CN218200777U - Automatic logistics conveying line - Google Patents

Abstract

The utility model discloses an automatic commodity circulation transfer chain, include: the device comprises a rack, a first conveying belt, a second conveying belt, a lifting device and a conveying box; the first conveying belt and the second conveying belt are arranged in parallel, and a mounting area is arranged between the first conveying belt and the second conveying belt; the lifting devices are arranged in the installation area at intervals; the number of the transmission boxes is a plurality of transmission boxes which are arranged on the upper end surfaces of the first transmission belt and the second transmission belt, and the first transmission belt and the second transmission belt are used for lifting two sides of the lower end surfaces of the transmission boxes; the lifting device comprises a driver connected with the rack and a lifting platform arranged at the power output end of the driver, and the driver is used for driving the lifting platform to move along the vertical direction; when the driver drives the lifting platform to be positioned at a first height, the upper end surface of the lifting platform is positioned below the upper end surfaces of the first transmission belt and the second transmission belt; when the driver drives the lifting platform to be positioned at the second height, the upper end face of the lifting platform is positioned on the upper end faces of the first transmission belt and the second transmission belt.

Description

Automatic logistics conveying line

Technical Field

The application relates to the technical field of conveying devices, in particular to an automatic logistics conveying line.

Background

The conveying belt is a common conveying device for conveying materials in assembly line type production operation, and has the advantages of long conveying distance, more conveyed products and continuous and cyclic operation.

When the existing conveyor belt conveys articles, when the heavier articles are conveyed, the conveyor belt needs to be suspended, and then the articles are conveyed to a specified position from the conveyor belt, so that the safe production standard is met, because the articles obtain the conveying speed of the conveyor belt when the conveyor belt continuously conveys and operates, and the inertia is large. But need frequent start and stop drive belt pivoted driving motor, make driving motor damage easily, the life-span shortens. And the conveyer belt is provided with a plurality of heavy articles, so that the starting time of the conveyer belt is prolonged, a coil of the driving motor is easy to generate heat, the service life of the driving motor is easy to shorten, and the continuous production efficiency is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses mainly to above problem, provided an automatic commodity circulation transfer chain, aim at solving the technical problem in the background art.

In order to achieve the above object, the utility model provides an automatic commodity circulation transfer chain, include: the device comprises a rack, a first conveying belt, a second conveying belt, a lifting device and a conveying box; the first conveying belt, the second conveying belt and the lifting device are all arranged on the rack; the first conveying belt and the second conveying belt are arranged in parallel, and a mounting area is arranged between the first conveying belt and the second conveying belt; the lifting devices are arranged in the mounting area at intervals; the number of the transmission boxes is a plurality of transmission boxes which are arranged on the upper end surfaces of the first transmission belt and the second transmission belt, the first transmission belt and the second transmission belt are used for lifting two sides of the lower end surface of the transmission boxes and driving the transmission boxes to move along the length direction of the first transmission belt and the second transmission belt; the lifting device comprises a driver connected with the rack and a lifting platform arranged at the power output end of the driver, and the driver is used for driving the lifting platform to move along the vertical direction; the projection area of the lifting platform is larger than the area of the lower end face of the transmission box; when the driver drives the lifting platform to be positioned at a first height, the upper end face of the lifting platform is positioned below the upper end faces of the first transmission belt and the second transmission belt; when the driver drives the lifting platform to be located at the second height, the upper end face of the lifting platform is located on the upper end faces of the first transmission belt and the second transmission belt.

Furthermore, the first conveying belt and the second conveying belt are both provided with supporting profiles, and the first conveying belt and the second conveying belt rotate around the supporting profiles in a circulating mode.

Further, the lifting device further comprises a supporting plate, and the driver is connected with the rack through the supporting plate.

Furthermore, the lifting device also comprises a guide pillar, a guide sleeve, a support pillar and a connecting plate; the connecting plate is arranged at the power output end of the driver; the guide post is arranged on the connecting plate, the guide sleeve is arranged on the supporting plate, and the guide post is in sliding fit with the guide sleeve; the support column is connected with the connecting plate and the lifting platform.

Further, the driver is a telescopic cylinder.

The transfer mechanism comprises a conveying assembly and a material receiving assembly; the conveying assembly is a first conveying roller set arranged on the upper end face of the lifting platform; the material receiving assembly comprises a support frame arranged on one side of the rack and a second conveying roller set arranged on the support frame; the first conveying roller group and the second conveying roller group are used for conveying the conveying boxes, the conveying directions of the first conveying roller group and the second conveying roller group are overlapped, and the conveying directions of the first conveying roller group and the second conveying roller group are approximately perpendicular to the conveying directions of the first conveying belt and the second conveying belt; when the driver drives the lifting platform to be located at a third height, the upper end face of the first conveying roller set is located below the upper end faces of the first conveying belt and the second conveying belt; when the driver drives the lifting platform to be located at a fourth height, the upper end face of the first conveying roller group is located on the upper end faces of the first conveying belt and the second conveying belt, and the upper end faces of the first conveying roller group and the second conveying roller group are flush.

Furthermore, the outer side edges of the first conveying belt and the second conveying belt are provided with limiting baffles for limiting two sides of the conveying box, and the limiting baffles are connected with the rack.

Compared with the prior art, the automatic logistics conveying line provided by the utility model can enable the first conveying belt and the second conveying belt to continuously and circularly operate all the time, avoids frequently opening and closing the driving motors for driving the first conveying belt and the second conveying belt to operate, greatly prolongs the service life, and improves the production efficiency; meanwhile, the condition that workers need to directly carry objects with inertia from the upper end faces of the first conveying belt and the second conveying belt in the circulating operation is avoided, and the production operation safety is improved.

Drawings

Fig. 1 is a schematic view of an assembly structure of an automatic logistics conveying line according to the present application.

Fig. 2 is a cross-sectional view of an automated logistics conveying line of the present application.

Fig. 3 is a schematic structural diagram of a driver-driven lifting platform of an automatic logistics conveying line according to the present application, which is located at a third height.

Fig. 4 is a schematic structural view of the lifting platform driven by the driver of the automatic logistics conveying line at a fourth height according to the present application.

Reference numerals shown in the drawings: 1. a frame; 2. a first conveyor belt; 3. a second conveyor belt; 4. a lifting device; 410. a driver; 420. a lifting platform; 430. a support plate; 440. a guide post; 450. a guide sleeve; 460. a support pillar; 470. a connecting plate; 5. a transmission box; 6. an installation area; 7. supporting the section bar; 8. a transfer mechanism; 810. a delivery assembly; 820. a material receiving assembly; 821. a support frame; 822. a second conveying roller group; 9. and a limiting baffle.

Detailed Description

Referring to fig. 1 and fig. 2, the embodiment provides an automatic logistics conveying line, which includes a rack 1, a first conveying belt 2, a second conveying belt 3, a lifting device 4, and a conveying box 5; the first conveying belt 2, the second conveying belt 3 and the lifting device 4 are all arranged on the rack 1; the first conveying belt 2 and the second conveying belt 3 are arranged in parallel, and a mounting area 6 is arranged between the first conveying belt and the second conveying belt; the lifting devices 4 are arranged in the installation area 6 at intervals; the number of the transmission boxes 5 is a plurality of transmission boxes which are arranged on the upper end surfaces of the first transmission belt 2 and the second transmission belt 3, the first transmission belt 2 and the second transmission belt 3 are used for lifting two sides of the lower end surface of the transmission box 5 and driving the transmission boxes 5 to move along the length direction of the first transmission belt 2 and the second transmission belt 3; the lifting device 4 comprises a driver 410 connected with the frame 1 and a lifting platform 420 arranged at the power output end of the driver 410, wherein the driver 410 is used for driving the lifting platform 420 to move along the vertical direction; the projection area of the lifting platform 420 is larger than the area of the lower end surface of the transmission box 5; when the driver 410 drives the lifting platform 420 to be located at a first height, the upper end surface of the lifting platform 420 is located below the upper end surfaces of the first conveying belt 2 and the second conveying belt 3; when the driver 410 drives the lifting platform 420 to be located at the second height, the upper end surface of the lifting platform 420 is located on the upper end surfaces of the first transmission belt 2 and the second transmission belt 3.

The width of the first transmission belt 2 and the second transmission belt 3 is far narrower than that of the traditional whole transmission belt, and the material of the belts is saved. The transport box 5 is used to contain the conveyed articles.

By arranging a plurality of lifting devices 4 in the installation area 6 between the first conveyor belt 2 and the second conveyor belt 3, when a transport box 5 at a certain position of the conveyor line needs to be taken from the upper end surfaces of the first conveyor belt 2 and the second conveyor belt 3, the drivers 410 of all the lifting devices 4 drive the lifting platform 420 to be located at the second height. The lower end faces of all the transmission boxes 5 are released from contact with the upper end faces of the first transmission belt 2 and the second transmission belt 3, and the transmission boxes 5 are lifted, so that the transmission boxes 5 needing to be taken and placed can be conveniently and securely taken down from the upper end faces of the lifting platform 420. Then, all the drivers 410 drive the corresponding lifting platforms 420 to be at the first height, and the lower end surfaces of the transport boxes 5 are contacted with the upper end surfaces of the first transport belts 2 and the second transport belts 3 again to receive the transport of the first transport belts 2 and the second transport belts 3.

By adopting the design, the first conveying belt 2 and the second conveying belt 3 can continuously and circularly operate all the time, the driving motor for driving the first conveying belt 2 and the second conveying belt 3 to operate is prevented from being frequently started and stopped, the service life is greatly prolonged, and the production efficiency is improved; meanwhile, the condition that workers need to directly carry articles with inertia from the upper end faces of the first conveying belt 2 and the second conveying belt 3 in the circulating operation is avoided, and the production operation safety is improved.

Referring to fig. 2 to 4, the first conveyor belt 2 and the second conveyor belt 3 are both provided with a support profile 7, and the first conveyor belt 2 and the second conveyor belt 3 rotate circularly around the support profile 7.

The supporting section bars 7 support the first conveying belt 2 and the second conveying belt 3, so that even if the widths of the first conveying belt 2 and the second conveying belt 3 are far narrower than those of the traditional whole conveying belt, the heavy objects can be supported.

Referring to fig. 2, the lifting device 4 further includes a supporting plate 430, and the driver 410 is connected to the frame 1 through the supporting plate 430.

Referring to fig. 1 and 2, the lifting device 4 further includes a guide pillar 440, a guide sleeve 450, a support pillar 460, and a connecting plate 470; the connecting plate 470 is mounted at the power output end of the driver 410; the guide post 440 is mounted on the connecting plate 470, the guide sleeve 450 is mounted on the supporting plate 430, and the guide post 440 is slidably engaged with the guide sleeve 450; the support column 460 connects the connection plate 470 with the lifting platform 420.

The precision of the driver 410 driving the lifting platform 420 to move along the vertical direction is improved through the direction guidance of the guide pillar 440 and the guide sleeve 450.

Referring to fig. 2 and 4, preferably, the driver 410 is a telescopic cylinder.

Referring to fig. 1 to 4, the transfer device includes a transfer mechanism 8, where the transfer mechanism 8 includes a conveying assembly 810 and a receiving assembly 820; the conveying assembly 810 is a first conveying roller group arranged on the upper end surface of the lifting platform 420; the receiving assembly 820 comprises a supporting frame 821 arranged on one side of the rack 1 and a second conveying roller group 822 arranged on the supporting frame 821; the first and second conveying roller sets 822 are used for conveying the conveying boxes 5, the conveying directions of the first and second conveying roller sets 822 are overlapped, and the conveying directions of the first and second conveying roller sets 822 are approximately perpendicular to the conveying directions of the first and second conveying belts 2 and 3; when the driver 410 drives the lifting platform 420 to be located at the third height, the upper end surface of the first conveying roller set is located below the upper end surfaces of the first conveying belt 2 and the second conveying belt 3; when the driver 410 drives the lifting platform 420 to be located at a fourth height, the upper end surfaces of the first conveying roller set are located on the upper end surfaces of the first conveying belt 2 and the second conveying belt 3, and the upper end surfaces of the first conveying roller set and the second conveying roller set 822 are flush.

In some embodiments, the first and second sets of conveyor rollers 822 can be rollers that rotate with active power, driven by a motor or a sprocket set. The first and second transfer roller sets 822 may also be conventional roller sets mounted on the support frame.

The receiving assembly 820 is equivalent to a processing station in an actual production line, in the actual production line, instead of monotonously conveying articles from one end of the production line to the other end of the production line by using a conveyor belt, processing stations such as assembling and checking stations are generally arranged on two sides of the conveyor belt; and the article need be carried to the processing station from the transmission band, just can carry out subsequent operation.

In combination with the lifting device 4, the material receiving assembly 820 corresponds to a processing position in a production line, the conveying assembly 810 corresponding to the material receiving assembly 820 is conveyed with the conveying box 5 containing the article to be processed, the driver 410 of the conveying assembly 810 drives the lifting platform 420 to be located at the fourth height, and the conveying box 5 is conveyed to the second conveying roller set 822 through the rotation of the first conveying roller set. The driver 410 then drives the lifting platform 420 to a third height, which facilitates the transportation of the first and second conveyor belts 2, 3 to the subsequent transport box 5. When the articles on the upper end of the second roller set 822 are processed, the corresponding driver 410 drives the lifting platform 420 to a fourth height, so that the transport box 5 is transported back to the upper end of the first and second transport belts 2 and 3 by the transport assembly 810.

When the driver 410 drives the lifting platform 420, the height is determined by the extension of the telescopic rod of the cylinder.

Referring to fig. 1 and 2, the outer sides of the first conveyor belt 2 and the second conveyor belt 3 are provided with a limiting baffle 9 for limiting two sides of the conveying box 5, and the limiting baffle 9 is connected to the frame 1.

The limit baffle 9 forms a track to prevent the conveyed conveying box 5 from separating from the first conveying belt 2 and the second conveying belt 3 and falling.

Claims (7)

1. An automatic logistics conveying line is characterized by comprising a rack, a first conveying belt, a second conveying belt, a lifting device and a conveying box; the first conveying belt, the second conveying belt and the lifting device are all arranged on the rack; the first conveying belt and the second conveying belt are arranged in parallel, and a mounting area is arranged between the first conveying belt and the second conveying belt; the lifting devices are arranged in the mounting area at intervals; the number of the transmission boxes is a plurality of transmission boxes which are arranged on the upper end surfaces of the first transmission belt and the second transmission belt, the first transmission belt and the second transmission belt are used for lifting two sides of the lower end surface of the transmission boxes and driving the transmission boxes to move along the length direction of the first transmission belt and the second transmission belt; the lifting device comprises a driver connected with the rack and a lifting platform arranged at the power output end of the driver, and the driver is used for driving the lifting platform to move along the vertical direction; the projection area of the lifting platform is larger than the area of the lower end face of the transmission box; when the driver drives the lifting platform to be positioned at a first height, the upper end face of the lifting platform is positioned below the upper end faces of the first transmission belt and the second transmission belt; when the driver drives the lifting platform to be located at the second height, the upper end face of the lifting platform is located on the upper end faces of the first transmission belt and the second transmission belt.

2. The automatic logistics conveying line of claim 1, wherein the first conveying belt and the second conveying belt are provided with a supporting profile, and the first conveying belt and the second conveying belt rotate circularly around the supporting profile.

3. The automated logistics conveyance line of claim 1, wherein the lifting device further comprises a support plate, and the drive is connected to the frame through the support plate.

4. The automatic logistics conveying line of claim 3, wherein the lifting device further comprises a guide pillar, a guide sleeve, a support pillar, and a connecting plate; the connecting plate is arranged at the power output end of the driver; the guide post is arranged on the connecting plate, the guide sleeve is arranged on the supporting plate, and the guide post is in sliding fit with the guide sleeve; the support column is connected with the connecting plate and the lifting platform.

5. The automated logistics transfer line of claim 1 wherein said actuator is a telescopic cylinder.

6. The automatic logistics conveying line according to claim 1, comprising a transfer mechanism, wherein the transfer mechanism comprises a conveying assembly and a receiving assembly; the conveying assembly is a first conveying roller set arranged on the upper end face of the lifting platform; the material receiving assembly comprises a support frame arranged on one side of the rack and a second conveying roller set arranged on the support frame; the first conveying roller group and the second conveying roller group are used for conveying the conveying boxes, the conveying directions of the first conveying roller group and the second conveying roller group are overlapped, and the conveying directions of the first conveying roller group and the second conveying roller group are approximately perpendicular to the conveying directions of the first conveying belt and the second conveying belt; when the driver drives the lifting platform to be located at a third height, the upper end face of the first conveying roller set is located below the upper end faces of the first conveying belt and the second conveying belt; when the driver drives the lifting platform to be located at a fourth height, the upper end face of the first conveying roller group is located on the upper end faces of the first conveying belt and the second conveying belt, and the upper end faces of the first conveying roller group and the second conveying roller group are flush.

7. The automatic logistics conveying line according to claim 1, wherein limiting baffles for limiting two sides of the conveying box are arranged on outer side edges of the first conveying belt and the second conveying belt, and the limiting baffles are connected with the rack.

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