CN218087678U - Multi-station material conveying equipment - Google Patents

Abstract

The application relates to multi-station material conveying equipment, which belongs to the technical field of material conveying and comprises a conveying rail, a first material conveying hopper arranged on the conveying rail in a sliding manner, a second material conveying hopper arranged on the conveying rail in a sliding manner, a first material placing station arranged on one side of the conveying rail and used for placing the first material conveying hopper/the second material conveying hopper, and a first material moving device used for moving the first material conveying hopper/the second material conveying hopper from the conveying rail to the first material placing station; the first material moving device comprises a first moving component, a second moving component and a first lifting component, wherein the first moving component is arranged below the conveying track and is in sliding butt joint with the lower portion of the first material conveying hopper/the second material conveying hopper, the second moving component is arranged on the first material placing station and is in sliding butt joint with the lower portion of the first material conveying hopper/the second material conveying hopper, and the first lifting component is used for driving the first moving component to lift. This application can make things convenient for first fortune hopper and second fortune hopper to fail oil part and non-oil part respectively on delivery track, and can reduce the condition of taking place to interfere between first fortune hopper and the second fortune hopper.

Description

Multi-station material conveying equipment

Technical Field

The application relates to the technical field of material conveying, in particular to multi-station material conveying equipment.

Background

With the gradual increase of the industrial automation degree, during the production process, when a workpiece is transported from one processing device to another processing device, the workpiece is generally transported by a transporting device. Defeated material equipment includes the delivery track and slides and set up on the delivery track and be used for supplying the fortune hopper that the work piece was placed, during the transportation work piece, pours the work piece into fortune hopper, and the fortune hopper slides on the delivery track to can carry the work piece to follow-up processingequipment department.

At present, in a production process, workpieces are produced with oil parts and non-oil parts, so that the oil parts and the non-oil parts need to be placed in different material conveying hoppers in the conveying process, the oil parts need to be placed in a first material conveying hopper, the non-oil parts need to be placed in a second material conveying hopper, and the oil parts and the non-oil parts need to be conveyed and processed through the first material conveying hopper and the second material conveying hopper separately. First fortune hopper and second fortune hopper all carry out the defeated material through same delivery track, and first fortune hopper and second fortune hopper still need promote first fortune hopper and second fortune hopper through the lift and carry out follow-up defeated material on the overhead through delivery track after carrying.

In view of the above-mentioned related art, the inventor believes that since the oil and non-oil components are not transported regularly according to the production conditions, when the oil components are transported collectively by the first transporting hopper, the second transporting hopper needs to be detached from the transporting rail, and when the oil components are transported collectively by the second transporting hopper, the first transporting hopper needs to be detached from the transporting rail, which is inconvenient in the operation process.

SUMMERY OF THE UTILITY MODEL

Carry the hopper to oil spare and non-oil spare respectively for first fortune hopper and second fortune hopper through delivery track and defeated the material, this application provides a defeated material equipment of multistation.

The application provides a defeated material equipment of multistation adopts following technical scheme:

a multi-station material conveying device comprises a conveying rail, a first material conveying hopper, a second material conveying hopper, a first material placing station and a first material moving device, wherein the first material conveying hopper is arranged on the conveying rail in a sliding mode and used for placing oil-supply parts, the second material conveying hopper is arranged on the conveying rail in a sliding mode and used for placing non-oil parts, the first material placing station is arranged on one side of the conveying rail and used for placing the first material conveying hopper/the second material conveying hopper, and the first material moving device is used for moving the first material conveying hopper/the second material conveying hopper from the conveying rail to the first material placing station; the first material moving device comprises a first moving component, a second moving component and a first lifting component, wherein the first moving component is arranged below the conveying track and is in sliding abutting joint with the first material conveying hopper/the second material conveying hopper, the second moving component is arranged on the first material placing station and is in sliding abutting joint with the first material conveying hopper/the second material conveying hopper, and the first lifting component is used for driving the first moving component to lift; the first translation assembly is driven by the first lifting assembly to have a first state and a second state, when the first translation assembly is in the first state, the first translation assembly is arranged below the conveying track, and the first conveying hopper/the second conveying hopper runs on the conveying track; when the first translation assembly is in the second state, the first translation assembly is flush with the second translation assembly in the height direction, and the first translation assembly and the second translation assembly are provided with a first abdicating track for the first conveying hopper/the second conveying hopper to move out of the conveying track.

By adopting the technical scheme, when the multi-station material conveying equipment is used for conveying the machined workpiece, the oil part is conveyed through the first material conveying hopper, the non-oil part is conveyed through the second material conveying hopper, so that the first material conveying hopper/the second material conveying hopper can slide on the conveying rail for material conveying, when the oil part is machined intensively in the machining process, the second material conveying hopper can be conveyed to the first material placing station through the first translation assembly and the second translation assembly, the first material conveying hopper can be conveyed through the conveying rail, and the interference of the second material conveying hopper on the material conveying of the first material conveying hopper in the conveying process is reduced; when the processing to non-oil spare is comparatively intensive in the course of working, can carry first fortune hopper to first putting on the material station through first translation subassembly and second translation subassembly, accessible delivery track is defeated the material to second fortune hopper from this, reduces second fortune hopper in transportation process, and first fortune hopper produces the defeated material of second fortune hopper and interferes.

Preferably, the first lifting assembly comprises a first lifting platform for mounting the first translation assembly and a first driving member for driving the first lifting platform to lift.

By adopting the technical scheme, when the first translation assembly is used for translating the first conveying hopper/the second conveying hopper, the first driving piece is started, the first driving piece drives the first lifting platform to lift, so that the first translation assembly is parallel and level to the second translation assembly in height, the first translation assembly and the second translation assembly form a first abdicating track for conveying the first conveying hopper/the second conveying hopper to the first material placing station from the conveying track, and interference of the first translation assembly on conveying of the conveying track can be reduced.

Preferably, the multi-station material conveying equipment further comprises a second material placing station arranged on one side of the conveying track and used for placing the first material conveying hopper/the second material conveying hopper.

Through adopting above-mentioned technical scheme, when using this defeated material equipment of multistation to carry out the defeated material to first fortune hopper/second fortune hopper, can place first fortune hopper/second fortune hopper on the second puts the material station, further provide one from this and put the material station and place first fortune hopper/second fortune hopper to can make things convenient for first fortune hopper/second fortune hopper to give way.

Preferably, the multi-station material conveying equipment further comprises a second material moving device for moving the first material conveying hopper/the second material conveying hopper from the conveying track to the second material placing station; the second material transferring device comprises a third transferring component, a fourth transferring component and a second lifting component, wherein the third transferring component is arranged below the conveying track and is in sliding abutting joint with the first material conveying hopper/the second material conveying hopper, the fourth transferring component is arranged on the second material placing station and is in sliding abutting joint with the first material conveying hopper/the second material conveying hopper, and the second lifting component is used for driving the third transferring component to lift; the third translation assembly is driven by the second lifting assembly to have a first state and a second state, when the third translation assembly is in the first state, the third translation assembly is arranged below the conveying track, and the first conveying hopper/the second conveying hopper runs on the conveying track; when the third translation assembly is in the second state, the third translation assembly is flush with the fourth translation assembly in the height direction, and the third translation assembly and the fourth translation assembly are provided with a second abdication track for moving the first material conveying bucket/the second material conveying bucket out of the conveying track.

By adopting the technical scheme, when the multi-station material conveying equipment is used for conveying the machined workpiece, and when oil pieces are machined intensively in the machining process, the second material conveying hopper can be conveyed to the second material placing station through the third translation assembly and the fourth translation assembly, so that the first material conveying hopper can be conveyed through the conveying rail, and the interference of the second material conveying hopper on the material conveying of the first material conveying hopper in the conveying process of the first material conveying hopper is reduced; when the processing to non-oil spare is comparatively intensive in the course of working, can put the material station to the second through third translation subassembly and fourth translation subassembly with first fortune material spare on, accessible delivery track is defeated the material to second fortune hopper from this, reduces second fortune hopper in transportation process, and first fortune hopper produces the defeated material of second fortune hopper and interferes.

Preferably, the second lifting assembly comprises a second lifting platform for mounting the third translation assembly and a second driving member for driving the second lifting platform to lift.

By adopting the technical scheme, when the third translation assembly is used for translating the first conveying hopper/the second conveying hopper, the second driving piece is started, so that the second driving piece drives the second lifting platform to lift, the third translation assembly is parallel and level to the fourth translation assembly in height, the third translation assembly and the fourth translation assembly form a second abdicating track for conveying the first conveying hopper/the second conveying hopper to the second material placing station from the conveying track, and interference of the third translation assembly on conveying of the conveying track can be reduced.

Preferably, the conveying track is provided with a guide rod which is slidably abutted against the side wall of the first material conveying hopper/the second material conveying hopper on one side far away from the first material placing station and the second material placing station.

Through adopting above-mentioned technical scheme, when first fortune hopper/second fortune hopper takes place to slide on conveying track, the lateral wall and the guide bar butt that slides of first fortune hopper/second fortune hopper, the accessible guide bar plays direction and limiting displacement to the sliding of first fortune hopper/second fortune hopper from conveying track to this the condition emergence that can reduce first fortune hopper/second fortune hopper landing from conveying track.

Preferably, the first material placing station is provided with first limiting assemblies which are slidably abutted to two opposite sides of the first material conveying hopper/the second material conveying hopper at two opposite sides of the second translation assembly.

By adopting the technical scheme, when the first translation assembly and the second translation assembly form the first abdicating track, the first conveying hopper/the second conveying hopper can perform limiting and guiding functions on the first conveying hopper/the second conveying hopper when the first conveying hopper/the second conveying hopper is slidably moved to the first material placing station through the first translation assembly and the second translation assembly, and therefore the situation that the first conveying hopper/the second conveying hopper slides off the second translation assembly can be reduced.

Preferably, the second material placing station is provided with second limiting assemblies which are slidably abutted against two opposite sides of the first material conveying hopper/the second material conveying hopper on two opposite sides of the fourth translation assembly.

By adopting the technical scheme, when the third translation assembly and the fourth translation assembly form the second abdicating track, the first material conveying hopper/the second material conveying hopper can perform limiting and guiding functions on the first material conveying hopper/the second material conveying hopper when the first material conveying hopper/the second material conveying hopper is glidingly moved to the second material placing station through the third translation assembly and the fourth translation assembly, and therefore the situation that the first material conveying hopper/the second material conveying hopper slides off the fourth translation assembly can be reduced.

Preferably, a first guide inclined plane used for the oil supply pieces to roll off is arranged in the first material conveying hopper, and a second guide inclined plane used for the non-oil supply pieces to roll off is arranged in the second material conveying hopper.

By adopting the technical scheme, when the oil piece is poured into the first conveying hopper through the blanking device, the oil piece rolls into the first conveying hopper through the first guide inclined plane, and the rolling of the oil piece can be guided and buffered through the first guide inclined plane, so that the abrasion of the oil piece in the blanking process can be reduced; when the non-oil part is poured into the second conveying hopper through the discharging device, the non-oil part falls into the second conveying hopper through the second guide inclined plane in a rolling mode, the second guide inclined plane can play a role in guiding and buffering the roller of the non-oil part, and therefore abrasion of the non-oil part in the discharging process can be reduced.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the material conveying device comprises a conveying rail, a first material conveying hopper, a second material conveying hopper, a first material placing station and a first material moving device, so that the mutual interference between the first material conveying hopper and the second material conveying hopper can be reduced in the material conveying process of the conveying rail;

2. the material placing device further comprises a second material placing station, so that a material placing station is further provided for placing the first material conveying hopper/the second material conveying hopper, and the first material conveying hopper/the second material conveying hopper can conveniently yield;

3. the utility model provides a conveying track's one side is provided with the guide bar, and accessible guide bar plays direction and limiting displacement to sliding of first fortune hopper/second fortune hopper from this, can reduce the condition emergence of first fortune hopper/second fortune hopper landing from conveying track from this.

Drawings

Fig. 1 is a schematic overall structure diagram of a multi-station conveying device according to an embodiment of the present application.

Fig. 2 is a partial structural schematic diagram of a multi-station conveying device according to an embodiment of the present application.

Fig. 3 is a schematic structural diagram of a first material conveying hopper of a multi-station material conveying device according to an embodiment of the application.

Fig. 4 is a schematic structural diagram of a second material conveying hopper of the multi-station material conveying equipment according to the embodiment of the application.

Description of reference numerals: 1. a conveying track; 11. a delivery stent; 111. a support post; 112. a supporting beam; 12. a transport drive assembly; 13. a guide rod; 14. mounting support legs; 2. a first material conveying hopper; 21. a first guide slope; 3. a second material conveying hopper; 31. a second guide slope; 4. a first material placing station; 41. a first limiting component; 411. a first limit rod; 412. a second limiting rod; 413. a first slip gap; 5. a second material placing station; 51. a second limiting component; 511. a third limiting rod; 512. a fourth limiting rod; 513. a second slip gap; 6. a first material moving device; 61. a first translation assembly; 62. a second translation assembly; 63. a first lifting assembly; 631. a first lifting platform; 632. a first driving member; 64. a first abdicating track; 7. a second material moving device; 71. a third translation assembly; 72. a fourth translation assembly; 73. a second lifting assembly; 731. a second lifting platform; 732. a second driving member; 74. and a second yield track.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

In the drawings of the embodiments of the present application, a coordinate system XYZ is provided, in which a forward direction of an X axis represents a front side, a reverse direction of the X axis represents a rear side, a forward direction of a Y axis represents a left side, a reverse direction of the Y axis represents a right side, a forward direction of a Z axis represents an upper side, and a reverse direction of the Z axis represents a lower side.

The embodiment of the application discloses defeated material equipment of multistation. Referring to fig. 1, the multi-station material conveying equipment comprises a conveying rail 1, a first material conveying hopper 2 which is arranged on the conveying rail 1 in a sliding mode and used for placing oil-supply parts, a second material conveying hopper 3 which is arranged on the conveying rail 1 in a sliding mode and used for placing non-oil parts, a first material placing station 4 which is arranged on the left side of the conveying rail 1 and used for placing the first material conveying hopper 2/the second material conveying hopper 3, a second material placing station 5 which is arranged on the left side of the conveying rail 1 and used for placing the first material conveying hopper 2/the second material conveying hopper 3, a first material moving device 6 which is used for moving the first material conveying hopper 2/the second material conveying hopper 3 from the conveying rail 1 to the first material placing station 4, and a second material moving device 7 which is used for moving the first material conveying hopper 2/the second material conveying hopper 3 from the conveying rail 1 to the second material placing station 5.

Referring to fig. 2, the conveying track 1 includes two conveying brackets 11 disposed opposite to each other in the left-right direction, and a conveying driving assembly 12 disposed on the conveying brackets 11 and slidably abutting against the bottoms of the first conveying bucket 2/the second conveying bucket 3. In this embodiment, the conveying support 11 includes a support column 111 vertically disposed on a platform such as the ground, and a supporting beam 112 slidably abutting against two sides of the first material conveying bucket 2/the second material conveying bucket 3, and the conveying driving assembly 12 is mounted on the supporting beam 112. The supporting beams 112 are set to be angle steel, so that when the first material conveying bucket 2/the second material conveying bucket 3 slide on the conveying track 1, the side edges of the supporting beams 112 can be used for guiding and limiting. The conveyor drive assembly 12 may be provided as a pulley assembly, a chain assembly, etc., shown as a pulley assembly.

Referring to fig. 2, the conveying track 1 is provided with a guide rod 13 which is slidably abutted on the side wall of the first material conveying hopper 2/the second material conveying hopper 3 at the right side far away from the first material placing station 4 and the second material placing station 5. In the present embodiment, a plurality of mounting legs 14 for fixing the wire guide bar are provided on the right side of the conveying track 1, and the guide bar 13 is welded to the mounting legs 14, so that the connection mode is stable. When the first transporting hopper 2/the second transporting hopper 3 slides on the conveying track 1, the side wall of the first transporting hopper 2/the second transporting hopper 3 slides and is abutted to the guide rod 13, so that the guide rod 13 can be used for guiding and limiting the sliding of the first transporting hopper 2/the second transporting hopper 3, and the sliding of the first transporting hopper 2/the second transporting hopper 3 from the conveying track 1 can be reduced.

Referring to fig. 2, the first material transferring device 6 includes a first translating assembly 61 disposed below the conveying track 1 and slidably abutting below the first material transporting hopper 2/the second material transporting hopper 3, a second translating assembly 62 disposed on the first material placing station 4 and slidably abutting below the first material transporting hopper 2/the second material transporting hopper 3, and a first lifting assembly 63 for driving the first translating assembly 61 to lift. In the present embodiment, the first translating assembly 61 may be provided as a pulley assembly, a chain assembly, etc., which is illustrated as a pulley assembly. The second translating assembly 62 may be provided as a pulley assembly, a chain assembly, or the like, shown in the figures as a pulley assembly.

Referring to fig. 2, the first lifting assembly 63 includes a first lifting platform 631 for mounting the first translation assembly 61, and a first driving member 632 for driving the first lifting platform 631 to lift. In this embodiment, the first driving member 632 is configured as a first cylinder, and the telescopic rod of the first cylinder is fixedly connected to the bottom side of the first lifting platform 631, so that the first lifting platform 631 can be driven to lift by the first cylinder. When the first transfer component 61 is used for translating the first conveying hopper 2/the second conveying hopper 3, the first driving component 632 is started, so that the first driving component 632 drives the first lifting platform 631 to lift, and therefore the first transfer component 61 is flush with the second transfer component 62 in height, so that the first transfer component 61 and the second transfer component 62 form a first abdicating track 64 for conveying the first conveying hopper 2/the second conveying hopper 3 from the conveying track 1 to the first material placing station 4, and therefore interference of the first transfer component 61 on material conveying of the conveying track 1 can be reduced.

Referring to fig. 2, the first translating assembly 61 is driven to have a first state and a second state via the first elevating assembly 63. When the first translating assembly 61 is in the first state, the first translating assembly 61 is disposed below the conveying track 1, and the first/second hoppers 2/3 travel on the conveying track 1. When the first transfer assembly 61 is in the second state, the first transfer assembly 61 is flush with the second transfer assembly 62 in the height direction, and the first transfer assembly 61 and the second transfer assembly 62 are formed with a first escape track 64 for the first bucket 2/the second bucket 3 to move out of the conveying track 1.

Referring to fig. 2, the first material placing station 4 is provided with first limiting assemblies 41 which are slidably abutted against two opposite sides of the first material conveying hopper 2/the second material conveying hopper 3 at two opposite sides of the second translation assembly 62. The first limiting component 41 comprises a first limiting rod 411 and a second limiting rod 412, and a first sliding gap 413 for sliding the first material conveying bucket 2/the second material conveying bucket 3 is formed between the first limiting rod 411 and the second limiting rod 412. When the first translation assembly 61 and the second translation assembly 62 form the first abdicating track 64, and the first material conveying hopper 2/the second material conveying hopper 3 slides to the first material placing station 4 through the first translation assembly 61 and the second translation assembly 62, the first limiting assembly 41 can limit and guide the first material conveying hopper 2/the second material conveying hopper 3, so that the first material conveying hopper 2/the second material conveying hopper 3 can be prevented from sliding off from the second translation assembly 62.

Referring to fig. 2, the second material transferring device 7 includes a third translating assembly 71 disposed below the conveying track 1 and slidably abutting below the first material conveying bucket 2/the second material conveying bucket 3, a fourth translating assembly 72 disposed on the second material placing station 5 and slidably abutting below the first material conveying bucket 2/the second material conveying bucket 3, and a second lifting assembly 73 for driving the third translating assembly 71 to lift. In the present embodiment, the third translation assembly 71 may be provided as a pulley assembly, a chain assembly, etc., which is illustrated as a pulley assembly in the drawings. The fourth translating assembly 72 may be provided as a pulley assembly, a chain assembly, or the like, shown as a pulley assembly.

Referring to fig. 2, the second lifting assembly 73 includes a second lifting platform 731 for mounting the third translation assembly 71, and a second driving member 732 for driving the second lifting platform 731 to lift. In this embodiment, the second driving member 732 is configured as a second cylinder, and an expansion link of the second cylinder is fixedly connected to the bottom side of the second lifting platform 731, so that the second lifting platform 731 can be driven by the second cylinder to lift. When the third translation assembly 71 is used for translating the first material conveying bucket 2/the second material conveying bucket 3, the second driving part 732 is started, so that the second driving part 732 drives the second lifting platform 731 to lift, thereby the third translation assembly 71 is flush with the fourth translation assembly 72 in height, so that the third translation assembly 71 and the fourth translation assembly 72 form a second abdicating track 74 for conveying the first material conveying bucket 2/the second material conveying bucket 3 from the conveying track 1 to the second material placing station 5, and therefore interference of the third translation assembly 71 on material conveying of the conveying track 1 can be reduced.

Referring to fig. 2, the third moving assembly 71 is driven to have a first state and a second state via the second elevating assembly 73. When the third transfer assembly 71 is in the first state, the third transfer assembly 71 is disposed below the conveying rail 1, and the first hopper 2/the second hopper 3 travel on the conveying rail 1. When the third transfer unit 71 is in the second state, the third transfer unit 71 is flush with the fourth transfer unit 72 in the height direction, and the third transfer unit 71 and the fourth transfer unit 72 are formed with a second escape track 74 for moving the first hopper 2/the second hopper 3 out of the conveying track 1.

When the multi-station material conveying equipment is used for conveying machined workpieces, when oil pieces are machined intensively in the machining process, the second material conveying hopper 3 can be conveyed to the second material placing station 5 through the third translation assembly 71 and the fourth translation assembly 72, so that the first material conveying hopper 2 can be conveyed through the conveying track 1, and the interference of the second material conveying hopper 3 on the material conveying of the first material conveying hopper 2 in the conveying process is reduced; when the processing of non-oil parts is intensive in the processing process, the first material conveying part can be conveyed to the second material placing station 5 through the third translation assembly 71 and the fourth translation assembly 72, so that the second material conveying hopper 3 can be conveyed through the conveying track 1, and the interference of the first material conveying hopper 2 on the material conveying of the second material conveying hopper 3 in the conveying process is reduced.

Referring to fig. 2, the second material placing station 5 is provided with second limiting assemblies 51 which are slidably abutted against the two opposite sides of the first material conveying hopper 2/the second material conveying hopper 3 at the front and back opposite sides of the fourth translation assembly 72. The second limiting component 51 comprises a third limiting rod 511 and a fourth limiting rod 512, and a second sliding gap 513 for the first material conveying bucket 2/the second material conveying bucket 3 to slide is formed between the third limiting rod 511 and the fourth limiting rod 512. When the third translation assembly 71 and the fourth translation assembly 72 form the second abdicating track 74, and the first material conveying bucket 2/the second material conveying bucket 3 is slid onto the second material placing station 5 through the third translation assembly 71 and the fourth translation assembly 72, the second limiting assembly 51 can limit and guide the first material conveying bucket 2/the second material conveying bucket 3, so that the first material conveying bucket 2/the second material conveying bucket 3 can be prevented from sliding off the fourth translation assembly 72.

Referring to fig. 3, a first guide slope 21 for the oil supply member to roll off is provided in the first hopper 2. When the oil piece is poured into the first conveying hopper 2 through the blanking device, the oil piece rolls into the first conveying hopper 2 through the first guide inclined surface 21, and the rolling of the oil piece can be guided and buffered through the first guide inclined surface 21, so that the abrasion of the oil piece in the blanking process can be reduced.

Referring to fig. 4, a second guide slope 31 for allowing the non-oil members to roll off is provided in the second hopper 3. When the non-oil part is poured into the second conveying hopper 3 through the blanking device, the non-oil part rolls into the second conveying hopper 3 through the second guide inclined surface 31, and the roller of the non-oil part can be guided and buffered through the second guide inclined surface 31, so that the abrasion of the non-oil part in the blanking process can be reduced.

The implementation principle of the multi-station material conveying equipment in the embodiment of the application is as follows:

when using this defeated material equipment of multistation to fail the material to the processing work piece, carry out defeated material through first fortune hopper 2 to oil spare, fail the material through second fortune hopper 3 to non-oil spare for first fortune hopper 2 and second fortune hopper 3 can slide on delivery track 1 and fail the material.

When the processing of oil spare is comparatively intensive in the course of working, can carry second fortune hopper 3 to put on the material station 4 through first translation subassembly 61 and second translation subassembly 62 on first, also can carry second fortune hopper 3 to put on the material station 5 through third translation subassembly 71 and fourth translation subassembly 72 on the second, accessible conveying track 1 is defeated to first fortune hopper 2 from this, reduces first fortune hopper 2 in transportation process, and second fortune hopper 3 produces the defeated material of first fortune hopper 2 and interferes.

When the machining of non-oil parts is intensive in the machining process, the first conveying hopper 2 can be conveyed to the first material placing station 4 through the first translation assembly 61 and the second translation assembly 62, the first conveying hopper 2 can also be conveyed to the second material placing station 5 through the third translation assembly 71 and the fourth translation assembly 72, therefore, the second conveying hopper 3 can be conveyed through the conveying track 1, and the interference of the first conveying hopper 2 to the conveying of the second conveying hopper 3 in the conveying process of the second conveying hopper 3 is reduced.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The multi-station material conveying equipment is characterized by comprising a conveying rail (1), a first material conveying hopper (2) which is arranged on the conveying rail (1) in a sliding mode and used for placing oil-supply parts, a second material conveying hopper (3) which is arranged on the conveying rail (1) in a sliding mode and used for placing non-oil parts, a first material placing station (4) which is arranged on one side of the conveying rail (1) and used for placing the first material conveying hopper (2)/the second material conveying hopper (3), and a first material moving device (6) which is used for moving the first material conveying hopper (2)/the second material conveying hopper (3) from the conveying rail (1) to the first material placing station (4); the first material transferring device (6) comprises a first transferring component (61) which is arranged below the conveying track (1) and is in sliding butt joint with the lower portions of the first material conveying hopper (2)/the second material conveying hopper (3), a second transferring component (62) which is arranged on the first material placing station (4) and is in sliding butt joint with the lower portions of the first material conveying hopper (2)/the second material conveying hopper (3), and a first lifting component (63) for driving the first transferring component (61) to lift;

the first translation assembly (61) is driven by the first lifting assembly (63) to have a first state and a second state, when the first translation assembly (61) is in the first state, the first translation assembly (61) is arranged below the conveying track (1), and the first conveying hopper (2)/the second conveying hopper (3) travel on the conveying track (1); when the first translation assembly (61) is in the second state, the first translation assembly (61) is flush with the second translation assembly (62) in the height direction, and the first translation assembly (61) and the second translation assembly (62) are formed with a first concession track (64) for moving the first transporting hopper (2)/the second transporting hopper (3) out of the conveying track (1).

2. The multi-station material conveying apparatus according to claim 1, wherein the first lifting assembly (63) comprises a first lifting platform (631) for mounting the first translation assembly (61) and a first driving member (632) for driving the first lifting platform (631) to lift.

3. The multi-station conveying equipment as claimed in claim 1, further comprising a second material placing station (5) arranged on one side of the conveying track (1) and used for placing the first conveying hopper (2)/the second conveying hopper (3).

4. A multi-station conveying apparatus according to claim 3, further comprising a second transfer device (7) for transferring the first/second conveying hopper (2, 3) from the conveying track (1) to the second material placing station (5); the second material transferring device (7) comprises a third transferring component (71) which is arranged below the conveying track (1) and is in sliding abutting joint with the lower parts of the first material conveying hopper (2)/the second material conveying hopper (3), a fourth transferring component (72) which is arranged on the second material placing station (5) and is in sliding abutting joint with the lower parts of the first material conveying hopper (2)/the second material conveying hopper (3), and a second lifting component (73) for driving the third transferring component (71) to lift;

the third translation assembly (71) has a first state and a second state through the driving of the second lifting assembly (73), when the third translation assembly (71) is in the first state, the third translation assembly (71) is arranged below the conveying track (1), and the first conveying hopper (2)/the second conveying hopper (3) travel on the conveying track (1); when the third translation assembly (71) is in the second state, the third translation assembly (71) is flush with the fourth translation assembly (72) in the height direction, and the third translation assembly (71) and the fourth translation assembly (72) are formed with a second abdicating track (74) for moving the first transporting hopper (2)/the second transporting hopper (3) out of the conveying track (1).

5. The multi-station conveying equipment as claimed in claim 4, wherein the second lifting assembly (73) comprises a second lifting platform (731) for mounting the third translation assembly (71) and a second driving member (732) for driving the second lifting platform (731) to lift.

6. A multi-station conveying device according to claim 3, wherein the conveying track (1) is provided with a guide rod (13) which is slidably abutted against the side wall of the first conveying hopper (2)/the second conveying hopper (3) at one side away from the first material placing station (4) and the second material placing station (5).

7. A multi-station material conveying apparatus according to claim 1, wherein the first material placing station (4) is provided with first limiting assemblies (41) which are slidably abutted against the opposite sides of the first material conveying hopper (2)/the second material conveying hopper (3) at the opposite sides of the second translation assembly (62).

8. A multi-station conveying equipment according to claim 4, characterized in that the second material placing station (5) is provided with second limiting assemblies (51) which are slidably abutted against the opposite sides of the first conveying hopper (2)/the second conveying hopper (3) at the opposite sides of the fourth translation assembly (72).

9. A multi-station conveying apparatus as claimed in claim 1, wherein a first guide slope (21) for the oil-fed parts to roll off is provided in the first conveying hopper (2), and a second guide slope (31) for the non-oil-fed parts to roll off is provided in the second conveying hopper (3).

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