CN110155797B - Medical treatment is with cloth overlapping formula production line - Google Patents

Abstract

The invention relates to a medical cloth laminated production line, which comprises a base platform, wherein a conveyor belt is arranged at the right part of the base platform, belt wheels are connected to the front side and the rear side of the conveyor belt, and each belt wheel is connected with a rotating shaft; the rotating shaft positioned at the rear side is arranged on the base platform through a bearing seat. The base platform is respectively and fixedly provided with a guide frame, a guide rail and a vertical plate for installing a rotating shaft positioned on the front side through a bearing; the motor is installed in the riser center, and the motor is connected with incomplete gear, incomplete gear meshing cooperation has the rear gear respectively and installs the front gear in the pivot that is located the front side. The invention has high automation degree, can control the backward intermittent conveying of the conveying belt and the forward and reverse rotation of the two driven frames at the same time by the gear-tooth alternate meshing transmission and the rope belt transmission, further realizes the left-right folding type primary stacking of large batches of medical cloth one by one, and is relatively convenient to use.

Description

Medical treatment is with cloth overlapping formula production line

Technical Field

The invention relates to mechanical equipment, in particular to a cloth laminated production line for medical treatment.

Background

Generally, during the surgical treatment of a patient by a doctor, particularly during a surgical operation, a large amount of liquid such as blood, body fluid, and a disinfectant liquid is generated, and it is necessary to wipe the liquid with a medical cloth which mainly depends on its own water absorption property, and in order to enable an operator to use the liquid better, a single medical cloth which is a finished product needs to be laminated into 4 layers in an actual production process, so that the liquid can be better absorbed during use.

The actual lamination process is performed twice, wherein the preliminary lamination process is performed by folding and laminating the left and right side portions of each medical cloth toward the middle portion thereof at the same time, and then the second lamination process is performed by facing along the middle portion of the medical cloth. The laminating mode is fast, the laminating mode is relatively neat, the outer tube is exquisite, but the problem is that the traditional mechanical equipment for preliminarily laminating a large amount of medical cloth is difficult to realize in the first step.

Disclosure of Invention

The invention provides a medical cloth laminated production line for achieving primary lamination of a large amount of medical cloth.

The technical problem to be solved by the invention is realized by adopting the following technical scheme:

a cloth laminated production line for medical use comprises a base platform, wherein a conveyor belt is arranged at the right part of the base platform, belt wheels are connected to the front side and the rear side of the conveyor belt, and each belt wheel is connected with a rotating shaft; the rotating shaft positioned at the rear side is arranged on the base platform through a bearing seat.

The base platform is respectively and fixedly provided with a guide frame, a guide rail and a vertical plate for installing a rotating shaft positioned on the front side through a bearing; the motor is installed in the riser center, and the motor is connected with incomplete gear, incomplete gear meshing cooperation has the rear gear respectively and installs the front gear in the pivot that is located the front side.

A linkage frame matched with the rear gear is vertically and slidably mounted on the guide rail, a turning rod is welded on the linkage frame, and the turning rod is fixedly connected with a double-sided rack; and the left side and the right side of the double-sided rack are matched with driving components.

The linkage frame is provided with a transverse groove, and a convex block fixedly arranged on the right end face of the rear gear in an eccentric mode is arranged in the transverse groove in a sliding mode.

And the guide frame is provided with a clamping groove for vertically and slidably mounting the double-sided rack.

Each driving component consists of a lower gear, a lower shaft, a lower rope wheel, a rope belt, an upper rope wheel, an upper shaft and a driven frame; the lower shaft and the upper shaft are both arranged on the bottom platform through a bearing seat, and the lower gear is meshed and matched with the double-sided rack; the lower gear and the lower rope pulley are both arranged on the lower shaft; the rope belt is connected between the lower rope wheel and the upper rope wheel in a transmission way; the upper rope wheel and the driving frame are both arranged on the upper shaft; and auxiliary equipment is arranged on the driving frame.

The driven frames are all provided with inner grooves, and the auxiliary equipment comprises air cylinders and guide rods which are arranged in the inner grooves; and a push block connected with the air cylinder is arranged on the guide rod in a sliding manner.

The left side and the right side of the front part of the conveying belt are both abutted and combined with a supporting table fixedly arranged on the base table. In addition, each support platform is abutted against the corresponding driven frame in the front-back direction; the upper end surfaces of the supporting platform, the driven frame and the conveying belt are equal in height. Each driven frame is an arc surface corresponding to a 180-degree central angle on one side close to the conveying belt, and the radius of the arc surface is equal to the distance between the conveying belt and the corresponding upper shaft.

The invention has the beneficial effects that:

the invention has high automation degree, can control the backward intermittent conveying of the conveying belt and the forward and reverse rotation of the two driven frames at the same time by the gear-tooth alternate meshing transmission and the rope belt transmission, further realizes the left-right folding type primary stacking of large batches of medical cloth one by one, and is relatively convenient to use.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a top view of the present invention;

FIG. 2 is a cross-sectional view A-A of FIG. 1;

FIG. 3 is a cross-sectional view B-B of FIG. 1;

FIG. 4 is a diagram illustrating the effect of the implementation process of the present invention;

FIG. 5 is a graph showing effects of the present invention.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the present invention will be described more clearly and more completely with reference to the drawings in the following embodiments, and it is understood that the described embodiments are only a part of the present invention, rather than all of the present invention, and based on the embodiments, other embodiments obtained by those skilled in the art without inventive exercise are within the protection scope of the present invention.

As shown in fig. 1 to 3, a medical cloth laminated production line comprises a base table 1, a conveyor belt 4 is arranged at the right part of the base table 1, belt wheels are connected to the front side and the rear side of the conveyor belt 4, and each belt wheel is connected with a rotating shaft 19; the rotating shaft 19 on the rear side is mounted on the base table 1 through a bearing housing.

The base table 1 is respectively and fixedly provided with a guide frame 5, a guide rail 22 and a vertical plate 20 for installing a rotating shaft 19 positioned at the front side through a bearing; the motor 2 is installed in the center of the vertical plate 20, the motor 2 is connected with an incomplete gear 15, and the incomplete gear 15 is respectively engaged with the rear gear 3 and a front gear 14 installed on a rotating shaft 19 positioned on the front side.

A linkage frame 16 matched with the rear gear 3 is vertically and slidably mounted on the guide rail 22, a turning rod 21 is welded on the linkage frame 16, and the turning rod 21 is fixedly connected with a double-sided rack 12; and the left side and the right side of the double-sided rack 12 are matched with driving components.

The linkage frame 16 is provided with a transverse groove 16a, and a lug 3a which is fixedly arranged on the right end face of the rear gear 3 in an eccentric mode is arranged in the transverse groove 16a in a sliding manner.

And a clamping groove 5a for vertically and slidably mounting the double-sided rack 12 is formed in the guide frame 5.

Each driving component consists of a lower gear 13, a lower shaft 23, a lower rope pulley 24, a rope belt 7, an upper rope pulley 6, an upper shaft 25 and a driven frame 8; the lower shaft 23 and the upper shaft are both arranged on the bottom platform 1 through a bearing seat, and the lower gear 13 is meshed and matched with the double-sided rack 12; the lower gear 13 and the lower rope pulley 24 are both arranged on the lower shaft 23; the rope belt 7 is connected between the lower rope wheel 24 and the upper rope wheel 6 in a transmission way; the upper rope wheel 6 and the driving frame are both arranged on the upper shaft; and auxiliary equipment is arranged on the driving frame.

The driven frames 8 are provided with inner grooves 8a, and the auxiliary equipment comprises air cylinders 10 and guide rods 17 which are arranged in the inner grooves 8 a; and a push block 11 connected with the air cylinder 10 is arranged on the guide rod 17 in a sliding way.

The left side and the right side of the front part of the conveying belt 4 are respectively abutted with a supporting platform 18 fixedly arranged on the base platform 1. In addition, each support table 18 should be abutted against the corresponding driven frame 8 in the front-rear direction; the upper end surfaces of the support table 18, the driven frame 8 and the conveyor belt 4 are equal in height. Each driven frame 8 is an arc surface corresponding to a central angle of 180 degrees on the side close to the conveying belt 4, and the radius of the arc surface is equal to the distance between the conveying belt 4 and the corresponding upper shaft 25.

Before the medical cloth is used, the medical cloth needs to be manually and one by one moved to the front part of the conveyer belt 4. The left and right parts of each piece of medical cloth are mounted on the support base 18.

When the transmission gear is used, the motor 2 drives the incomplete gear 15 to rotate at a constant speed, so that the incomplete gear 15 can be respectively in alternate meshing transmission with the front gear 14 and the rear gear 3. When the incomplete gear 15 is in meshing transmission with the front gear 14 every time, the belt wheel rotates synchronously with the front gear 14, each piece of medical cloth is conveyed backwards for a certain distance, and the left side and the right side of each piece of medical cloth are conveyed to be respectively carried on the corresponding driven frame 8 and the corresponding push block 11 every time. When the incomplete gear 15 is meshed with the rear gear 3 for transmission each time, the lug 3a can rotate one circle along with the rear gear 3, under the sliding fit action, the linkage frame 16 and the double-sided rack 12 can slide up and down and back and forth once, when the double-sided rack 12 slides down first, the lower gear 13 on the left side rotates clockwise, the lower gear 13 on the right side rotates anticlockwise, and through the transmission of the lower shaft 23, the lower rope pulley 24 and the upper shaft 25, the driven frame 8 on the left side rotates clockwise by 90 degrees, the driven frame 8 on the right side rotates anticlockwise by 90 degrees, and the two driven frames 8 after 90 degrees rotation form a U shape with the upper part of the conveying belt 4, namely, the corresponding medical cloth can be folded into a U shape and is shown in fig. 4. The pusher 11 can then be pushed by the cylinder 10 so that the upright part of the medical cloth is automatically tipped over to complete the preliminary lamination, the state of the medical cloth being shown in fig. 5. Further, the cylinder 10 pulls the push block 11 to reset. When the linkage frame 16 and the double-sided rack 12 slide upwards, the two driven frames 8 are rotated and reset.

In summary, the present invention can realize preliminary stacking of a large number of medical cloths one by alternately performing the conveyance and the folding.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (1)

1. A medical cloth laminated production line comprises a base platform (1), wherein a conveying belt (4) is arranged at the right part of the base platform (1), belt wheels are connected to the front side and the rear side of the conveying belt (4), and each belt wheel is connected with a rotating shaft (19); the rotating shaft (19) positioned at the rear side is arranged on the bottom platform (1) through a bearing seat;

the method is characterized in that:

a guide frame (5), a guide rail (22) and a vertical plate (20) for mounting a rotating shaft (19) positioned on the front side through a bearing are respectively and fixedly arranged on the base (1); the center of the vertical plate (20) is provided with a motor (2), the motor (2) is connected with an incomplete gear (15), and the incomplete gear (15) is respectively engaged with a rear gear (3) and a front gear (14) arranged on a rotating shaft (19) positioned on the front side;

a linkage frame (16) matched with the rear gear (3) is vertically and slidably mounted on the guide rail (22), a turning rod (21) is welded on the linkage frame (16), and the turning rod (21) is fixedly connected with a double-sided rack (12); the left side and the right side of the double-sided rack (12) are matched with driving components;

a transverse groove (16a) is formed in the linkage frame (16), and a convex block (3a) which is fixedly arranged on the right end face of the rear gear (3) in an eccentric mode is installed in the transverse groove (16a) in a sliding mode;

a clamping groove (5a) for vertically and slidably mounting the double-sided rack (12) is formed in the guide frame (5);

each driving component consists of a lower gear (13), a lower shaft (23), a lower rope pulley (24), a rope belt (7), an upper rope pulley (6), an upper shaft (25) and a driven frame (8); the lower shaft (23) and the upper shaft are both arranged on the bottom platform (1) through a bearing seat, and the lower gear (13) is meshed and matched with the double-sided rack (12); the lower gear (13) and the lower rope wheel (24) are both arranged on the lower shaft (23); the rope belt (7) is connected between the lower rope wheel (24) and the upper rope wheel (6) in a transmission way; the upper rope wheel (6) and the driving frame are both arranged on the upper shaft; auxiliary equipment is arranged on the driving frame;

the driven frame (8) is provided with inner grooves (8a), and the auxiliary equipment comprises a cylinder (10) and a guide rod (17) which are arranged in the inner grooves (8 a); a push block (11) connected with the cylinder (10) is arranged on the guide rod (17) in a sliding way;

and supporting tables (18) fixedly arranged on the bottom table (1) are abutted and assembled on the left side and the right side of the front part of the conveying belt (4).

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