CN113734862A

CN113734862A - Special conveyer belt of medical dressing production

Info

Publication number: CN113734862A
Application number: CN202111292307.XA
Authority: CN
Inventors: 张劲松; 朱礼飞; 张玉
Original assignee: Zhangjiagang Lanzhi Biotechnology Co ltd
Current assignee: Zhangjiagang Lanzhi Biotechnology Co ltd
Priority date: 2021-11-03
Filing date: 2021-11-03
Publication date: 2021-12-03

Abstract

The invention discloses a special conveying belt for medical dressing production, which belongs to the field of medical dressing production and comprises a guide support, wherein a first guide wheel is movably arranged in the guide support, a second guide wheel is movably arranged below the first guide wheel in the guide support, a composite mechanism is fixedly arranged on one side of the first guide wheel and one side of the second guide wheel, the composite mechanism comprises a composite support body, a first roller wheel, a first motor, a second roller wheel, a movable hole and a driving shaft, the composite support body is fixedly arranged on one side of the guide support, the first roller wheel and the second roller wheel are movably arranged in the composite support body, a feeding mechanism is fixedly arranged between the composite support body and the guide support, an engaging mechanism is fixedly arranged on one side of the composite mechanism, and a dividing mechanism is fixedly arranged on one side of the engaging mechanism. The conveying belt special for producing the medical dressing can greatly improve the production efficiency.

Description

Special conveyer belt of medical dressing production

Technical Field

The invention relates to the field of production of medical dressings, in particular to a special conveying belt for production of medical dressings.

Background

Medical dressings are wound covering articles used to cover sores, wounds, or other damaged medical materials. With the intensive research on the pathophysiology of the wound healing process, people understand the wound healing process more and more deeply, thereby leading to the continuous improvement and development of medical wound dressings. Compared with the early days, the novel dressing for wound care has revolutionized, and a plurality of medical dressings with different properties can be selected by clinical care personnel.

Medical dressing divide into water conservancy diversion layer, coating and dose the layer, need compound between water conservancy diversion layer and coating with the dose layer in the production process, and publication number CN207671282U discloses medical dressing paster automatic material conveying ware, can realize automatic, the reinforced technological effect at a high speed, and its blowing is accurate, and the productivity effect is high, and this scheme need use corresponding cutting equipment to cut apart the raw materials, and the fund input is big, and production efficiency is low.

Disclosure of Invention

The invention mainly aims to provide a special conveying belt for producing medical dressings, which can effectively solve the problems mentioned in the background technology.

In order to achieve the purpose, the invention adopts the technical scheme that:

a conveying belt special for medical dressing production comprises a guide support, wherein a first guide wheel is movably mounted in the guide support, a second guide wheel is movably mounted below the first guide wheel in the guide support, a composite mechanism is fixedly mounted on one side of the first guide wheel and one side of the second guide wheel, the composite mechanism comprises a composite support body, a first roller wheel, a first motor, a second roller wheel, a movable hole and a driving shaft, the composite support body is fixedly mounted on one side of the guide support, the first roller wheel and the second roller wheel are movably mounted in the composite support body, a feeding mechanism is fixedly mounted between the composite support body and the guide support, the feeding mechanism comprises a feeding conveying belt, a feeding support body, a push rod support, a discharging opening, a feeding push plate and a servo push rod, the feeding support body is fixedly mounted between the guide support and the composite support body, the feeding conveying belt is fixedly mounted on one side of the feeding support body, a servo push rod is fixedly arranged on one side of the feeding conveyor belt, a feeding push plate is fixedly arranged at the output tail end of the servo push rod, one side of the composite mechanism is fixedly provided with a joint mechanism, the joint mechanism comprises a first heat shield, a movable notch, a mechanism shell, a joint roller, a second motor, an electric heating wire and a second heat shield, the mechanism shell is connected with one side of the composite frame body, a jointing roller is movably arranged in the mechanism shell, the upper end and the lower end of the mechanism shell are respectively provided with a first heat shield and a second heat shield, heating wires are arranged in the first heat shield and the second heat shield, a cutting mechanism is fixedly arranged on one side of the jointing mechanism, the cutting mechanism cuts the cover body, the mounting opening, the cutter seat, the cutting cutter and the hydraulic push rod, the cutting cover body is fixedly arranged on one side of the mechanism shell, and a cutting tool is movably arranged in the cutting cover body.

Further, a push rod support is fixedly mounted on the feeding support body, and a blanking opening is formed in the upper surface of the feeding support body.

Furthermore, the servo push rod is fixed on the push rod support through a screw, the servo push rod is installed on one side of the feeding conveyor belt through the push rod support, and the feeding push plate is movably installed above the feeding conveyor belt through the servo push rod.

Further, the movable holes are formed in the two side surfaces of the composite frame body, the driving shafts are movably mounted in the movable holes, and one ends of the driving shafts are connected with first motors.

Further, the driving shaft is fixedly connected to the first roller and the second roller, a bearing is arranged in the movable hole, the driving shaft is movably installed in the composite frame through the bearing, one end of the driving shaft is connected to the output end of the first motor through a coupler, and the first roller and the second roller are movably installed in the composite frame through the driving shaft.

Further, the surface of one side of the mechanism shell is fixedly provided with a second motor, and the upper surface and the lower surface of the mechanism shell are provided with movable openings.

Further, a movable shaft is connected to the joint roller, one end of the movable shaft is connected to the output end of the second motor through a coupler, the joint roller extends out of the mechanism shell through a movable opening, and the first heat shield and the second heat shield are fixed to the movable opening in the upper surface and the lower surface through screws.

Further, a cutter seat is fixedly mounted in the cutting cover body, an installation opening is formed in the surface of one side of the cutting cover body, and a hydraulic push rod is fixedly mounted at the position, located at the installation opening, of the surface of the cutting cover body.

Further, the cutter seat is fixed in the dividing cover body through screws, the output tail end of the hydraulic push rod extends into the dividing cover body through an installation notch, and the cutting cutter is fixed at the output tail end of the hydraulic push rod through screws.

Further, a bearing is arranged on the inner side of the guide support, and the first guide wheel and the second guide wheel are movably mounted in the guide support through the bearing.

Compared with the prior art, the invention has the following beneficial effects:

1. will remove unloading opening department for the medicine layer after the material loading conveyer belt starts, can start servo push rod after removing unloading opening department for the medicine layer, start servo push rod after will drop the coating for the medicine layer, later start first motor, first running roller and second running roller will rotate after starting first motor, it is internal that rotatory in-process water conservancy diversion layer of first running roller and second running roller and coating can be carried compound frame, thereby will compound between water conservancy diversion layer and coating for the medicine layer.

2. After the administration layer is compounded between the flow guide layer and the coating layer, the electric heating wire and the second motor can be started, the joint roller wheel can be heated after the electric heating wire is started, the joint roller wheel heated after the second motor is started can rotate oppositely, so that the edge of the flow guide layer and the edge of the coating layer are melted, and the flow guide layer and the coating layer can be connected together after the edges of the flow guide layer and the coating layer to be melted are solidified.

3. The flow guide layer and the coating layer are connected together and then enter the cutting cover body, the hydraulic push rod can be started after the flow guide layer and the coating layer enter the cutting cover body, and the cutting tool moves towards the inner side after the hydraulic push rod is started, so that the medical dressing is cut and formed.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a partial schematic view of the present invention;

FIG. 3 is a schematic view of a feeding mechanism of the present invention;

FIG. 4 is a schematic view of the compound mechanism of the present invention;

FIG. 5 is a schematic view of the singulation mechanism of the present invention;

FIG. 6 is a schematic view of the engagement mechanism of the present invention;

FIG. 7 is an internal view of the structural mechanism of the present invention;

fig. 8 is an operation diagram of the present invention.

In the figure: 1. a guide bracket; 2. a first guide wheel; 3. a second guide wheel; 4. a feeding mechanism; 401. a feeding conveyor belt; 402. a feeding frame body; 403. a push rod bracket; 404. blanking gaps; 405. a feeding push plate; 406. a servo push rod; 5. a compounding mechanism; 501. a composite frame body; 502. a first roller; 503. a first motor; 504. a second roller; 505. a movable hole; 506. a drive shaft; 6. a dividing mechanism; 601. dividing the cover body; 602. installing a notch; 603. a tool holder; 604. cutting a cutter; 605. a hydraulic push rod; 7. an engagement mechanism; 701. a first heat shield; 702. a movable gap; 703. a mechanism housing; 704. a joining roller; 705. a second motor; 706. an electric heating wire; 707. a second heat shield.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-8, a special conveyor belt for producing medical dressing comprises a guide support 1, a first guide wheel 2 is movably installed in the guide support 1, a second guide wheel 3 is movably installed below the first guide wheel 2 in the guide support 1, a composite mechanism 5 is fixedly installed on one side of the first guide wheel 2 and one side of the second guide wheel 3, the composite mechanism 5 comprises a composite frame body 501, a first roller 502, a first motor 503, a second roller 504, a movable hole 505 and a driving shaft 506, the composite frame body 501 is fixedly installed on one side of the guide support 1, the first roller 502 and the second roller 504 are movably installed in the composite frame body 501, a feeding mechanism 4 is fixedly installed between the composite frame body 501 and the guide support 1, the feeding mechanism 4 comprises a feeding conveyor belt 401, a feeding frame body 402, a push rod support 403, a discharging notch 404, a feeding push plate 405 and a servo push rod 406, the feeding frame body 402 is fixedly installed between the guide support 1 and the composite frame body 501, a feeding conveyor belt 401 is fixedly arranged on one side of a feeding frame 402, a servo push rod 406 is fixedly arranged on one side of the feeding conveyor belt 401, a feeding push plate 405 is fixedly arranged at the output tail end of the servo push rod 406, a joint mechanism 7 is fixedly arranged on one side of a composite mechanism 5, the joint mechanism 7 comprises a first heat shield 701, a movable notch 702, a mechanism shell 703, a joint roller 704, a second motor 705, a heating wire 706 and a second heat shield 707, the mechanism shell 703 is connected to one side of the composite frame 501, the joint roller 704 is movably arranged in the mechanism shell 703, the upper end and the lower end of the mechanism shell 703 are respectively provided with the first heat shield 701 and the second heat shield 707, the heating wire 706 is respectively arranged in the first heat shield 701 and the second heat shield 707, a cutting mechanism 6 is fixedly arranged on one side of the joint mechanism 7, a cutting cover body 601, an installation notch 602, a cutter seat 603, a cutting cutter 604 and a hydraulic push rod 605 of the cutting mechanism 6 are fixedly arranged on one side of the joint mechanism 7, the cutting cover body 601 is fixedly arranged on one side of the mechanism shell 703, a cutting tool 604 is movably arranged in the cutting cover body 601, a bearing is arranged on the inner side of the guide support 1, and the first guide wheel 2 and the second guide wheel 3 are movably arranged in the guide support 1 through the bearing.

Example one

In order to compound the administration layer between the diversion layer and the coating layer, a compound mechanism 5 is fixedly arranged on one side of the first guide wheel 2 and the second guide wheel 3, the compound mechanism 5 comprises a compound frame body 501, a first roller 502, a first motor 503, a second roller 504, a movable hole 505 and a driving shaft 506, the compound frame body 501 is fixedly arranged on one side of the guide bracket 1, the first roller 502 and the second roller 504 are movably arranged in the compound frame body 501, a feeding mechanism 4 is fixedly arranged between the compound frame body 501 and the guide bracket 1, the feeding mechanism 4 comprises a feeding conveyor belt 401, a feeding frame body 402, a push rod bracket 403, a blanking notch 404, a feeding push plate 405 and a servo push rod 406, the feeding frame body 402 is fixedly arranged between the guide bracket 1 and the compound frame body 501, the feeding conveyor belt 401 is fixedly arranged on one side of the feeding frame body 402, the servo push rod 406 is fixedly arranged on one side of the feeding conveyor belt 401, a feeding push plate 405 is fixedly installed at the output end of a servo push rod 406, a push rod bracket 403 is fixedly installed on the feeding frame 402, a blanking notch 404 is formed in the upper surface of the feeding frame 402, the servo push rod 406 is fixed on the push rod bracket 403 through screws, the servo push rod 406 is installed on one side of the feeding conveyor belt 401 through the push rod bracket 403, the feeding push plate 405 is movably installed above the feeding conveyor belt 401 through the servo push rod 406, movable holes 505 are formed in the surfaces of the two sides of the composite frame body 501, a driving shaft 506 is movably installed in the movable holes 505, one end of the driving shaft 506 is connected with a first motor 503, the driving shaft 506 is fixedly connected to the first roller 502 and a second roller 504, bearings are arranged in the movable holes 505, the driving shaft 506 is movably installed in the composite frame body 501 through the bearings, one end of the driving shaft 506 is connected to the output end of the first motor 503 through a coupler, the first roller 502 and the second roller 504 are movably installed in the composite frame body 501 through the driving shaft 506, the dosing layer will move to unloading opening 404 department after material loading conveyer belt 401 starts, can start servo push rod 406 after the dosing layer moves unloading opening 404 department, dose the layer and will drop on the coating after starting servo push rod 406, later start first motor 503, first roller 502 and second roller 504 will rotate after starting first motor 503, the rotatory in-process water conservancy diversion layer of first roller 502 and second roller 504 and coating can be carried in compound support body 501, thereby compound between water conservancy diversion layer and coating with the dosing layer.

Example two

In order to joint the flow guide layer and the coating layer together, a joint mechanism 7 is fixedly installed on one side of the composite mechanism 5, the joint mechanism 7 comprises a first heat shield 701, a movable notch 702, a mechanism shell 703, a joint roller 704, a second motor 705, heating wires 706 and a second heat shield 707, the mechanism shell 703 is connected to one side of the composite frame body 501, the joint roller 704 is movably installed in the mechanism shell 703, the upper end and the lower end of the mechanism shell 703 are respectively provided with the first heat shield 701 and the second heat shield 707, the first heat shield 701 and the second heat shield 707 are respectively provided with the heating wires 706, the surface of one side of the mechanism shell (703) is fixedly provided with the second motor (705), the upper surface and the lower surface of the mechanism shell (703) are respectively provided with the movable notch (702), the joint roller (704) is connected with a movable shaft, one end of the movable shaft is connected to the output end of the second motor (705) through a coupler, the jointing roller (704) extends out of the mechanism shell (703) through the movable gap (702), the first heat shield (701) and the second heat shield (707) are fixed at the position of the movable gap (702) on the upper surface and the lower surface through screws, the heating wire 706 and the second motor 705 are started, the jointing roller (704) is heated after the heating wire 706 is started, the heated jointing roller (704) rotates oppositely after the second motor 705 is started, so that the flow guiding layer and the edge of the coating layer are melted, and the flow guiding layer and the coating layer can be connected together after the melted flow guiding layer and the edge of the coating layer are solidified.

EXAMPLE III

In order to cut and shape the dressing, a cutting mechanism 6 is fixedly arranged on one side of a joint mechanism 7, the cutting mechanism 6 is used for cutting a cover body 601, an installation notch 602, a cutter seat 603, a cutting cutter 604 and a hydraulic push rod 605, the cutting cover body 601 is fixedly arranged on one side of a mechanism shell 703, the cutting cutter 604 is movably arranged in the cutting cover body 601, the cutter seat 603 is fixedly arranged in the cutting cover body 601, the installation notch 602 is arranged on one side surface of the cutting cover body 601, the hydraulic push rod 605 is fixedly arranged on the surface of the cutting cover body 601 at the installation notch 602, the cutter seat 603 is fixed in the cutting cover body 601 through screws, the output tail end of the hydraulic push rod 605 extends into the cutting cover body 601 through the installation notch 602, the cutting cutter 604 is fixed on the output tail end of the hydraulic push rod 605 through screws, the flow guide layer and the coating layer are connected together and then enter the cutting cover body 601, the hydraulic push rod 605 can be started after entering the cutting cover body 601, after the hydraulic push rod 605 is started, the cutting knife 604 moves inwards, so that the medical dressing is cut and shaped.

It should be noted that, in practical use, the flow guide layer and the covering layer pass through the composite mechanism 5, the dividing mechanism 6 and the engaging mechanism 7, then the feeding conveyor belt 401 is started, the drug delivery layer moves to the blanking notch 404 after the feeding conveyor belt 401 is started, the servo push rod 406 can be started after the drug delivery layer moves to the blanking notch 404, the feeding push plate 405 moves forward after the servo push rod 406 is started, so that the drug delivery layer is pushed onto the covering layer, then the first motor 503 is started, the first roller 502 and the second roller 504 rotate after the first motor 503 is started, the flow guide layer and the covering layer are conveyed into the composite frame 501 during the rotation of the first roller 502 and the second roller 504, and the flow guide layer and the covering layer are conveyed into the composite frame 501, and then the flow guide layer is conveyed to the flow guide layer, The coating and the drug delivery layer are extruded together, so that the drug delivery layer is compounded between the diversion layer and the coating, the dressing enters the mechanism shell 703 after the compounding is finished, the heating wire 706 and the second motor 705 can be started after the dressing enters the mechanism shell 703, the jointing roller 704 can be heated after the heating wire 706 is started, the jointing roller 704 which is heated after the second motor 705 is started can rotate oppositely, so that the diversion layer and the edge of the coating are melted, the diversion layer and the edge of the coating to be melted can be connected together after the diversion layer and the edge of the coating are solidified, the dressing enters the split cover body 601, and the cutting knife 604 which moves after the dressing enters the split cover body 601 moves inwards, so that the medical dressing is cut and molded.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a special conveyer belt of medical dressing production which characterized in that: including guide bracket (1), movable mounting has first leading wheel (2) in guide bracket (1), be located first leading wheel (2) below movable mounting and have second leading wheel (3) in guide bracket (1), first leading wheel (2) and second leading wheel (3) one side fixed mounting have combined mechanism (5), combined mechanism (5) are including compound support body (501), first running roller (502), first motor (503), second running roller (504), activity hole (505) and drive shaft (506), compound support body (501) fixed mounting is in guide bracket (1) one side, movable mounting has first running roller (502) and second running roller (504) in compound support body (501), fixed mounting has feed mechanism (4) between compound support body (501) and guide bracket (1), feed mechanism (4) are including feeding conveyer belt (401), The feeding frame body (402), the push rod support (403), the blanking opening (404), the feeding push plate (405) and the servo push rod (406), the feeding frame body (402) is fixedly arranged between the guide support (1) and the composite frame body (501), a feeding conveyor belt (401) is fixedly arranged on one side of the feeding frame body (402), the servo push rod (406) is fixedly arranged on one side of the feeding conveyor belt (401), the feeding push plate (405) is fixedly arranged at the tail end of the output of the servo push rod (406), a joint mechanism (7) is fixedly arranged on one side of the composite mechanism (5), the joint mechanism (7) comprises a first heat insulation cover (701), a movable opening (702), a mechanism shell (703), a joint roller (704), a second motor (703), an electric heating wire (706) and a second heat insulation cover (707), and the mechanism shell (703) is connected on one side of the composite frame body (501), a joint roller (704) is movably mounted in the mechanism shell (703), a first heat shield (701) and a second heat shield (707) are respectively arranged at the upper end and the lower end of the mechanism shell (703), electric heating wires (706) are respectively arranged in the first heat shield (701) and the second heat shield (707), a dividing mechanism (6) is fixedly mounted at one side of the joint mechanism (7), a dividing cover body (601), an installation notch (602), a cutter seat (603), a cutting cutter (604) and a hydraulic push rod (605) are arranged in the dividing mechanism (6), the dividing cover body (601) is fixedly mounted at one side of the mechanism shell (703), the cutting cutter (604) is movably mounted in the dividing cover body (601), movable holes (505) are respectively formed in the surfaces of the two sides of the composite frame body (501), a driving shaft (506) is movably mounted in the movable holes (505), one end of the driving shaft (506) is connected with a first motor (503), the driving shaft (506) is fixedly connected onto the first roller (502) and the second roller (504), a bearing is arranged in the movable hole (505), the driving shaft (506) is movably installed in the composite frame body (501) through the bearing, one end of the driving shaft (506) is connected onto the output end of the first motor (503) through a coupling, the first roller (502) and the second roller (504) are movably installed in the composite frame body (501) through the driving shaft (506), the second motor (705) is fixedly installed on one side surface of the mechanism shell (703), movable notches (702) are respectively formed in the upper surface and the lower surface of the mechanism shell (703), a movable shaft is connected onto the joint roller (704), one end of the movable shaft is connected onto the output end of the second motor (705) through the coupling, the joint roller (704) extends out of the mechanism shell (703) through the movable notches (702), the first heat shield (701) and the second heat shield (707) are fixed at movable gaps (702) on the upper surface and the lower surface through screws.

2. The conveyor belt special for producing medical dressings as claimed in claim 1, wherein: the feeding frame body (402) is fixedly provided with a push rod support (403), and the upper surface of the feeding frame body (402) is provided with a blanking opening (404).

3. The conveyor belt special for producing medical dressings as claimed in claim 2, wherein: the servo push rod (406) is fixed on the push rod support (403) through a screw, the servo push rod (406) is installed on one side of the feeding conveyor belt (401) through the push rod support (403), and the feeding push plate (405) is movably installed above the feeding conveyor belt (401) through the servo push rod (406).

4. The conveyor belt special for producing medical dressings as claimed in claim 3, wherein: a cutter seat (603) is fixedly installed in the cutting cover body (601), an installation opening (602) is formed in the surface of one side of the cutting cover body (601), and a hydraulic push rod (605) is fixedly installed on the position, located in the installation opening (602), of the surface of the cutting cover body (601).

5. The conveyor belt special for producing medical dressings as claimed in claim 4, wherein: the cutter seat (603) is fixed in the dividing cover body (601) through screws, the output tail end of the hydraulic push rod (605) extends into the dividing cover body (601) through an installation notch (602), and the cutting cutter (604) is fixed at the output tail end of the hydraulic push rod (605) through screws.

6. The conveyor belt special for producing medical dressings as claimed in claim 5, wherein: the inner side of the guide support (1) is provided with a bearing, and the first guide wheel (2) and the second guide wheel (3) are movably arranged in the guide support (1) through the bearing.