CN217147611U

CN217147611U - High-efficient switching-over, automatic jacking move equipment of carrying

Info

Publication number: CN217147611U
Application number: CN202220754784.7U
Authority: CN
Inventors: 成枫
Original assignee: Guangdong Yunshan Supply Chain Technology Co ltd
Current assignee: Guangdong Yunshan Supply Chain Technology Co ltd
Priority date: 2022-04-02
Filing date: 2022-04-02
Publication date: 2022-08-09
Anticipated expiration: 2032-04-02

Abstract

The utility model provides a high-efficiency reversing and automatic jacking transfer equipment, which comprises a transverse conveying device and a transverse driving roller, wherein the transverse conveying device comprises a first transverse driving wheel, a second transverse driving wheel, a first pinch roller and a second pinch roller; the first pinch roller and the second pinch roller are arranged between the first transverse transmission wheel and the second transverse transmission wheel and are positioned above the transverse driving roller; the distance between the first pinch roller and the second pinch roller is less than the outer diameter of the transverse driving roller, a conveying belt is wound on the first transverse driving wheel, the second transverse driving wheel, the first pinch roller, the second pinch roller and the transverse driving roller, the contact area of the conveying belt and the transverse driving roller is larger than the side area of one half of the transverse driving roller, and the contact area between the conveying belt and the transverse driving roller is large; the transverse driving roller drives the conveying belt to move efficiently, and the conveying belt is high in transmission speed.

Description

High-efficient switching-over, automatic jacking move equipment of carrying

Technical Field

The utility model relates to a move and carry conveying equipment technical field, concretely relates to high-efficient switching-over, automatic jacking move equipment of carrying.

Background

In the automatic conveying equipment, the upper-level conveying belt and the lower-level conveying belt need to be vertically butted under the limitation of a site; therefore, when the materials reach the lower-level conveyer belt, the materials can not move along the conveying direction of the upper-level conveyer belt. The jacking transfer equipment is used for sorting and reversing the materials, and meanwhile, the jacking transfer equipment is arranged to continuously convey the materials along the conveying direction of the upper-level conveying belt.

The patent document with the Chinese application number of 202020797394.9 and the publication number of 2021.4.9 discloses an electric cam jacking transfer machine, which comprises a rack, a base, a conveying roller and a belt transfer device, wherein the conveying roller is arranged on the rack, and a plurality of conveying rollers are arranged; the belt transfer device is provided with at least 2 groups, each group of belt transfer device is positioned between two adjacent conveying rollers, and the more than two belt transfer devices are synchronously driven by the electric rollers; the two ends of the bottom of the belt transfer device are respectively provided with a jacking plate, the middle position of the bottom of the jacking plate is provided with a cam jacking device, and the cam jacking device is used for driving the belt transfer device to lift.

This jacking moves carries machine and carries out the tensioning through the pinch roller to the conveyer belt, makes conveyer belt and motorized pulley laminating, but distance length between two pinch rollers is greater than motorized pulley's external diameter, and the conveyer belt is around establishing when pinch roller and motorized pulley, and the conveyer belt between pinch roller and the motorized pulley is the slope setting like this, and the incline direction leans out near the pinch roller direction along electronic rolling, and area of contact between conveyer belt and the motorized pulley is little like this, and then the transmission speed of conveyer belt is slow.

Disclosure of Invention

The utility model provides a high-efficiency reversing and automatic jacking transfer equipment; the contact area between the pinch roller and the electric roller is large, and the transmission speed of the conveying belt is high.

In order to achieve the above purpose, the technical scheme of the utility model is that: a high-efficient reversing, automatic jacking move equipment, including the stander, more than two longitudinal conveyor and more than two horizontal conveyor, horizontal conveyor and longitudinal conveyor set up along the direction of delivery of the longitudinal conveyor alternately, more than two horizontal conveyor connect with the jacking apparatus, more than two horizontal conveyors are driven synchronously through the horizontal driving roller, more than two vertical conveyors are driven synchronously through the longitudinal drive unit, the horizontal conveyor includes the horizontal support, the first horizontal drive wheel, the second horizontal drive wheel, the first pinch roller, the second pinch roller and conveyer belt; the first transverse transmission wheel is arranged at one end of the top of the transverse frame body, and the second transverse transmission wheel is arranged at the other end of the top of the transverse frame body; the transverse driving roller is arranged at the bottom of the transverse frame body; the first pinch roller and the second pinch roller are arranged between the first transverse transmission wheel and the second transverse transmission wheel and are positioned above the transverse driving roller; the distance between the first pinch roller and the second pinch roller is less than the outer diameter of the transverse driving roller.

An outlet is arranged at the bottom of the transverse frame body; the outlet is positioned between the first pinch roller, the second pinch roller and the transverse driving roller; the conveying belt passes through the outlet and is wound on the first transverse driving wheel, the second transverse driving wheel, the first pinch roller, the second pinch roller and the transverse driving roller.

The conveying belt comprises a first inclined part arranged between the first pinch roller and the transverse driving roller and a second inclined part arranged between the second pinch roller and the transverse driving roller; the first inclined portion and one end of the second inclined portion, which are far away from the transverse driving roller, are close to each other.

According to the arrangement, the first inclined part and the second inclined part are far away from the transverse driving roller and are close to the center of the transverse driving roller, and the conveying belt is wound on the transverse driving roller along the axial direction of the transverse driving roller, so that the contact area of the conveying belt and the transverse driving roller is larger than the side area of one half of the transverse driving roller, and the contact area between the conveying belt and the transverse driving roller is large; the transverse driving roller drives the conveying belt to move efficiently, and the conveying belt is high in transmission speed.

Further, the horizontal heights of the top of the first pinch roller and the top of the second pinch roller are higher than the horizontal heights of the bottom of the first transverse transmission wheel and the bottom of the second transverse transmission wheel.

The conveying belt between the first transverse driving wheel and the first pinch roller is obliquely arranged, and the conveying belt between the second transverse driving wheel and the second pinch roller is obliquely arranged, so that the conveying belt is further tensioned.

Further, the distance length between the first pinch roller and the second pinch roller is smaller than the length of the outlet, and gaps are arranged between the first inclined part and the outlet edge and between the second inclined part and the outlet edge.

Above setting, first rake and second rake can not contact with the export edge, and the contact of avoiding the conveyer belt when moving causes wearing and tearing with horizontal support body.

Furthermore, the jacking device comprises a fixed piece, a movable piece and a jacking drive; the movable part sets up in the mounting top, mounting and frame fixed connection, and the jacking drive is installed on the mounting, and the expansion end of jacking drive is connected with one side of movable part, and the opposite side and the horizontal support body of movable part are connected.

Above setting is fixed the jacking drive through the mounting, and the movable end drive moving part of jacking drive goes up and down, and the moving part drives the horizontal conveyor more than two and goes up and down.

Furthermore, two sides of the top end of the rack are provided with support frames; the longitudinal conveying device comprises a first seat body, a second seat body and a longitudinal rolling shaft; the first seat body is fixed on the outer side of a support frame; the second seat body is fixed at the outer side of the other support frame, and bearings are arranged in the first seat body and the second seat body; the longitudinal roller penetrates through the bearing; a synchronous belt is sleeved between one end of the longitudinal roller and the output end of the longitudinal driving device. The longitudinal driving device simultaneously drives more than two longitudinal conveying devices to act through the synchronous belt, and the structure is simple.

Furthermore, a material blocking device is arranged on one side of the rack and comprises a material blocking support, a material blocking lifting drive and a material blocking member; the material blocking support is connected with the rack, the material blocking lifting drive is arranged on the material blocking support, and the movable end of the material blocking lifting drive is connected with the material blocking piece; the material blocking lifting drive is used for driving the material blocking part to extend and retract along the height direction of the rack.

According to the arrangement, the material blocking device is used for blocking materials, and when the materials are conveyed along the conveying direction of the longitudinal conveying device, the material blocking part extends out and blocks the materials; the face blocking piece is prevented from being separated from the longitudinal conveying device; when the materials need to be conveyed along the conveying direction of the transverse conveying device, retracting the material blocking piece; the material blocking piece releases the blocking of the material.

Furthermore, the transverse conveying device also comprises a guide piece, and the guide piece is detachably arranged on the transverse frame body and is positioned between the first transverse transmission wheel and the second transverse transmission wheel; two sides of the guide piece extend to the direction far away from the transverse frame body to form first limiting parts; a limiting groove is formed between the two first limiting parts and used for limiting the conveying belt; two sides of the guide piece extend upwards to be close to the transverse frame body to form second limiting parts; the two second limiting parts are used for clamping two sides of the transverse frame body.

According to the arrangement, the conveying belt is limited by the limiting groove, so that the conveying belt is prevented from being separated from the first transverse driving wheel and the second transverse driving wheel when moving; meanwhile, the guide piece and the transverse frame body are detachably connected, so that the installation is convenient; meanwhile, the guide piece is clamped on the transverse frame body, so that the connection is stable.

Furthermore, the support frame is provided with more than two bulges, and an installation groove is formed between every two adjacent bulges; the longitudinal roller is arranged in the mounting groove.

Above setting, through forming the mounting groove, when having the opening on the mounting groove, when the installation longitudinal roller, can be directly over the support frame with the longitudinal roller horizontal migration to the mounting groove in, simple to operate.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a top view of the present invention.

Fig. 3 is an enlarged view of a in fig. 2.

Fig. 4 is an exploded view of the middle cross conveyor, the jacking device and the frame of the present invention.

Fig. 5 is a schematic perspective view of the middle jacking device of the present invention.

Fig. 6 is an exploded view of the middle guide member and the lateral frame body according to the present invention.

Fig. 7 is the schematic diagram of the connection between the middle conveying belt and the first transverse driving wheel, the second transverse driving wheel, the first pinch roller, the second pinch roller and the transverse driving roller.

Fig. 8 is a schematic perspective view of the middle stopper device of the present invention.

Fig. 9 is an exploded view of the longitudinal conveyor and the frame according to the present invention.

Fig. 10 is a perspective view of the middle support frame of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1-10; an efficient reversing and automatic jacking transfer equipment comprises a rack 1, more than two longitudinal conveying devices 2 and more than two transverse conveying devices 3. The transverse conveying devices 3 and the longitudinal conveying devices 2 are arranged alternately in the conveying direction of the longitudinal conveying devices 2.

Two sides of the top of the frame 1 are provided with support frames 4; more than two longitudinal conveying devices 2 are arranged on the supporting frame 4. A longitudinal driving device 5 is arranged on one side of the bottom of the frame 1, and in the embodiment, the longitudinal driving device 5 is a motor. The two or more longitudinal conveyors 2 are driven synchronously by the longitudinal drive 5. The support frame 4 is provided with more than two bulges 41, and an installation groove 42 is formed between every two adjacent bulges 41; the mounting groove 42 corresponds to the longitudinal conveyor 2.

The longitudinal conveying device 2 comprises a first seat 21, a second seat 22 and a longitudinal roller 23; the first seat body 21 is fixed on the outer side of a support frame 4; the second seat 22 is fixed on the outer side of the other support frame 4, and the two support frames 4 are symmetrically arranged.

Bearings 24 are arranged in the first seat body 21 and the second seat body 22; the longitudinal roller 23 is arranged on the mounting groove 42 and penetrates through the bearing 24; a timing belt (not shown) is provided between one end of the longitudinal roller 23 and the output end of the longitudinal driving unit 5. The longitudinal driving device 5 drives more than two longitudinal conveying devices 2 to act simultaneously through the synchronous belt, and the structure is simple. By forming the mounting groove 42, the mounting groove 42 has an opening, so that the longitudinal roller 23 can be horizontally moved into the mounting groove 42 right above the support frame 4 when the longitudinal roller 23 is mounted, and the mounting is convenient.

More than two transverse conveying devices 3 are connected with a jacking device 6, and in the embodiment, two jacking devices 6 are arranged; the jacking device 6 comprises a fixed piece 61, a movable piece 62 and a jacking drive 63; in this embodiment, the jacking driver 63 is a pneumatic cylinder. The movable piece 62 is arranged above the fixed piece 61, the fixed piece 61 is fixedly connected with the top of the machine frame 1, the jacking drive 63 is arranged on the fixed piece 61, the movable end of the jacking drive 63 is connected with one side of the movable piece 62, and the other side of the movable piece 62 is connected with more than two transverse conveying devices 3. In this embodiment, the jacking device 6 is further provided with more than one jacking guide device 64, the jacking guide device 64 includes a jacking guide sleeve 641 and a jacking guide post 642, the jacking guide sleeve 641 is fixed on the fixing member 61, and the jacking guide post 642 penetrates through the jacking guide sleeve 641 and is connected with the movable member 62. The lift drive 63 drives the movable member 62 to move in the guide direction of the lift guide 64. The lifting drive 63 is fixed by the fixing member 61, the movable end of the lifting drive 63 drives the movable member 62 to lift, and the movable member 62 drives more than two transverse conveying devices 3 to lift.

The transverse conveying device 3 comprises a transverse frame 31, a first transverse transmission wheel 32, a second transverse transmission wheel 33, a first pinch roller 34, a second pinch roller 35 and a conveying belt 36. One jacking device 6 is connected with one side of the bottom of the transverse frame body 31, and the other jacking device 6 is connected with the other side of the bottom of the transverse frame body 31.

The first transverse transmission wheel 32 is arranged at one end of the top of the transverse frame body 31, and the second transverse transmission wheel 33 is arranged at the other end of the top of the transverse frame body 31; a transverse driving roller 37 is arranged at the bottom of the transverse frame body 31; the transverse driving roller 37 is fixed at the bottom of the transverse frame body 31 by a driving bracket 731. The first pinch roller 34 and the second pinch roller 35 are arranged between the first transverse transmission wheel 32 and the second transverse transmission wheel 33, the first pinch roller 34 and the second pinch roller 35 being located above the transverse driving roller 37; the length of the distance between the first pinch roller 34 and the second pinch roller 35 is less than the outer diameter of the transverse drive roller 37.

An outlet 311 is arranged at the bottom of the transverse frame body 31; the outlet 311 is located between the first pinch roller 34, the second pinch roller 35 and the transverse drive roller 37; the transport belt 36 passes through the exit 311 and is wound around the first transverse transmission wheel 32, the second transverse transmission wheel 33, the first pinch roller 34, the second pinch roller 35 and the transverse drive roller 37. The two or more traverse conveyors 2 are driven synchronously by the traverse driving rollers 37.

The conveyor belt 36 includes a first inclined portion 361 provided between the first pinch roller 34 and the transverse-driving roller 37, and a second inclined portion 362 provided between the second pinch roller 35 and the transverse-driving roller 37; the first and second

inclined portions

361 and 362 approach each other at ends distant from the lateral driving roller 37. The first inclined portion 361 and the second inclined portion 362 are away from the transverse driving roller 37 and approach to the center of the transverse driving roller 37, and since the conveying belt 36 is wound around the transverse driving roller 37 along the axial direction of the transverse driving roller 37, the contact area between the conveying belt 36 and the transverse driving roller 37 is larger than half of the lateral area of the transverse driving roller 37, and the contact area between the conveying belt 36 and the transverse driving roller 37 is large; the friction coefficient between the conveying belt 36 and the transverse driving roller 37 is large, the transverse driving roller 37 drives the conveying belt 36 to move efficiently, and the transmission speed of the conveying belt 36 is high.

In this embodiment, the horizontal heights of the top of the first pinch roller 34 and the top of the second pinch roller 35 are higher than the horizontal heights of the bottom of the first transverse transmission wheel 32 and the bottom of the second transverse transmission wheel 33; the conveying belt 36 between the first transverse transmission wheel 32 and the second transverse transmission wheel 33 is horizontally arranged, the conveying belt 36 between the first transverse transmission wheel 32 and the first pinch roller 34 is obliquely arranged and is close to the conveying belt 36 horizontally arranged between the first transverse transmission wheel 32 and the second transverse transmission wheel 33, the conveying belt 36 between the second transverse transmission wheel 33 and the second pinch roller 35 is obliquely arranged and is close to the conveying belt 36 horizontally arranged between the first transverse transmission wheel 32 and the second transverse transmission wheel 33, and the conveying belt 36 is further tensioned.

In the present embodiment, the distance between the first pinch roller 34 and the second pinch roller 35 is shorter than the length of the outlet 311, and a gap is provided between the first and second

inclined portions

361 and 362 and the edge of the outlet 311. The first inclined portion 361 and the second inclined portion 362 do not contact with the edge of the outlet 311, so that the belt 36 is prevented from contacting with the lateral frame 31 to cause abrasion during movement.

The transverse conveying device 3 further comprises a guide member 38, and the guide member 38 is detachably mounted on the transverse frame body 31 and is positioned between the first transverse transmission wheel 32 and the second transverse transmission wheel 33; two sides of the guiding element 38 extend away from the transverse frame 31 to form a first limit portion 381; a limit groove 382 is formed between the two first limit parts 381, and the limit groove 382 is used for limiting the conveying belt 36; two sides of the guiding element 38 extend towards the direction close to the transverse frame 31 to form second limiting parts 383; the two second limiting parts 383 are used for clamping two sides of the transverse frame body 31. The conveying belt 36 is limited by the limiting groove 382, so that the conveying belt 36 is prevented from being separated from the first transverse driving wheel 32 and the second transverse driving wheel 33 when moving; meanwhile, the guide piece 38 is detachably connected with the transverse frame body 31, so that the installation is convenient; while the guide 38 is clamped to the lateral frame 31 so that the connection is stable.

A material blocking device 7 is arranged on one side of the frame 1 far away from the longitudinal driving device 5, and the material blocking device 7 comprises a material blocking bracket 71, a material blocking lifting driving 72, a material blocking member 73 and a material blocking guide device 74; in this embodiment, the material blocking lifting drive 72 is an air cylinder. The material blocking bracket 71 is connected with the frame 1, the material blocking lifting drive 72 is arranged on the material blocking bracket 71, and the movable end of the material blocking lifting drive 72 is connected with the material blocking member 73; the material blocking lifting drive 72 is used for driving the material blocking member 73 to extend and retract along the height direction of the frame 1. The material blocking guide device 74 comprises a material blocking guide sleeve 741 and a material blocking guide post 742; the material blocking guide sleeve 741 is fixed on the material blocking support 71, and the material blocking guide post 742 penetrates through the material blocking guide sleeve 741 to be connected with the material blocking piece 73. The material blocking lifting drive 72 drives the material blocking member 73 to move along the guiding direction of the material blocking guide device 74. The material blocking device 7 is used for blocking materials, when the materials are conveyed along the conveying direction of the longitudinal conveying device 2, the material blocking piece 73 extends out, and the material blocking piece 73 blocks the materials; the face blocking piece is prevented from being separated from the longitudinal conveying device 2; when the material needs to be conveyed along the conveying direction of the transverse conveying device 3, the material blocking piece 73 is retracted; the material blocking member 73 releases the blocking of the material.

Through the longitudinal conveying device 2 and the transverse conveying device 3 which are alternately arranged, and the conveying directions of the longitudinal conveying device 2 and the transverse conveying device 3 are perpendicular, materials can be conveyed along the conveying direction of the longitudinal conveying device, and materials can also be conveyed along the conveying direction of the transverse conveying device. The contact area between the transverse driving roller and the conveying belt is increased, so that the conveying speed of conveying materials is increased.

Claims

1. The utility model provides a high-efficient switching-over, automatic jacking move equipment of carrying, includes the frame, vertical conveyor and the transverse conveying device more than two, transverse conveying device sets up along vertical conveyor's direction of delivery in turn with vertical conveyor, and transverse conveying device more than two is connected with the jacking device, and transverse conveying device more than two passes through transverse driving cylinder synchronous drive, and vertical conveyor more than two passes through vertical drive device synchronous drive, its characterized in that:

the transverse conveying device comprises a transverse frame body, a first transverse transmission wheel, a second transverse transmission wheel, a first pinch roller, a second pinch roller and a conveying belt; the first transverse transmission wheel is arranged at one end of the top of the transverse frame body, and the second transverse transmission wheel is arranged at the other end of the top of the transverse frame body; the transverse driving roller is arranged at the bottom of the transverse frame body; the first pinch roller and the second pinch roller are arranged between the first transverse transmission wheel and the second transverse transmission wheel and are positioned above the transverse driving roller; the distance length between the first pinch roller and the second pinch roller is smaller than the outer diameter of the transverse driving roller;

an outlet is arranged at the bottom of the transverse frame body; the outlet is positioned between the first pinch roller, the second pinch roller and the transverse driving roller; the conveying belt passes through the outlet and is wound on the first transverse driving wheel, the second transverse driving wheel, the first pinch roller, the second pinch roller and the transverse driving roller;

the conveying belt comprises a first inclined part arranged between the first pinch roller and the transverse driving roller and a second inclined part arranged between the second pinch roller and the transverse driving roller; the first inclined part and the second inclined part are close to each other at the ends far away from the transverse driving roller.

2. The efficient reversing and automatic jacking transfer equipment according to claim 1, characterized in that: the horizontal heights of the top of the first pinch roller and the top of the second pinch roller are higher than the horizontal heights of the bottom of the first transverse transmission wheel and the bottom of the second transverse transmission wheel.

3. The efficient reversing and automatic jacking transfer equipment according to claim 1, characterized in that: the distance length between the first pinch roller and the second pinch roller is smaller than the length of the outlet, and gaps are arranged between the first inclined part and the outlet edge and between the second inclined part and the outlet edge.

4. The efficient reversing and automatic jacking transfer equipment according to claim 1, characterized in that: the jacking device comprises a fixed piece, a movable piece and a jacking drive; the movable part sets up in the mounting top, mounting and frame fixed connection, and the jacking drive is installed on the mounting, and the expansion end of jacking drive is connected with one side of movable part, and the opposite side and the horizontal support body of movable part are connected.

5. The efficient reversing and automatic jacking transfer equipment according to claim 1, characterized in that: two sides of the top end of the frame are provided with support frames; the longitudinal conveying device comprises a first seat body, a second seat body and a longitudinal rolling shaft; the first seat body is fixed on the outer side of a support frame; the second seat body is fixed at the outer side of the other support frame, and bearings are arranged in the first seat body and the second seat body; the longitudinal roller penetrates through the bearing; a synchronous belt is sleeved between one end of the longitudinal roller and the output end of the longitudinal driving device.

6. The efficient reversing and automatic jacking transfer equipment according to claim 1, characterized in that: a material blocking device is arranged on one side of the rack and comprises a material blocking bracket, a material blocking lifting drive and a material blocking member; the material blocking support is connected with the rack, the material blocking lifting drive is arranged on the material blocking support, and the movable end of the material blocking lifting drive is connected with the material blocking piece; the material blocking lifting drive is used for driving the material blocking part to extend and retract along the height direction of the rack.

7. The efficient reversing and automatic jacking transfer equipment according to claim 1, characterized in that: the transverse conveying device also comprises a guide piece, and the guide piece is detachably arranged on the transverse frame body and is positioned between the first transverse transmission wheel and the second transverse transmission wheel; two sides of the guide piece extend to the direction far away from the transverse frame body to form first limiting parts; a limiting groove is formed between the two first limiting parts and used for limiting the conveying belt; two sides of the guide piece extend upwards to be close to the transverse frame body to form second limiting parts; the two second limiting parts are used for clamping two sides of the transverse frame body.

8. The efficient reversing and automatic jacking transfer equipment according to claim 5, wherein: the supporting frame is provided with more than two bulges, and an installation groove is formed between every two adjacent bulges; the longitudinal roller is arranged in the mounting groove.