side of the casing (101) is fixedly connected with a second elastic clamping piece, the protruding shaft of the extension plate (901) is clamped into the second elastic clamping piece of the casing (101), the second elastic clamping piece of the casing (101) is used for limiting the position of the extension plate (901), one side of the extension plate (901) is hinged with one end of a telescopic rod (902), the other end of the telescopic rod (902) is hinged with one end of a sliding rod (903), a special-shaped frame (904) is fixedly connected in the casing (101), and the other end of the sliding rod (903) is clamped into the special-shaped frame (904) and slides in the special-shaped frame (904).

The dismounting mechanism further comprises an elastic moving frame (905), the elastic moving frame (905) is connected with the special-shaped frame (904) in a sliding mode, the other end of the sliding rod (903) is hinged to the elastic moving frame (905), an elastic unlocking rod (906) is hinged to the elastic moving frame (905), the elastic unlocking rod (906) is in contact with the elastic sliding rod (602), and the elastic unlocking rod (906) is used for providing the elastic sliding rod (602) to move.

2. The easy-to-disassemble bucket elevator set forth in claim 1, wherein: the machine head is characterized by further comprising an elastic locking plate (3), wherein the elastic locking plate (3) is arranged on the base (1) and the machine shell (101), the elastic locking plate (3) is in contact with the machine shell (101) and the machine head (102), and the elastic locking plate (3) is used for limiting the positions of the machine shell (101) and the machine head (102).

3. The easy-to-disassemble bucket elevator set forth in claim 1, wherein: still including blocking frame (801), rigid coupling has in aircraft nose (102) block frame (801), articulated on hopper (100) have elasticity trigger lever (802), be provided with the elastic component between elasticity trigger lever (802) and hopper (100), elasticity trigger lever (802) with block frame (801) contact, block frame (801) are used for providing elasticity trigger lever (802) activity, the sliding tray has been seted up on elasticity trigger lever (802), the sliding tray sliding connection of elasticity trigger lever (802) has elasticity expansion plate (803).