CN203020571U - Steering mechanism for transfusion bags - Google Patents

Abstract

The utility model relates to a steering mechanism for transfusion bags. The steering mechanism comprises a conveying belt, and a first speed changeable conveying belt and a second speed changeable conveying belt which are oppositely arranged above the conveying belt, wherein conveying planes of the first speed changeable conveying belt and the second speed changeable conveying belt are both perpendicular to a conveying plane of the conveying belt; a distance between the first speed changeable conveying belt and the second speed changeable conveying belt is consistent with the size of a circular bag opening of a transfusion bag; and conveying speeds of the conveying belt, the first speed changeable conveying belt and the second speed changeable conveying belt are different. By the steering mechanism, After being rotated for 90 degrees, the internally sealed type polypropylene transfusion bags are conveyed to the next working procedure (boxing). By changing the conveying mode of the internally sealed type polypropylene transfusion bags, the central distance between bags is reduced, and the contact area is enlarged, so that an area occupied by the next working procedure (boxing) station is reduced; the extrusion deformation probability is reduced; and the appearance and the quality of products are guaranteed.

Description

The infusion bag steering hardware

Technical field

The utility model relates to the medical apparatus production technical field, specifically a kind of infusion bag steering hardware.

Background technology

Three-in-one internal enclosed polypropylene infusion bag external form is flat type, infusion bag flat (i.e. long limit) is through after the labeling device labeling, arrive next operation (vanning) operation by tape transport, at this moment, the minor face that adjacent two infusion bag are flat is relative with minor face, cause on load-transfer device the operational throughput of infusion bag lower, also cause subsequent processing (vanning) station floor area to strengthen.In addition, between infusion bag and infusion bag, contact surface is too small, understands crimp when infusion bag is too much, affects outward appearance and the quality of product.

The utility model content

The purpose of this utility model is to provide a kind of infusion bag steering hardware for above-mentioned deficiency, and this mechanism can reduce the floor area of flat type infusion bag vanning station, increases the area of contact between infusion bag and infusion bag, crimp when preventing that infusion bag is too much.

The infusion bag steering hardware that the utility model is designed, comprise load-transfer device, it is characterized in that: it also comprises the first variable-ratio belt conveyor and the second variable-ratio belt conveyor that is oppositely arranged on the load-transfer device top, all the transport plane with load-transfer device is vertical for the transport plane of described the first variable-ratio belt conveyor and the second variable-ratio belt conveyor, the consistent size of the circular sack of the spacing between described the first variable-ratio belt conveyor and the second variable-ratio belt conveyor and infusion bag, described load-transfer device, the first variable-ratio belt conveyor and the second variable-ratio belt conveyor three's speed of transmission has velocity contrast.

The speed ratio of described load-transfer device, the first variable-ratio belt conveyor and the second variable-ratio belt conveyor three speed of transmission is 1:1.1:2.4.

Described load-transfer device is the L-type load-transfer device, one end of described L-type load-transfer device is input end, the other end is mouth, and described input end is vertical with mouth to be arranged, and described the first variable-ratio belt conveyor and the second variable-ratio belt conveyor are between the corner of input end and L-type load-transfer device.

The utility model installs two variable-ratio belt conveyor additional above original load-transfer device, by regulating the speed ratio of the first variable-ratio belt conveyor and the second variable-ratio belt conveyor three speed of transmission, thereby after reaching 90 ℃ of internal enclosed polypropylene infusion bag rotations, be transported to subsequent processing (vanning).By changing internal enclosed polypropylene infusion bag mode of movement, centre distance between bag and bag is reduced, area of contact increases, subsequent processing (vanning) station floor area is reduced, the crimp probability reduces, and product appearance and quality are protected, the subsequent processing of being more convenient for (vanning) operation, thereby reduce operative employee's labour intensity, improved work efficiency.

Description of drawings

Fig. 1 is working process schematic diagram of the present utility model.

Wherein, 1-load-transfer device, the 2-the first variable-ratio belt conveyor, the 3-the second variable-ratio belt conveyor, 4-infusion bag, 5-circular sack.

The specific embodiment

Further illustrate the utility model below in conjunction with drawings and Examples.

Embodiment: infusion bag steering hardware as described in Figure 1, comprise load-transfer device 1, be oppositely arranged on the first variable-ratio belt conveyor 2 and the second variable-ratio belt conveyor 3 of load-transfer device 1 top, the transport plane of the first variable-ratio belt conveyor 2 and the second variable-ratio belt conveyor 3 all transport plane with load-transfer device 1 is vertical, spacing between the first variable-ratio belt conveyor 2 and the second variable-ratio belt conveyor 3 and the consistent size of the circular sack 5 of infusion bag 4, said conveyer belt 1, the first variable-ratio belt conveyor 2 and the second variable-ratio belt conveyor 3 threes' speed of transmission has velocity contrast.

In technique scheme, the speed ratio of load-transfer device 1, the first variable-ratio belt conveyor 2 and second variable-ratio belt conveyor 3 three's speed of transmission is for being preferably 1:1.1:2.4, and above-mentioned speed ratio needs according to the size of infusion bag 4 and the size design of circular sack 5.

In technique scheme, load-transfer device 1 is the L-type load-transfer device, and an end of L-type load-transfer device is input end, and the other end is mouth, input end is vertical with mouth to be arranged, and the first variable-ratio belt conveyor 2 and the second variable-ratio belt conveyor 3 are between the corner of input end and L-type load-transfer device.The design of above-mentioned L-type load-transfer device has facilitated follow-up vanning operation, has shortened the occupation of land space of load-transfer device 1.

During the utility model work: load-transfer device 1 drives infusion bag 4 and moves, in the time of between the first variable-ratio belt conveyor 2 that infusion bag 4 processes are oppositely arranged and the second variable-ratio belt conveyor 3,90 degree upsets due to the velocity contrast time infusion bag 4 between load-transfer device 1, the first variable-ratio belt conveyor 2 and the second variable-ratio belt conveyor 3 threes, as described in Figure 1, turning over infusion bag 4 after turning 90 degrees is transported to mouth and carries out incasement operation.

The content that this specification sheets is not described in detail belongs to the known prior art of this area professional and technical personnel.

Claims (3)

1. infusion bag steering hardware, comprise load-transfer device (1), it is characterized in that: it also comprises the first variable-ratio belt conveyor (2) and the second variable-ratio belt conveyor (3) that is oppositely arranged on load-transfer device (1) top, all the transport plane with load-transfer device (1) is vertical for the transport plane of described the first variable-ratio belt conveyor (2) and the second variable-ratio belt conveyor (3), spacing between described the first variable-ratio belt conveyor (2) and the second variable-ratio belt conveyor (3) and the consistent size of the circular sack of infusion bag (4) (5), described load-transfer device (1), the first variable-ratio belt conveyor (2) and the second variable-ratio belt conveyor (3) three's speed of transmission has velocity contrast.

2. infusion bag steering hardware according to claim 1, it is characterized in that: the speed ratio of described load-transfer device (1), the first variable-ratio belt conveyor (2) and second variable-ratio belt conveyor (3) three's speed of transmission is 1:1.1:2.4.

3. infusion bag steering hardware according to claim 1, it is characterized in that: described load-transfer device (1) is the L-type load-transfer device, one end of described L-type load-transfer device is input end, the other end is mouth, described input end is vertical with mouth to be arranged, and described the first variable-ratio belt conveyor (2) and the second variable-ratio belt conveyor (3) are between the corner of input end and L-type load-transfer device.