CN114751137A - Bucket type lifting equipment - Google Patents

Abstract

The invention relates to bucket type lifting equipment which comprises a main machine shell, wherein the main machine shell consists of a feeding channel shell assembly, a lifting channel shell assembly and a discharging channel shell assembly; the feeding channel shell assembly, the lifting channel shell assembly and the discharging channel shell assembly are respectively formed by splicing a plurality of plates with flanges; a feeding receiving tray is disassembled and assembled below the feeding channel shell component, a driving device is arranged on the outer side of the feeding channel shell component, and a feeding maintenance door is opened and closed in a side-rotating mode at the rear part of the feeding channel shell component; a discharging receiving disc and a discharging hopper body are assembled and disassembled below the discharging channel shell component; a lower discharging corner plate is arranged between the lifting channel shell component and the discharging channel shell component in a turnover type opening and closing mode; the inside sprocket conveyor that is provided with of host computer casing, sprocket conveyor and drive arrangement cooperation are connected. The lifting equipment has the characteristics of simple and reasonable structure, stable use, easy realization, easy maintenance, low energy consumption and the like, and has strong practicability.

Description

Bucket type lifting equipment

Technical Field

The invention relates to the technical field of transportation lifting equipment, in particular to bucket type lifting equipment.

Background

Chinese patent document No. CN213621766U discloses a pipeline that vibratory conveyor promoted material and used 7.6.2021, it includes the conveyer, a conveyer side fixedly connected with rises the material pipeline, it has seted up the discharge gate to rise a material pipeline side, discharge gate top fixedly connected with drive box, diaphragm side fixedly connected with riser, the slip chamber has been seted up to the riser bottom, the spacing spring of top fixedly connected with in the slip chamber, T type spout inner wall sliding connection has the slider, the slider lower surface articulates through the free bearing has the swash plate, the swash plate lower surface is articulated through pivot and scraper blade bottom.

The pipeline cleaning device has the disadvantages that the pipeline assembly cost is high, the assembly stability is poor, the material falling problem is easy to occur in the transportation process, the material cannot be recovered, and the interior of the pipeline is not easy to clean. Therefore, further improvements are necessary.

Disclosure of Invention

The invention aims to provide bucket type lifting equipment to overcome the defects in the prior art.

A bucket elevator apparatus designed to this end includes a main frame housing, characterized in that: the main machine shell consists of a feeding channel shell assembly, a lifting channel shell assembly and a discharging channel shell assembly.

The feeding channel shell assembly, the lifting channel shell assembly and the discharging channel shell assembly are respectively formed by splicing a plurality of plates with flanges.

The feeding receiving tray is disassembled and assembled below the feeding channel shell assembly, the driving device is arranged on the outer side of the feeding channel shell assembly, and the feeding maintenance door is opened and closed in a rear side rotation mode.

The discharging receiving tray and the discharging hopper body are arranged below the discharging channel shell component in a dismounting mode.

A lower discharging corner plate is arranged between the lifting channel shell component and the discharging channel shell component in a turnover type opening and closing mode.

The inside sprocket conveyor that is provided with of host computer casing, sprocket conveyor and drive arrangement cooperation are connected.

The feed channel shell subassembly includes left and right feeding curb plate, feeding maintenance door, preceding feeding end plate, goes up feeding apron, goes up the corner board of feeding.

Flanges are arranged on the left and right feeding side plates, and/or the feeding maintenance door, and/or the front feeding end plate, and/or the upper feeding cover plate, and/or the upper feeding corner plate.

The left feeding side plate, the right feeding side plate, the front feeding end plate, the upper feeding cover plate and the upper feeding corner plate are respectively supported through flanging and are mutually fixed through fasteners, and a feeding channel is formed between the left feeding side plate, the right feeding side plate, the front feeding end plate, the upper feeding cover plate and the upper feeding corner plate after the left feeding side plate, the right feeding side plate, the front feeding end plate, the upper feeding cover plate and the upper feeding corner plate are fixed.

A feeding channel maintenance port is formed between the rear parts of the left and right feeding side plates, and a hinge and a locking device are arranged between the feeding channel maintenance port and the feeding maintenance door; the feeding maintenance door is opened or locked on the maintenance opening of the material channel through the matching side rotation of the hinge and the locking device.

The front feeding end plate is fixedly provided with a counterweight.

The driving device is arranged on the left feeding side plate and the right feeding side plate.

An upper feeding opening is formed in the upper feeding cover plate and communicated with the feeding end of the feeding channel; the upper feeding opening is provided with a feeding guide flange corresponding to the feeding end of the feeding channel.

The bottom of the feeding channel is opened and arranged and is provided with a supporting bottom frame, the supporting bottom frame depends on the flanging of the left feeding side plate, the right feeding side plate, the feeding maintenance door and/or the front feeding end plate, and the supporting bottom frame is fixed with the flanging of the left feeding side plate, the right feeding side plate, the feeding maintenance door and/or the front feeding end plate through fasteners.

A feeding dismounting groove is arranged on the supporting bottom frame, and a feeding groove limiting part is arranged at the rear end of the feeding dismounting groove; the feeding material receiving disc is laterally and slidably disassembled and assembled on the feeding disassembling groove and is limited to act on the limiting part of the feeding groove during assembly.

The lifting channel shell assembly comprises left and right lifting side plates, a rear lifting end plate and a front lifting end plate.

Flanges are arranged on the left and right lifting side plates, and/or the rear lifting end plate, and/or the front lifting end plate.

Left and right sides promote curb plate, back and promote end plate, the prerequisite and rise the end plate and rely on through the turn-ups respectively, and fix each other through the fastener to form the promotion passageway after fixed each other.

A lifting channel maintenance port and a lifting maintenance door are arranged in front of the lifting channel; a hinge and a locking device are arranged between the lifting channel maintenance opening and the lifting maintenance door; the lifting maintenance door is opened or locked on the lifting channel maintenance opening through the matching side rotation of the hinge and the locking device.

The discharging channel shell component comprises a left discharging side plate, a right discharging side plate, a rear discharging end plate, a front discharging end plate, an upper discharging cover plate and a lower discharging corner plate.

Flanges are arranged on the left and right discharging side plates, and/or the rear discharging end plate, and/or the front discharging end plate, and/or the upper discharging cover plate.

The left and right discharging side plates, the rear discharging end plate, the front discharging end plate and the upper discharging cover plate are respectively depended on through turned edges and are mutually fixed through fasteners, and discharging channels are formed between the fixed side plates and the fixed rear plate.

The bottom of the discharging channel is arranged in an open manner, one side of the discharging channel is provided with a discharging channel maintenance port, and a hinge and a locking device are arranged between the discharging channel maintenance port and the lower discharging corner plate; the lower discharging corner plate is opened or locked on the maintenance opening of the discharging channel in a turnover way through the matching of a hinge and a locking device.

The middle position of the bottom of the discharging channel is provided with a middle part, and two sides of the middle part and the bottom of the discharging channel are opened to form a discharging dismounting groove and a discharging dismounting groove between the two sides respectively.

The rear end of the unloading disassembling groove is provided with an unloading groove limiting part; the unloading receiving tray is laterally and slidably disassembled and assembled on the unloading disassembling and assembling groove and is limited to act on the limiting part of the unloading groove during assembly.

The rear end of the unloading dismounting groove is provided with an unloading groove limiting part; the unloading hopper body is laterally and slidably disassembled and assembled on the unloading disassembling and assembling groove and is limited to act on the limiting part of the unloading groove during assembly.

The shell components of the feeding channel, the lifting channel and the discharging channel are matched in a Z shape.

The driving device comprises a motor, a speed reducer and an assembling seat; the assembly seat is fixedly arranged on the outer side of the shell assembly of the feeding channel, the speed reducer is arranged on the assembly seat, and the motor is in driving connection with the speed reducer.

The chain wheel conveying device comprises chain wheel components arranged on the inner walls of the two sides of the main machine shell, and each chain wheel component is connected with a traction chain in a meshing manner; the chain wheel component comprises a driving chain wheel, a driven chain wheel, a horizontal rotation lifting chain wheel, a lifting rotation horizontal chain wheel, a steering discharging chain wheel and a horizontal rotation descending chain wheel.

The driving chain wheel, the driven chain wheel and the horizontal rotation lifting chain wheel respectively rotate in the feeding channel shell assembly; the lifting rotating horizontal chain wheel, the steering discharging chain wheel and the horizontal rotating descending chain wheel respectively rotate in the discharging channel shell component.

The speed reducer is directly connected with the driving chain wheel in a driving way.

The driven chain wheel and the horizontal rotating and descending chain wheel are respectively provided with a righting disc.

Through the improvement of the structure, compared with the prior art, the invention has the following advantages:

1. utilize a plurality of plates that have the turn-ups to splice into feed channel shell subassembly respectively, promote the passageway shell subassembly, unload the passageway shell subassembly, not only simplify the feed channel shell subassembly, promote the passageway shell subassembly, the assembly cost of the passageway shell subassembly of unloading, be convenient for produce and process, but also can improve the feed channel shell subassembly, promote the passageway shell subassembly, the structural strength of the passageway shell subassembly of unloading, thereby reduce the deformation problem of host computer casing, be favorable to increasing the promotion weight of lifting means to the material, improve application range.

2. A feeding receiving tray and an unloading receiving tray are respectively arranged below the feeding channel shell component and the unloading channel shell component in a dismounting mode, so that the feeding receiving tray can collect materials falling off when the feeding channel feeds, the unloading receiving tray can collect residual materials when the unloading channel unloads, the problems of collision and noise caused by the materials hitting on the inner wall of the main machine shell are solved while material return is prevented, and damage to lifting equipment is reduced; moreover, because the feeding receiving tray and the discharging receiving tray can be disassembled and assembled, the collected materials can be processed and recovered in time, waste is reduced, and the working stability of the lifting equipment is improved.

3. The discharge hopper body is disassembled and assembled below the discharge channel shell assembly, so that the assembly process of the discharge hopper body is simplified, the discharge hopper body is convenient to assemble, and the blocked discharge hopper body can be conveniently disassembled and conducted and residual materials adhered to the inner wall of the discharge hopper body can be conveniently cleaned due to the fact that the discharge hopper body can be disassembled and assembled, and the convenience in daily maintenance of the discharge hopper body is improved.

4. The hinge and the locking device are matched to ensure that the lower discharging corner plate, the feeding maintenance door and the lifting maintenance door can be opened and closed in a rotating mode, so that the opening and closing structures of the lower discharging corner plate, the feeding maintenance door and the lifting maintenance door are simplified, the opening and closing smoothness of the lower discharging corner plate, the feeding maintenance door and the lifting maintenance door are improved, and the daily maintenance on the inner parts of the feeding channel shell assembly, the lifting channel shell assembly and the discharging channel shell assembly is facilitated.

5. The arrangement of the counterweight can improve the working stability of the lifting equipment and reduce the problems of shaking, jumping or side tilting during working.

6. The driving device is positioned on the outer side and can be directly in driving connection with the internal chain wheel conveying device, so that the driving structure is simplified, the power transmission effect can be improved, and the energy consumption is reduced.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention.

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the description below are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 and 2 are schematic views of an assembly structure according to an embodiment of the present invention.

Fig. 3 and 4 are schematic exploded structural diagrams according to an embodiment of the invention.

Fig. 5 is an assembly cross-sectional structural schematic diagram of an embodiment of the invention.

FIG. 6 is an exploded view of the feed channel housing assembly.

Fig. 7 is an exploded view of the lift channel housing assembly.

Fig. 8 is an exploded view of the discharge passage housing assembly.

Fig. 9 and 10 are schematic exploded structural views of the supporting bottom frame and the feeding and receiving tray.

Fig. 11 and 12 are schematic exploded structural views of the discharge channel housing assembly, the discharge receiving tray and the discharge hopper body.

Fig. 13 is a schematic view of an assembled structure of the dump bucket body.

Fig. 14 is an exploded view of the dump body.

FIG. 15 is an exploded view of the feed channel housing assembly, feed service door, hinge, and closure.

FIG. 16 is a schematic view of the assembled structure of the feed channel housing assembly, feed service door, hinge, and closure (feed channel service door open).

FIG. 17 is an exploded view of the lifting channel housing assembly, discharge channel housing assembly, lower discharge corner plate, hinge, and locking device.

Fig. 18 is a schematic view of the assembled construction of the lifting chute housing assembly, the discharge chute housing assembly, the lower discharge corner plate, the hinge, and the locking device (discharge chute service opening open).

FIG. 19 is a schematic view of the assembled configuration of the closure.

FIG. 20 is an exploded view of the closure assembly.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

The invention is further described with reference to the following figures and examples.

Referring to fig. 1-20, the bucket elevator comprises a main machine housing, which is composed of a feeding channel housing assembly X, a lifting channel housing assembly Y, and a discharging channel housing assembly Z.

The feeding channel shell assembly X, the lifting channel shell assembly Y and the discharging channel shell assembly Z are respectively formed by splicing a plurality of plates with flanges.

The feeding receiving tray 43 is disassembled and assembled below the feeding channel shell assembly X, a driving device is arranged on the outer side of the feeding channel shell assembly X, and the feeding maintenance door 2 is opened and closed in a rear side rotation mode.

The discharging receiving tray 44 and the discharging hopper body 17 are arranged below the discharging channel shell component Z in a dismounting mode.

A lower discharging corner plate 16 is arranged between the lifting channel shell component Y and the discharging channel shell component Z in a turnover type opening and closing mode.

A chain wheel conveying device is arranged in the main machine shell and is connected with a driving device in a matched mode.

Specifically, the feed passage housing assembly X includes left and right feed side plates 1, a feed maintenance door 2, a front feed end plate 3, an upper feed cover plate 4, and an upper feed corner plate 5.

Flanges are arranged on the left and right feeding side plates 1, and/or the feeding maintenance door 2, and/or the front feeding end plate 3, and/or the upper feeding cover plate 4, and/or the upper feeding corner plate 5.

Left and right feeding side plates 1, a front feeding end plate 3, an upper feeding cover plate 4 and an upper feeding corner plate 5 are respectively depended on through flanging and are mutually fixed through fasteners, and a feeding channel 40 is formed between the left and right feeding side plates and the upper feeding corner plate after the left and right feeding side plates are fixed.

As shown in fig. 6, the periphery of the left and right feeding side plates 1 of the present embodiment is provided with left and right feeding side plate flanges 18 facing outward.

The upper and lower end portions of the front feed end plate 3 are respectively provided with front feed end plate flanges 20 toward the rear side.

The rear sides of the flanges 18 of the left and right feeding side plates respectively lean against the left and right sides of the front feeding end plate 3 and are fixed with each other through fasteners; the upper sides of the left and right feeding side plate flanges 18 are respectively leaned against the left and right sides of the upper feeding cover plate 4 and the upper feeding corner plate 5 and are fixed with each other through fasteners.

The upper side of the front feeding end plate flanging 20 is leaned against the front side of the upper feeding cover plate 4 and is fixed with each other through a fastener.

The periphery of the upper feeding cover plate 4 is respectively provided with an upper feeding cover plate flanging 21 downwards, and the upper sides of the upper feeding end plate 3 and the left and right feeding side plate flanging 18 are respectively wrapped by the upper feeding cover plate flanging 21.

The periphery of the feeding maintenance door 2 of the embodiment is respectively provided with a feeding maintenance door flange 19 towards the front side, and the upper side and the lower side of the feeding maintenance door flange 19 are also provided with a front feeding lower plate 23 and a front feeding lower plate 23 which are connected with a turning piece.

The driving device is arranged on the left feeding side plate 1 and the right feeding side plate 1.

An upper feeding opening 6 is formed in the upper feeding cover plate 4, and the upper feeding opening 6 is communicated with the feeding end of the feeding channel; the feeding end of the upper feeding opening 6, which corresponds to the feeding channel, is also provided with a feeding guide flange 7, and materials can smoothly enter the feeding end of the feeding channel through the guide function of the feeding guide flange 7.

The bottom of the feeding channel 40 is opened and provided with a supporting bottom frame 8, the supporting bottom frame 8 depends on the flanges of the left and right feeding side plates 1, the feeding maintenance door 2 and/or the front feeding end plate 3, and the flanges are fixed with each other through fasteners.

A feeding dismounting groove 45 is formed in the supporting bottom frame 8, and a feeding groove limiting part 46 is arranged at the rear end of the feeding dismounting groove 45; the feeding receiving tray 43 is laterally and slidably disassembled and assembled on the feeding disassembling groove 45 and is limited to act on the feeding groove limiting part 46 during assembly, so that the feeding receiving tray 43 is limited conveniently, and the assembling reliability of the feeding receiving tray 43 is improved.

Namely, the feeding and receiving tray 43 can be pulled and disassembled like a drawer, and has simple structure and convenient disassembly and assembly.

The feeding dismounting grooves 45 are provided in two numbers, and the two feeding dismounting grooves 45 are respectively arranged on the left side and the right side of the supporting bottom frame 8.

The feeding take-up pan 43 left and right sides of this embodiment is respectively through the dismouting of the feeding dismouting groove 45 of left and right sides on supporting underframe 8 to improve the dismouting stability of feeding take-up pan 43. Meanwhile, the supporting bottom frame 8 can support the whole host casing, and the supporting bottom frame 8 is in a square frame shape, so that the bottom of the feeding channel 40 can be communicated with the supporting bottom frame 8; material can enter the infeed channel 40 through the upper infeed opening 6 and be loaded onto the elevator bucket, while material falling from the elevator bucket is smoothly collected by the infeed take-up 43 through the bottom of the infeed channel 40.

The left side and the right side of the supporting bottom frame 8 are respectively leaned against the flanging 18 of the left feeding side plate and the right feeding side plate and are mutually fixed through fasteners; the front side of the supporting bottom frame 8 depends on the lower side of the front feeding end plate flanging 20 and is fixed with each other through a fastener; the rear side of the support underframe 8 is leaned against the turning sheet of the front lower charging plate 23 and fixed with each other by fasteners.

The lifting channel casing assembly Y comprises left and right lifting side plates 9, a rear lifting end plate 10, and a front lifting end plate 11.

Flanges are arranged on the left and right lifting side plates 9, and/or the rear lifting end plate 10, and/or the front lifting end plate 11.

The left and right lifting side plates 9, the rear lifting end plate 10 and the front lifting end plate 11 are respectively leaned on through flanging and fixed with each other through fasteners, and a lifting channel 41 is formed between the fixed side plates and the front lifting end plate.

As shown in fig. 7, the periphery of the left and right lifting side plates 9 of the present embodiment is provided with left and right lifting side plate flanges 24 facing outward.

The periphery of the rear lifting end plate 10 is provided with rear lifting end plate flanges 25 towards the rear side respectively.

The periphery of the front lifting end plate 11 is respectively provided with front lifting end plate flanges 26 towards the front side.

The left and right lifting side plate flanges 24, the rear lifting end plate flanges 25 and the front lifting end plate flanges 26 are mutually depended and fixed through fasteners.

Lifting channel 41 the place ahead is provided with lifting channel maintenance mouth and lifting maintenance door 27, and lifting channel maintenance mouth sets up in the front and promotes end plate 11 below, and lifting maintenance door 27 then is located the prerequisite and promotes end plate 11 below, still is provided with area turn-ups switching door lower plate 28 below promoting maintenance door 27, and the prerequisite is promoted and still is provided with area turn-ups preceding promotion upper plate 99 above end plate turn-ups 26.

The upper side and the lower side of the rear lifting end plate flanging 25 are also provided with a rear lifting upper plate 29 with a turnover piece and a rear lifting lower plate 30.

The discharge passage housing assembly Z includes left and right discharge side plates 12, a rear discharge end plate 13, a front discharge end plate 14, and an upper discharge cover plate 15.

The left and right discharging side plates 12, the rear discharging end plate 13, the front discharging end plate 14 and the upper discharging cover plate 15 are provided with flanges.

The left and right discharging side plates 12, the rear discharging end plate 13, the front discharging end plate 14 and the upper discharging cover plate 15 are respectively supported by flanging and fixed with each other by fasteners, and form a discharging channel 42 after being fixed with each other.

As shown in fig. 8, the left and right discharge side plates 12 of the present embodiment are provided with left and right discharge side plate flanges 31 on the outer peripheries thereof, respectively.

The upper part and the lower part of the rear discharging end plate 13 are respectively provided with a rear discharging end plate flanging 32 towards the front side.

The periphery of the front discharging end plate 14 is respectively provided with front discharging end plate flanges 33 towards the front side.

The rear sides of the left and right discharging side plate flanges 31 respectively lean against the left and right sides of the rear discharging end plate 13 and are fixed with each other through fasteners; the upper sides of the left and right discharging side plate flanges 31 are respectively leaned against the left and right sides of the upper discharging cover plate 15 and are fixed with each other through fasteners.

The upper side of the front discharging end plate flanging 33 depends on the front side of the upper discharging cover plate 15 and is mutually fixed through a fastening piece.

The upper side of the rear discharging end plate flanging 32 depends on the rear side of the upper discharging cover plate 15 and is mutually fixed through a fastening piece.

The left side and the right side of the feeding maintenance door flanging 19 respectively depend on the rear sides of the left feeding side plate and the right feeding side plate 1 and are fixed with each other through fasteners.

When the lower discharging corner plate 16 is closed, the periphery of the lower discharging corner plate is respectively leaned against the lower side of the front discharging end plate flanging 33, the lower side of the left and right discharging side plate flanging 31 and the discharging middle plate 34 between the left and right discharging side plates 12.

The upper side and the lower side of the front discharging end plate flanging 33 are also provided with a front discharging upper plate 35 with a turnover piece and a front discharging lower plate 36.

A feeding channel maintenance opening 70 is formed between the rear parts of the left and right feeding side plates 1, and a hinge 56 and a locking device A are arranged between the feeding channel maintenance opening 70 and the feeding maintenance door 2; the feeding maintenance door 2 is opened or locked on the material channel maintenance opening 70 through the hinge 56 and the matched side rotation of the locking device A.

As shown in fig. 15 and 16, the feed passage housing assembly X is provided with a first feed passage flange 71 and a second feed passage flange 72, respectively, and the first feed passage flange 71 and the second feed passage flange 72 are substantially left and right feed side plate flanges 18 of the left and right feed side plates 1; the first feeding channel flanging 71 and the second feeding channel flanging 72 are respectively positioned at the left side and the right side of the feeding channel maintenance port 70; one side of the hinge 56 is fixedly arranged on the first feeding channel outward flanging 71, and the other side of the hinge is fixedly connected with one end of the feeding maintenance door 2; the locking device A is arranged between the other end of the feeding maintenance door 2 and the second feeding channel flanging 72.

The locking device a includes a locking piece 59 and a movable buckle assembly; wherein, the fastener 59 is fixedly arranged on the second feeding channel flanging 72, and the movable fastener component is movably arranged at the other end of the feeding maintenance door 2 and is fastened or separated with the fastener 59.

The arrangement of the first feed channel flanging 71 and the second feed channel flanging 72 not only improves the structural strength of the feed channel housing assembly X, but also facilitates the assembly of the hinge 56 and the locking element 59, and improves the assembly convenience and stability of the hinge 56 and the locking element 59.

Further, the movable buckle assembly comprises a fixed seat 62, a rotating member 63 and a buckle member 64; wherein, fixing base 62 is fixed to be set up on feeding maintenance door 2, rotates piece 63 and rotates the setting on fixing base 62, and with fastener 64 drive connection, fastener 64 is through the drive and the lock catch 59 lock joint or the separation of rotation piece 63.

One end of the rotating part 63 is provided with a rotating shaft 65 and is rotatably arranged on the fixed seat 62 through the rotating shaft 65, the middle part of the rotating part 63 is provided with a rotating shaft 66 and is in driving connection with the buckling part 64 through the rotating shaft 66, and the other end of the rotating part 63 is provided with a wrench part 67.

The locking piece 59 is provided with a locking part 61; one end of the fastener 64 is provided with a locking matching portion 68 and is locked with or separated from the locking portion 61 through the locking matching portion 68, and the other end of the fastener 64 is adjustably arranged on the adapting shaft 66.

The other end of the fastener 64 of the embodiment is provided with a threaded part, and the threaded part is connected with the threaded part in a threaded manner; the fastening piece 64 passes through the adapting shaft 66 in an adjustable manner through the matching of the thread part and the thread part, and the fastening piece 64 is displaced relative to the adapting shaft 66 through the thread part so as to adjust the fastening action position and force between the fastening piece 64 and the locking piece 59.

When the inside need not overhaul of feedstock channel shell subassembly X, through the side-turning feeding maintenance door 2 for feeding maintenance door 2 side direction upset is closed on feedstock channel maintenance mouth 70, then places hasp cooperation portion 68 on hasp portion 61, acts on spanner portion 67 again, makes hasp cooperation portion 68 lock joint on hasp portion 61, thereby realizes the locking of feeding maintenance door 2, has ensured the holistic leakproofness of lifting machine.

When the interior of the feeding channel shell assembly X needs to be overhauled, the locking part 68 is used for separating the locking part 61 by acting on the wrench part 67, then the locking part 68 is detached from the locking part 61, and the feeding maintenance door 2 is driven to be laterally overturned and opened on the feeding channel maintenance opening 70, so that the opening of the feeding channel maintenance opening 70 is realized.

In order to improve the opening and closing stability of the feeding maintenance door 2, two hinges 56 and two locking devices a are arranged and are respectively arranged at the left position and the right position of the feeding maintenance door 2 at intervals so as to realize stable opening and closing of the left position and the right position of the feeding maintenance door 2.

A feed channel limiting piece 73 is arranged on the inner wall of the feed channel 40; the feed service door 2 is positioned to act on the feed channel position limiter 73 when closed, i.e. the feed service door 2 is inserted into the feed channel service opening 70 after being closed, to improve the appearance trim of the feed channel housing assembly X.

A hinge and a locking device are arranged between the lifting channel maintenance opening and the lifting maintenance door 27; the lifting maintenance door 27 is opened or locked on the lifting passage maintenance opening through the matching side rotation of the hinge and the locking device.

The lifting maintenance door 27 of this embodiment is also provided with an observation window.

The bottom of the discharging channel 42 is open, a discharging channel maintenance port 57 is formed at one side of the discharging channel, and a hinge 56 and a locking device A are arranged between the discharging channel maintenance port 57 and the lower discharging corner plate 16; the lower discharging corner plate 16 is opened or locked on the discharging channel maintenance opening 57 through the matching turnover of the hinge 56 and the locking device A.

The hinges 56 and the locking devices A respectively arranged between the feeding channel maintenance opening 70 and the feeding maintenance door 2, between the lifting channel maintenance opening and the lifting maintenance door 27 and between the discharging channel maintenance opening 57 and the lower discharging corner plate 16 have the same structure.

Therefore, the hinge 56 and the locking device a between the lifting passage maintenance opening and the lifting maintenance door 27 will not be described in detail.

The hinge 56 and the locking device A between the discharging channel maintenance opening 57 and the lower discharging corner plate 16 are as shown in FIGS. 17 and 18, and a lifting channel flanging 58 is arranged on the lifting channel shell assembly Y; one side of the hinge 56 is fixedly arranged on an outward flanging 58 of the lifting channel, and the other side is fixedly connected with one end of the lower discharging corner plate 16. The arrangement of the lifting channel flanging 58 not only improves the structural strength of the lifting channel shell assembly Y, but also facilitates the assembly of the hinge 56, and improves the assembly convenience and stability.

The locking fastener 59 is arranged on the discharging channel shell assembly Z and positioned on the other side of the discharging channel maintenance opening 57, and the movable fastener assembly is movably arranged at the other end of the lower discharging corner plate 16 and is buckled with or separated from the locking fastener 59.

The discharging channel shell component Z is provided with a discharging channel flanging 60; the locking member 59 is fixedly arranged on the discharge passage flange 60 and is provided with a locking part 61. The setting of discharge passage flanging 60 has not only improved the structural strength who promotes discharge passage shell subassembly Z, and the assembly of hasp piece 59 of can also being convenient for simultaneously improves its assembly convenience and stability.

The lower discharging corner plate 16 of the present embodiment is provided with a plurality of bending corners, which not only has strong structural rigidity and is not easy to deform, but also has a smaller weight than that of an integral long plate, so that the lower discharging corner plate can be opened or closed by a worker. At the same time, since the lower discharge corner plate 16 has a plurality of bent corners, it can be restrained against the hoistway housing assembly Y by the bent corners after opening.

When the interior of the discharging channel shell assembly Z does not need to be overhauled, the lower discharging corner plate 16 is rotated, so that the lower discharging corner plate 16 is upwards overturned and closed on the discharging channel maintenance opening 57, then the lock catch matching part 68 is placed on the lock catch part 61 and acts on the wrench part 67, the lock catch matching part 68 is buckled on the lock catch part 61, the locking of the lower discharging corner plate 16 is realized, and the integral sealing performance of the elevator is ensured.

When the interior of the discharging channel shell assembly Z needs to be overhauled, the locking part 68 is used for separating the locking part 61 by acting on the wrench part 67, then the locking part 68 is detached from the locking part 61, and the lower discharging corner plate 16 is downwards overturned to be opened on the discharging channel maintenance opening 57 due to the gravity of the lower discharging corner plate, so that the discharging channel maintenance opening 57 is opened.

In order to improve the opening and closing stability of the lower discharging corner plate 16, two hinges 56 and two locking devices A are arranged and are respectively arranged at the left and right positions of the lower discharging corner plate 16 at intervals so as to realize stable opening and closing of the left and right positions of the lower discharging corner plate 16.

The hinge 56 is simple in structure, if rusting or clamping occurs, lubricating oil can be simply added to solve the problem, and daily maintenance is convenient.

An intermediate member 81 is provided at a middle position of the bottom of the discharge passage 42, and a discharge dismounting groove 47 and a discharge dismounting groove 50 are formed between both sides of the intermediate member 81 and both open sides of the bottom of the discharge passage 42, respectively. The unloading dismounting groove 47 and the unloading dismounting groove 50 are respectively arranged between two sides of the middle piece 81 and two open sides of the bottom of the unloading channel 42, so that the structure can be simplified, and the space can be reasonably utilized.

The rear end of the unloading dismounting groove 47 is provided with an unloading groove limiting part 48; the discharging receiving tray 44 is laterally and slidably mounted on the discharging mounting groove 47 and acts on the discharging groove limiting part 48 in a limiting manner during assembly, so that the limiting of the discharging receiving tray 44 is facilitated, and the assembling reliability of the discharging receiving tray 44 is improved.

The discharging take-up pan 44 can be pulled and disassembled like a drawer, and has simple structure and convenient disassembly and assembly.

Two discharge chute bodies 47 are provided, and the two discharge chute bodies 47 are provided at the side portions of the discharge hopper body 17, respectively.

The left and right sides of the discharging receiving tray 44 of the embodiment are respectively disassembled and assembled at the open position at the bottom of the discharging channel 42 through the discharging disassembling grooves 47 at the left and right sides, so that the disassembling and assembling stability of the discharging receiving tray 44 is improved. Meanwhile, the remnants remaining on the elevator bucket and not being discharged completely can be dropped through the open position at the bottom of the discharge passage 42 and smoothly collected by the discharge receiver 44.

In order to facilitate the dismouting of feeding take-up (take-up) pan 43 and unloading take-up (take-up) pan 44, the outside of feeding take-up (take-up) pan 43 and unloading take-up (take-up) pan 44 is provided with dismouting handle 49 respectively, and the user can utilize dismouting handle 49 to pull feeding take-up (take-up) pan 43, unloading take-up (take-up) pan 44 to realize the dismouting of feeding take-up (take-up) pan 43 and unloading take-up (take-up) pan 44.

The rear end of the unloading dismounting groove 50 is provided with an unloading groove limiting part 51; the discharge hopper body 17 is laterally and slidably mounted and dismounted on the discharge dismounting groove 50 and acts on the discharge groove limiting part 51 in a limiting manner during assembly, so that the limit of the discharge hopper body 17 is facilitated, and the assembly reliability of the discharge hopper body 17 is improved.

The two discharge chute assemblies 50 are provided, and the two discharge chute assemblies 50 are respectively provided on the left and right sides of the open bottom position of the discharge passage 42.

The left and right sides of the discharge hopper body 17 of this embodiment are respectively attached to and detached from the open position at the bottom of the discharge passage 42 through the discharge attachment/detachment grooves 50 on the left and right sides, thereby improving the attachment/detachment stability of the discharge hopper body 17.

Further, the discharge hopper body 17 at least comprises a hopper body 52 and sliding side edges 53 arranged at the left and right sides of the hopper body 52; the funnel body 52 is laterally slidably attached to the left and right discharge chute 50 through the left and right sliding side edges 53.

The funnel body 52 of the present embodiment is a square funnel, the top of the funnel body 52 is fixedly provided with a connecting plate 54, the connecting plate 54 is formed in the same way as the top of the funnel body 52, the funnel body 52 is fixedly connected with the sliding side edges 53 at the left and right sides through the connecting plate 54, and the bottom of the funnel body 52 is fixedly provided with a fixing ring 55.

The sliding side 53 and the connecting plate 54, the connecting plate 54 and the funnel 52, and the funnel 52 and the fixing ring 55 are fixed by welding.

The cross-section of the sliding side 53 is "ㄈ", "L", or "one". The cross section of the sliding side 53 of this embodiment is "ㄈ", the opening of the sliding side 53 is arranged toward the funnel body 52, the top of the sliding side 53 is fixedly connected with the connecting plate 54, the sliding side 53 is limited on the side arm of the discharging and disassembling slot 50 by the closed end at the outer side, and the bottom of the sliding side 53 is slidingly disassembled and assembled on the discharging and disassembling slot 50.

The discharge end of the feeding channel 40 and the feeding end of the lifting channel 41, and the discharge end of the lifting channel 41 and the feeding end of the discharging channel 42 of the present embodiment are mutually depended by the above flanges, and are mutually fixedly communicated by fasteners.

The feeding channel shell assembly X, the lifting channel shell assembly Y and the discharging channel shell assembly Z are matched in a Z shape.

Because feedstock channel shell subassembly X, promotion channel shell subassembly Y, the concatenation of discharge passage shell subassembly Z is formed by the different plate of a plurality of respectively, consequently feedstock channel shell subassembly X after the shaping, promotion channel shell subassembly Y, discharge passage shell subassembly Z are whole to be square respectively, and sanitary dead angle can not appear in inside feedstock channel 40, promotion passageway 41, discharge passage 42, when the reduction material is hidden dirty, can also be convenient for clean.

In order to make feed channel shell subassembly X, promote channel shell subassembly Y, unload the structural strength of channel shell subassembly Z better, all be provided with the connection horizontal pole between controlling the feeding curb plate 1, controlling between promoting the curb plate 9, controlling between unloading the curb plate 12, utilize the connection reinforcing effect of connecting the horizontal pole, it is more stable and reliable to make controlling between the feeding curb plate 1, controlling between promoting the curb plate 9, controlling the connection between the curb plate 12 of unloading.

In order to make the lifting device have better stability, the front feeding end plate 3 is fixedly provided with the counterweight 80, the counterweight 80 can provide counterweight stability for the lifting device, the gravity center of the lifting device is enabled to shift downwards, and therefore the lifting device can work stably even under the condition of higher lifting height.

The driving device comprises a motor 82, a speed reducer 83 and a mounting seat 84; the assembly seat 84 is fixedly arranged outside the feeding channel shell assembly X, the speed reducer 83 is arranged on the assembly seat 84, and the motor 82 is in driving connection with the speed reducer 83.

The chain wheel conveying device comprises chain wheel assemblies arranged on the inner walls of the two sides of the main machine shell, and each chain wheel assembly is connected with a traction chain in a meshing manner; the chain wheel assembly comprises a driving chain wheel 85, a driven chain wheel 86, a horizontal rotating lifting chain wheel 87, a lifting rotating horizontal chain wheel 88, a steering discharging chain wheel 89 and a horizontal rotating descending chain wheel 90. The two sides of the lifting half are respectively connected with the traction chains at the two sides in a matching way.

The driving chain wheel 85, the driven chain wheel 86 and the horizontal rotation lifting chain wheel 87 rotate in the feeding channel shell assembly X respectively; the lifting horizontal chain wheel 88, the steering discharging chain wheel 89 and the horizontal descending chain wheel 90 rotate in the discharging channel shell component Z respectively.

The driving chain wheel 85, the driven chain wheel 86, the horizontal rotation lifting chain wheel 87, the lifting rotation horizontal chain wheel 88, the steering discharging chain wheel 89 and the horizontal rotation descending chain wheel 90 on the two sides are connected through connecting rods respectively.

Specifically, as shown in fig. 5, the feed channel housing assembly X is in an L shape that is inverted to the left, the driving sprocket 85 is rotatably disposed on the right side of the feed channel housing assembly X, the driven sprocket 86 is rotatably disposed on the left side of the feed channel housing assembly X and horizontally disposed with the driving sprocket 85, and the horizontal rotation lifting sprocket 87 is rotatably disposed on the upper side of the feed channel housing assembly X and near the driving sprocket 85.

Unloading channel shell subassembly Z is the L font of falling to the side, promotes to change horizontal sprocket 88 and rotates and set up in unloading channel shell subassembly Z left side, turns to the sprocket 89 of unloading and rotates and set up in unloading channel shell subassembly Z right side, and with promote to change horizontal sprocket 88 level setting, and horizontal commentaries on classics descends sprocket 90 to rotate and sets up in unloading channel shell subassembly Z downside, and be close to the position that promotes to change horizontal sprocket 88.

The traction chain is meshed and connected with a driving chain wheel 85, a driven chain wheel 86, a horizontal rotating lifting chain wheel 87, a lifting rotating horizontal chain wheel 88, a steering discharging chain wheel 89 and a horizontal rotating descending chain wheel 90 in sequence.

The reducer 83 is in direct drive connection with the drive sprocket 85 to achieve lossless transfer of power.

The driven chain wheel 86 and the horizontal rotation descending chain wheel 90 are also respectively provided with a righting disc 91, and the righting disc 91 is arranged to guide and overturn the lifting bucket.

When the elevator bucket moves to the driven sprocket 86, it can be ensured that the opening of the elevator bucket is always facing upwards, and material can fall into the elevator bucket when entering from the upper feeding opening 6.

When the bucket is moved to the horizontal turning down sprocket 90, the bucket is turned upside down from the opening (dumping the material and discharging from the discharge bucket body 17) so that the bucket is turned right and the opening is upward.

In order to adjust the tension of the traction chain, the left feeding side plate 1 and the right feeding side plate 1 of the embodiment are respectively provided with an avoiding groove 100, the outer end of the connecting rod between the driven chain wheels 86 on two sides extends out of the avoiding groove 100 and is connected with a sliding block 101, the left feeding side plate 1 and the right feeding side plate 1 are respectively provided with a sliding seat 102, the sliding seat 102 is provided with an adjusting part, the adjusting part is in driving connection with the sliding block 101, the sliding block 101 slides on the sliding seat 102 through the driving of the adjusting part, so that the driven chain wheels 86 slide on a feeding channel shell assembly X, the tension of the traction chain is adjusted, and meanwhile, the traction chain is convenient to disassemble and assemble.

The left and right feeding side plates 1 are also provided with cover plate parts 103 corresponding to the avoiding groove 100, the sliding block 101 and the sliding seat 102, and the cover plate parts 103 can shield the avoiding groove 100, the sliding block 101 and the sliding seat 102 so as to improve the overall appearance of the lifting equipment; the adjustment action position of the adjustment member is exposed from the cover member 103 so that the user can adjust the adjustment at any time.

The outer side of the lifting channel housing assembly Y of the embodiment is further provided with an electric control cabinet, an electric control board is arranged inside the electric control cabinet, and the electric control board is electrically connected with the motor 82 and the speed reducer 83. The electric control cabinet has a waterproof function, and the motor 82 and the speed reducer 83 adopt a waterproof motor and a waterproof speed reducer, so that the outside and the inside of the whole lifting equipment can be washed by water, and the use sanitation of the equipment is improved.

Because the door bodies are respectively arranged on the feeding channel shell assembly X, the lifting channel shell assembly Y and the discharging channel shell assembly Z, when the inside of the lifting device is washed with water, only the door bodies need to be opened, and the use is convenient.

The foregoing is a preferred embodiment of the present invention, and the basic principles, principal features and advantages of the invention are shown and described. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the present invention, but various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

Claims (10)

1. A bucket lifting device, includes the host computer casing, its characterized in that: the main machine shell consists of a feeding channel shell assembly (X), a lifting channel shell assembly (Y) and a discharging channel shell assembly (Z);

the feeding channel shell assembly (X), the lifting channel shell assembly (Y) and the discharging channel shell assembly (Z) are formed by splicing a plurality of plates with flanges respectively;

a feeding receiving tray (43) is disassembled and assembled below the feeding channel shell component (X), a driving device is arranged on the outer side, and a feeding maintenance door (2) is opened and closed in a rear side rotation mode;

a discharging receiving tray (44) and a discharging hopper body (17) are arranged below the discharging channel shell component (Z) in a dismounting mode;

a lower discharging corner plate (16) is arranged between the lifting channel shell component (Y) and the discharging channel shell component (Z) in a turnover type opening and closing mode;

a chain wheel conveying device is arranged in the main machine shell and is connected with a driving device in a matched mode.

2. The bucket elevator apparatus of claim 1 wherein: the feeding channel shell assembly (X) comprises a left feeding side plate (1), a right feeding side plate (1), a feeding maintenance door (2), a front feeding end plate (3), an upper feeding cover plate (4) and an upper feeding corner plate (5);

flanges are arranged on the left and right feeding side plates (1), and/or the feeding maintenance door (2), and/or the front feeding end plate (3), and/or the upper feeding cover plate (4), and/or the upper feeding corner plate (5);

left and right feeding side plates (1), a front feeding end plate (3), an upper feeding cover plate (4) and an upper feeding corner plate (5) are respectively depended on through flanging and are mutually fixed through fasteners, and a feeding channel (40) is formed between the left and right feeding side plates and the upper feeding corner plate after the left and right feeding side plates are fixed.

3. The bucket elevator apparatus of claim 2 wherein: a feeding channel maintenance opening (70) is formed between the rear parts of the left and right feeding side plates (1), and a hinge (56) and a locking device (A) are arranged between the feeding channel maintenance opening (70) and the feeding maintenance door (2); the feeding maintenance door (2) is opened or locked on the feeding channel maintenance opening (70) through the matching lateral rotation of the hinge (56) and the locking device (A);

a counterweight (80) is fixedly arranged on the front feeding end plate (3);

the driving device is arranged on the left feeding side plate (1) and the right feeding side plate (1).

4. The bucket elevator apparatus of claim 2 wherein: an upper feeding opening (6) is formed in the upper feeding cover plate (4), and the upper feeding opening (6) is communicated with the feeding end of the feeding channel; the upper feeding opening (6) is also provided with a feeding guide flanging (7) corresponding to the feeding end of the feeding channel;

the bottom of the feeding channel (40) is open and provided with a supporting bottom frame (8), and the supporting bottom frame (8) is mutually dependent on the flanges of the left and right feeding side plates (1), and/or the feeding maintenance door (2), and/or the front feeding end plate (3) and is mutually fixed through fasteners;

a feeding dismounting groove (45) is arranged on the supporting bottom frame (8), and a feeding groove limiting part (46) is arranged at the rear end of the feeding dismounting groove (45); the feeding receiving disc (43) is laterally and slidably assembled on the feeding assembling groove (45) and acts on the feeding groove limiting part (46) in a limiting way during assembly.

5. The bucket elevator apparatus of claim 1 wherein: the lifting channel shell assembly (Y) comprises a left lifting side plate (9), a right lifting side plate (9), a rear lifting end plate (10) and a front lifting end plate (11);

flanges are arranged on the left and right lifting side plates (9), and/or the rear lifting end plate (10), and/or the front lifting end plate (11);

the left and right lifting side plates (9), the rear lifting end plate (10) and the front lifting end plate (11) are respectively supported by flanging and fixed with each other by fasteners, and a lifting channel (41) is formed between the left and right lifting side plates and the front lifting end plate after the left and right lifting side plates and the rear lifting end plate are fixed with each other;

a lifting channel maintenance port and a lifting maintenance door (27) are arranged in front of the lifting channel (41); a hinge and a locking device are arranged between the lifting channel maintenance opening and the lifting maintenance door (27); the lifting maintenance door (27) is opened or locked on the lifting channel maintenance opening through the matching lateral rotation of the hinges and the locking devices.

6. The bucket elevator apparatus of claim 1 wherein: the discharging channel shell assembly (Z) comprises a left discharging side plate, a right discharging side plate (12), a rear discharging end plate (13), a front discharging end plate (14), an upper discharging cover plate (15) and a lower discharging corner plate (16);

flanges are arranged on the left and right discharging side plates (12), and/or the rear discharging end plate (13), and/or the front discharging end plate (14), and/or the upper discharging cover plate (15);

the left and right discharging side plates (12), the rear discharging end plate (13), the front discharging end plate (14) and the upper discharging cover plate (15) are respectively supported through flanging and fixed with each other through fasteners, and a discharging channel (42) is formed between the fixed side plates and the fixed end plate;

the bottom of the discharging channel (42) is opened, a discharging channel maintenance opening (57) is formed on one side of the discharging channel, and a hinge (56) and a locking device (A) are arranged between the discharging channel maintenance opening (57) and the lower discharging corner plate (16); the lower discharging corner plate (16) is opened or locked on the discharging channel maintenance opening (57) in a turnover way through the matching of the hinge (56) and the locking device (A).

7. The bucket elevator apparatus of claim 6 wherein: an intermediate piece (81) is arranged in the middle of the bottom of the discharging channel (42), and a discharging dismounting groove (47) and a discharging dismounting groove (50) are formed between two sides of the intermediate piece (81) and two open sides of the bottom of the discharging channel (42) respectively;

a discharge chute limiting part (48) is arranged at the rear end of the discharge dismounting chute (47); the discharging receiving tray (44) is laterally and slidably assembled on the discharging assembling groove (47) and acts on the discharging groove limiting part (48) in a limiting way during assembly;

the rear end of the unloading dismounting groove (50) is provided with an unloading groove limiting part (51); the discharge hopper body (17) is laterally and slidably assembled and disassembled on the discharge disassembling groove (50) and is limited to act on the discharge groove limiting part (51) during assembly.

8. The bucket elevator apparatus of claim 1 wherein: the feeding channel shell assembly (X), the lifting channel shell assembly (Y) and the discharging channel shell assembly (Z) are matched in a Z shape;

the driving device comprises a motor (82), a speed reducer (83) and an assembly seat (84); the assembly seat (84) is fixedly arranged on the outer side of the feeding channel shell assembly (X), the speed reducer (83) is arranged on the assembly seat (84), and the motor (82) is in driving connection with the speed reducer (83).

9. The bucket elevator apparatus of claim 8 wherein: the chain wheel conveying device comprises chain wheel assemblies arranged on the inner walls of the two sides of the main machine shell, and each chain wheel assembly is connected with a traction chain in a meshing manner; the chain wheel assembly comprises a driving chain wheel (85), a driven chain wheel (86), a horizontal rotating lifting chain wheel (87), a lifting rotating horizontal chain wheel (88), a steering discharging chain wheel (89) and a horizontal rotating descending chain wheel (90);

the driving chain wheel (85), the driven chain wheel (86) and the horizontal rotation lifting chain wheel (87) respectively rotate in the feeding channel shell assembly (X); the lifting rotating horizontal chain wheel (88), the steering discharging chain wheel (89) and the horizontal rotating descending chain wheel (90) respectively rotate in the discharging channel shell component (Z).

10. The bucket elevator apparatus of claim 9 wherein: the speed reducer (83) is directly connected with the driving chain wheel (85) in a driving way;

the driven chain wheel (86) and the horizontal rotating and descending chain wheel (90) are respectively provided with a righting disc (91).

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