CN217707494U - Shell structure of elevator - Google Patents

Abstract

The utility model relates to a shell structure of lifting machine, including the host computer casing, its 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 feed channel shell assembly, the lifting channel shell assembly and the discharge channel shell assembly are formed by splicing a plurality of plates with flanges respectively. This structure utilizes a plurality of plates that have the turn-ups to splice into feedstock channel shell subassembly respectively, promote the passageway shell subassembly, the passageway shell subassembly of unloading, not only simplify the feedstock channel shell subassembly, promote the passageway shell subassembly, the assembly cost of the passageway shell subassembly of unloading, the production and processing of being convenient for, but also can improve the feedstock 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 machine to the material, application range is improved.

Description

Shell structure of elevator

Technical Field

The utility model relates to a material transport equipment technical field specifically is a shell structure of lifting machine.

Background

The bucket elevator is suitable for lifting materials from a low position to a high position, and after the supplied materials are put into the hopper through the vibrating table, the machine automatically and continuously operates and upwards conveys the supplied materials. The conveying speed can be adjusted according to the conveying amount, the lifting height can be selected as required, and the hopper can be designed and manufactured automatically and is suitable for lifting and feeding products in industries such as food, medicine, chemical engineering and the like.

For example, chinese patent with publication No. CN103569587A discloses a bucket elevator, which comprises a housing, wherein the housing is provided with a feeding port, a discharging port, a driving wheel, a driven wheel, a transmission motor, a chain plate and a material lifting bucket, the driving wheel is connected with the transmission motor and is located at the upper part of the housing, the housing at the position corresponding to the driving wheel is provided with the discharging port, the driven wheel is connected with the driving wheel through the chain plate, the material lifting bucket is fixed on the chain plate, the driven wheel is fixedly connected to the driven shaft and is arranged at the lower part of the housing, and the housing at the position corresponding to the driven wheel is provided with the feeding port. The material is scooped up from the feeding hole below by the material lifting hopper, is lifted to the top along with the chain plate, bypasses the driving wheel and turns downwards, and the material is poured into the receiving groove from the discharging hole through the diversion trench; and empty lifting bucket gets back to the feed inlet department of casing lower part along with the link joint rotation again, is promoted after filling with the material and goes up, and the circulation is repeated like this, can promote the material to appointed height continuously.

The disadvantages are high assembly cost of the shell and poor stability. Therefore, further improvements are necessary.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a shell structure of lifting machine to overcome the weak point among the prior art.

According to shell structure of this purpose design's a lifting machine, including the host computer casing, its 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 feed channel shell assembly comprises a left feed side plate, a right feed side plate, a rear feed end plate, a front feed end plate, an upper feed cover plate and an upper feed corner plate.

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

Left and right feeding side plates, a rear feeding end plate, a front feeding end plate, an upper feeding cover plate and an upper feeding corner plate are respectively depended on through turned edges and are mutually fixed through fasteners, and a feeding channel is formed between the left and right feeding side plates, the rear feeding end plate, the front feeding end plate, the upper feeding cover plate and the upper feeding corner plate after the left and right feeding side plates and the upper feeding corner plate are fixed.

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 shell component is also provided with a supporting bottom frame, and the supporting bottom frame depends on the flanging of the left feeding side plate, the right feeding side plate, the rear feeding end plate and/or the front feeding end plate and is fixed with each other through a fastener.

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.

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, and/or the lower discharging corner plate.

The left and right discharging side plates, the rear discharging end plate, the front discharging end plate, the upper discharging cover plate and the lower discharging corner plate are respectively depended on through flanges and are mutually fixed through fasteners, and discharging channels are formed among the fixed side plates, the rear discharging end plate, the front discharging end plate, the upper discharging cover plate and the lower discharging corner plate.

The discharging end of the discharging channel is also provided with a discharging hopper body.

The discharge end of the feed channel and the feed end of the lifting channel, the discharge end of the lifting channel and the feed end of the discharge channel are respectively depended on through flanging, and are mutually fixed and communicated through fasteners.

The feeding channel shell component, the lifting channel shell component and the discharging channel shell component are matched in a Z shape or a Z shape 1255252shaped.

The utility model discloses an improvement of above-mentioned structure, utilize a plurality of plates that have the turn-ups to splice into feedstock channel shell subassembly respectively, promote the passageway shell subassembly, the passageway shell subassembly of unloading, not only simplify the feedstock channel shell subassembly, promote the passageway shell subassembly, the assembly cost of the passageway shell subassembly of unloading, the production and processing of being convenient for, but also can improve the feedstock channel shell subassembly, promote the passageway shell subassembly, the structural strength of passageway shell subassembly of unloading, thereby reduce the deformation problem of host computer casing, be favorable to increasing the promotion weight of lifting machine to the material, and the application range is widened.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention and do not constitute a limitation on the invention.

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

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

Fig. 3 and 4 are schematic exploded views of an embodiment of the present invention.

FIG. 5 is an exploded view of the feed channel housing assembly.

Fig. 6 is an exploded view of the lift channel housing assembly.

Fig. 7 is an exploded view of the discharge passage housing assembly.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more 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. The invention may be embodied in many other forms different from those described herein and similar modifications may be made by those skilled in the art without departing from the spirit and scope of the invention and, therefore, the invention is not to be limited to the specific embodiments disclosed below.

The present invention will be further described with reference to the accompanying drawings and examples.

Referring to fig. 1-7, the shell structure of the elevator comprises a main machine shell, wherein the main machine shell consists of a feed channel shell assembly X, a lifting channel shell assembly Y and a discharge channel shell assembly Z; the feed channel shell assembly X, the lifting channel shell assembly Y and the discharge channel shell assembly Z are formed by splicing a plurality of plates with flanges respectively.

This structure utilizes a plurality of plates that have the turn-ups to splice into feedstock channel shell subassembly X respectively, promote channel shell subassembly Y, discharge passage shell subassembly Z, not only simplify feedstock channel shell subassembly X, promote channel shell subassembly Y, discharge passage shell subassembly Z's assembly cost, the production and processing of being convenient for, but also can improve feedstock channel shell subassembly X, promote channel shell subassembly Y, discharge passage shell subassembly Z's structural strength, thereby reduce the deformation problem of host computer casing, be favorable to increasing the promotion weight of lifting machine to the material, and the application range is improved.

As shown in fig. 5, the feed passage housing assembly X includes left and right feed side plates 1, a rear feed end plate 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 rear feeding end plate 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 rear feeding end plate 2, 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 feeding channels are 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.

Specifically, left and right feeding side plate flanges 18 are provided on the outer peripheries of the left and right feeding side plates 1, respectively, to the outside.

And rear feeding end plate flanges 19 are respectively arranged on the periphery of the rear feeding end plate 2 towards the front side.

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 flanges 18 of the left and right feeding side plates respectively depend on 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 depends on the front side of the upper feeding cover plate 4 and is mutually fixed through a fastening piece.

The left and right sides of the rear feeding end plate flanging 19 respectively depend on the rear sides of the left and right feeding side plates 1 and are fixed with each other through fasteners, and the upper side of the rear feeding end plate flanging 19 depends on the upper feeding corner plate 5 and is fixed with each other through fasteners.

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.

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 feed channel shell assembly X is further provided with a supporting bottom frame 8, the supporting bottom frame 8 depends on the flanges of the left and right feed side plates 1, the rear feed end plate 2 and/or the front feed end plate 3, and the flanges are fixed with each other through fasteners.

The upper side and the lower side of the rear feeding end plate flanging 19 of the embodiment are also provided with a front feeding lower plate 23 and a front feeding lower plate 23 which are connected with a flanging piece.

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 material feeding end plate flanging 20 and is mutually fixed through a fastening piece; 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.

As shown in fig. 6, the lift channel housing assembly Y includes left and right lift side plates 9, a rear lift end plate 10, and a front lift 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.

Left and right lifting side plates 9, a rear lifting end plate 10 and a front lifting end plate 11 are respectively leaned on through flanging, and are mutually fixed through fasteners, and lifting channels are formed among the fixed lifting side plates, the rear lifting end plate and the front lifting end plate.

Specifically, left and right elevating side plate flanges 24 are provided on the outer peripheries of the left and right elevating side plates 9, respectively, to the outside.

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 depend on each other and are fixed with each other through fasteners.

A lifting opening and closing door 27 is further arranged below the front lifting end plate 11, a lower opening and closing door plate 28 with flanges is further arranged below the lifting opening and closing door 27, and a front lifting upper plate 38 with flanges is further arranged above the front lifting end plate flanges 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.

As shown in fig. 7, 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, an upper discharge cover plate 15, and a lower discharge corner plate 16.

The left and right discharge side plates 12, the rear discharge end plate 13, the front discharge end plate 14, the upper discharge cover plate 15 and the lower discharge corner plate 16 are provided with flanges.

The left and right discharging side plates 12, the rear discharging end plate 13, the front discharging end plate 14, the upper discharging cover plate 15 and the lower discharging corner plate 16 are respectively supported by flanging and fixed with each other by fasteners, and form a discharging channel after being fixed with each other.

Specifically, left and right discharge side plate flanges 31 are provided on the outer peripheries of the left and right discharge side plates 12, respectively, to the outside.

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 flanging 19 of the rear feeding end plate respectively lean against the rear sides of the left feeding side plate and the right feeding side plate 1 and are fixed with each other through fasteners.

The periphery of the lower discharging corner plate 16 depends on the lower side of the front discharging end plate flanging 33, the lower sides 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 respectively, and is fixedly connected with the lower side of the front discharging end plate flanging 33, the lower sides of the left and right discharging side plate flanging 31 and the discharging middle plate by fasteners respectively.

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.

The discharge end of the discharge channel is also provided with a discharge hopper body 17.

The discharge end of the feed channel and the feed end of the lifting channel, and the discharge end of the lifting channel and the feed end of the discharge channel are respectively depended on through flanging and are mutually fixedly communicated through fasteners.

The feeding channel housing assembly X, the lifting channel housing assembly Y and the discharging channel housing assembly Z are matched in a Z shape or a shape of '1255252'.

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

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

Claims (9)

1. The utility model provides a shell structure of lifting machine, 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 respectively formed by splicing a plurality of plates with flanges.

2. The shell structure of a hoisting machine as defined in claim 1, characterized in that: the feeding channel shell assembly (X) comprises a left feeding side plate (1), a right feeding side plate (1), a rear feeding end plate (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 rear feeding end plate (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 rear feeding end plate (2), 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 feeding channels are formed among the left and right feeding side plates, the rear feeding end plate, the upper feeding cover plate and the upper feeding corner plate after being fixed.

3. The shell structure of a hoisting machine as claimed in claim 2, characterized in that: 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.

4. The shell structure of a hoisting machine as claimed in claim 2, characterized in that: the bottom of the feeding channel shell component (X) is also provided with a supporting bottom frame (8), the supporting bottom frame (8) depends on the flanging of the left feeding side plate, the right feeding side plate (1), the rear feeding end plate (2) and/or the front feeding end plate (3) and is fixed with each other through a fastener.

5. The shell structure of a hoisting machine as claimed in claim 2, characterized in that: 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);

left and right lifting side plates (9), a rear lifting end plate (10) and a front lifting end plate (11) are respectively depended on through flanging and are mutually fixed through fasteners, and lifting channels are formed between the left and right lifting side plates and the front lifting end plate after the left and right lifting side plates are fixed.

6. The shell structure of a hoist as claimed in claim 5, characterized in that: 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), and/or the lower discharging corner plate (16);

left and right discharging side plates (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) are respectively depended on through flanging and are mutually fixed through fasteners, and discharging channels are formed among the fixed side plates, the rear discharging end plate, the upper discharging cover plate and the lower discharging corner plate.

7. The shell structure of a hoisting machine as claimed in claim 6, characterized in that: the discharging end of the discharging channel is also provided with a discharging hopper body (17).

8. A shell structure of a hoist as claimed in claim 6, characterized in that: the discharge end of the feed channel and the feed end of the lifting channel, the discharge end of the lifting channel and the feed end of the discharge channel are respectively depended on through flanging, and are mutually fixed and communicated through fasteners.

9. The casing structure of a hoisting machine as defined in any one of claims 1-8, characterized in that: 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 or a Z1255252shaped shape.

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