CN211568443U - Wrapping and folding cloth forming device and automatic cloth wrapping equipment for anesthesia bag - Google Patents

Abstract

The utility model belongs to the technical field of the anesthesia package, especially, relate to a package book cloth forming device and automatic infantees equipment of anesthesia package. The wrapping and folding cloth forming device comprises a cloth rack provided with a cloth feeding channel, and a cloth feeding mechanism, a cloth cutting mechanism and a quality inspection mechanism which are arranged on the cloth cutting rack, wherein the cloth feeding mechanism is used for conveying cloth to the cloth feeding channel; cut out cloth mechanism and be used for cutting the cloth into a bale of plaiting, quality inspection mechanism is used for detecting the quality of the cloth of carrying through the work feed passageway, quality inspection mechanism includes quality inspection camera and quality inspection controller, the image information of the cloth in the work feed passageway is gathered to the quality inspection camera, quality inspection controller is connected in order to accept and handle image information with quality inspection camera communication, quality inspection controller control is opened and is closed work feed mechanism and cut out cloth mechanism, quality inspection mechanism is at cloth transportation in-process real-time supervision cloth quality, cloth quality inspection is integrated in a bale of plaiting cuts the shaping process, need not to set up independent quality inspection process, anesthesia package manufacturing cost reduces, production efficiency promotes.

Description

Wrapping and folding cloth forming device and automatic cloth wrapping equipment for anesthesia bag

Technical Field

The utility model belongs to the technical field of the anesthesia package, especially, relate to a package book cloth forming device and automatic infantees equipment of anesthesia package.

Background

The anesthesia bag is a medical tool commonly used in the operation process and is commonly used for performing anesthesia on the operation position of a patient before the operation. Generally, the anesthesia package mainly includes extranal packing and encapsulates the thing box of putting in the extranal packing to and place the anesthesia instrument relevant with anesthesia work in putting the thing box, specifically include air cleaner, disposable injection instrument, disinfection brush, pjncture needle, epidural catheter, pipe connector, rubber medical gloves and medical sticky tape sticker etc. these anesthesia instruments put into to put thing box after reuse non-woven fabrics will put the thing box and wrap and form the cladding material package, pack the cladding material package into the wrapping bag again at last, can accomplish the encapsulation of above-mentioned anesthesia instrument. Therefore, a large amount of non-woven fabrics are needed to cover the storage box when producing the anesthesia bag.

In the prior art, an external non-woven fabric cutting device is generally used for cutting a non-woven fabric into folded cloth with a proper size, and then the folded cloth is conveyed to an anesthesia bag packaging workshop for use. So, package plaiting fabric is cut good back, needs the manual work to inspect whether there is quality defect package plaiting, perhaps needs to set up additional quality inspection process again and inspect, and artifical quality inspection work load is big, and the condition that appears the false retrieval easily and leak the inspection, though the high-quality high efficiency of quality inspection device inspection, but additionally sets up the process cost and increases, and goes up the extravagant production time of unloading inspection again, is unfavorable for the promotion of production speed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a package plaiting forming device and automatic infusorial package cloth equipment of anesthesia package aims at solving among the prior art and need set up the extravagant production time of extra quality testing process inspection package plaiting quality, influences production efficiency's technical problem after the infusorial package plaiting is cut well in the anesthesia package production process.

In order to achieve the above object, the utility model adopts the following technical scheme: an apparatus for forming a drape, comprising:

the cloth cutting machine frame is provided with a cloth feeding channel for conveying cloth;

the cloth feeding mechanism is arranged on one side of the cloth cutting rack and used for conveying the cloth on the cloth roll to the cloth feeding channel;

the cloth cutting mechanism is arranged on the other side of the cloth cutting rack and is used for cutting the cloth output by the cloth feeding channel into folded cloth;

the quality inspection mechanism is installed on the cloth cutting frame and comprises a quality inspection camera and a quality inspection controller, the quality inspection camera is suspended above the cloth feeding channel to collect image information of cloth in the cloth feeding channel, the quality inspection controller is in communication connection with the quality inspection camera to receive and process the image information collected by the quality inspection camera, and the quality inspection controller is respectively electrically connected with the cloth feeding mechanism and an electric component of the cloth cutting mechanism to control opening and closing of the cloth feeding mechanism and the cloth cutting mechanism.

Further, a camera mounting frame is arranged on the fabric cutting frame, the quality inspection camera is mounted on the camera mounting frame, and the lens of the quality inspection camera is right opposite to the fabric feeding channel.

Furthermore, the quality inspection mechanism comprises a plurality of quality inspection cameras, the camera mounting frame comprises a mounting cross rod which is horizontally mounted right above the cloth feeding channel and is vertical to the cloth conveying direction, and the quality inspection cameras are mounted on the mounting cross rod at intervals.

Furthermore, the quality inspection mechanism also comprises a communication alarm in communication connection with the quality inspection controller, and the communication alarm is installed on the fabric cutting rack.

Further, the cloth feeding mechanism comprises a cloth roll mounting shaft and a cloth feeding roller group, the cloth roll mounting shaft is mounted on the cloth cutting frame and used for mounting a cloth roll, the cloth feeding roller group is rotatably mounted on the cloth cutting frame and is arranged close to a cloth feeding end of the cloth feeding channel, and the cloth feeding roller group is used for conveying cloth mounted on the cloth roll mounting shaft to the cloth feeding channel.

Further, the cloth feeding mechanism comprises two cloth roll mounting shafts, and the two cloth roll mounting shafts are mounted on the cloth cutting rack in parallel at intervals.

Further, the cloth cutting mechanism comprises an upper cutting knife, a lower cutting knife and a cloth cutting driving motor electrically connected with the quality inspection controller, wherein the lower cutting knife is fixedly installed on the cloth cutting frame and located on the lower side of the extending direction of the length of the cloth feeding channel, the upper cutting knife is slidably installed on the cloth cutting frame and located on the upper side of the extending direction of the length of the cloth feeding channel, a knife edge of the upper cutting knife and a knife edge of the lower cutting knife are arranged at intervals to form a cloth cutting feed port for cloth to penetrate out, and the cloth cutting driving motor is installed on the cloth cutting frame and is in driving connection with the upper cutting knife to drive the upper cutting knife to move towards the lower cutting knife so as to cut cloth penetrating out from the cloth cutting feed port.

Further, package book cloth forming device still including install in crease pressing mechanism in the cut out cloth frame, crease pressing mechanism includes crease pinch roller and pinch roller installation axle, crease pinch roller rigid coupling in pinch roller installation epaxial, the perpendicular cloth direction of delivery of pinch roller installation axle rotate install in the top of work feed passageway, the below of work feed passageway is just right the position department of crease pinch roller is provided with and supports presses the driven roll, the rim of crease pinch roller support the cloth press in support and press on the driven roll to process out the folding line on the cloth.

Further, the wrapping and folding cloth forming device further comprises a dust removing mechanism installed on the cloth cutting frame, the dust removing mechanism comprises a dust cover and a dust removing fan arranged in the dust cover and electrically connected with the quality inspection controller, the dust cover is arranged on the cloth cutting frame, and the cloth feeding mechanism, the cloth cutting mechanism and the quality inspection mechanism are all contained in the dust cover.

The utility model provides an among the package cloth forming device of rolling over above-mentioned one or more technical scheme have one of following technological effect at least: when the quality inspection controller judges that the currently conveyed cloth has abnormal quality, such as stains or defects, the quality inspection controller controls the cloth feeding mechanism to stop feeding, and controls the cloth cutting mechanism to stop cutting operation, so that the quality of the cloth is monitored in real time in the cloth conveying process by arranging the quality inspection mechanism, the quality inspection of the cloth is integrated in the process of cutting and forming the folded cloth, and the quality inspection of the folded cloth is finished when the folded cloth is cut and formed, need not to set up independent quality testing process and detect, the package is rolled over cloth use procedure and can be simplified, anesthesia package manufacturing cost reduces, production efficiency promotes.

The utility model discloses another technical scheme is: an automatic cloth wrapping device for an anesthesia bag comprises the cloth wrapping and folding forming device.

The utility model discloses an automatic infantees package of anesthesia package equipment, owing to used foretell package book cloth forming device, cloth quality testing is integrated in package book cloth cuts fashioned process, and package book cloth cuts fashioned quality testing who accomplishes package book cloth in the time, need not to set up independent quality testing process and detects, and package book cloth use procedure can be simplified, and anesthesia package cloth efficiency can promote.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive labor.

Fig. 1 is a schematic structural view of a wrapping and folding cloth forming device provided in an embodiment of the present invention;

FIG. 2 is a schematic view of a portion of the wrapping cloth forming device shown in FIG. 1;

FIG. 3 is a schematic view, partially in section, of the drape forming device shown in FIG. 1;

fig. 4 is a schematic structural diagram of a fabric cutting mechanism of the wrapping and folding fabric forming device shown in fig. 1.

Wherein, in the figures, the respective reference numerals:

b11-cloth cutting frame B12-cloth feeding mechanism B13-cloth cutting mechanism

B14-quality inspection mechanism B15-crease pressing mechanism B16-dust removing mechanism

B111-cloth feeding channel B112-camera mounting rack B113-cloth cutting mounting plate

B114-pressing driven roller B115-wrapping cloth outlet B116-cloth conveying roller group

B121-yardage roll mounting shaft B122-cloth feeding roller group B131-upper cutting knife

B132-lower cutting knife B133-fabric cutting driving motor B134-fabric cutting feed port

B141-quality inspection camera B142-quality inspection controller B143-communication alarm

B151-crease press wheel B152-press wheel mounting shaft B161-dust cover

700-cloth roll 701-cloth B1121-vertical rod

B1122-installation cross bar B1221-drive roller B1222-floating roller.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to fig. 1-4 are exemplary and intended to be used to illustrate the invention, but should not be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

As shown in fig. 1-4, an embodiment of the present invention provides a wrapping and folding fabric forming device, which is suitable for, but not limited to, processing a fabric 701 on a fabric roll 700 of a roll into a wrapping and folding fabric with a suitable size. Specifically, as shown in fig. 1 and 2, the cloth folding and forming device includes a cloth cutting frame B11, a cloth feeding mechanism B12, a cloth cutting mechanism B13 and a quality inspection mechanism B14, wherein a cloth feeding passage B111 for feeding the cloth 701 is provided on the cloth cutting frame B11, a cloth feeding mechanism B12 is mounted on one side of a cloth cutting frame B11 for feeding the cloth 701 on the cloth roll 700 to the cloth feeding passage B111, and a cloth cutting mechanism B13 is mounted on the other side of the cloth cutting frame B11 for cutting the cloth 701 output through the cloth feeding passage B111 into folded cloth; quality inspection mechanism B14 is installed on fabric cutting frame B11 for detecting the quality of cloth 701 that is carried through work feed passageway B111, quality inspection mechanism B14 includes quality inspection camera B141 and quality inspection controller B142, quality inspection camera B141 hangs the top of work feed passageway B111, in order to gather the image information of cloth 701 in work feed passageway B111, quality inspection controller B142 is connected with quality inspection camera B141 communication, in order to receive and handle the image information that quality inspection camera B141 gathered, quality inspection controller B142 is respectively with work feed mechanism B12 and the electronic part electric connection of work feed mechanism B13, in order to control to open and close work feed mechanism B12 and work cutting mechanism B13. Specifically, the quality inspection controller B142 of the present embodiment is preferably a relatively mature single chip microcomputer, a PLC control device or a computer, and the specific control of each electric component may be performed according to a program set or edited according to the control and use requirements; the quality inspection camera B141 is preferably a CCD camera.

The utility model provides a drape folding cloth forming device, during the use, cloth feeding mechanism B12 carries cloth 701 on cloth book 700 to cloth feeding channel B111, cloth 701 is cut into the drape folding cloth that the size satisfies the cladding requirement by fabric cutting mechanism B13 after cloth 701 is exported through cloth feeding channel B111, when cloth 701 is carried in cloth feeding channel B111, quality testing camera B141 gathers the image information of passing through cloth 701 in real time, and feed back this image information to quality testing controller B142, quality testing controller B142 carries out analysis process to the image information received, when quality testing controller B142 judges that the cloth 701 of carrying at present has quality anomaly, for example, there are spot or incomplete etc., quality testing controller B142 controls cloth feeding mechanism B12 to stop the pay-off, quality testing mechanism B13 stops the cutting operation simultaneously, so, through setting up quality testing mechanism B14 and monitoring cloth 701 in real time in cloth 701 conveying process, cloth 701 quality testing is integrated in the fashioned process of drape folding cloth cutting, the quality detection of the folded cloth is finished when the folded cloth is cut and formed, an independent quality detection process is not required to be arranged for detection, the use process of the folded cloth is simplified, the production cost of the anesthesia bag is reduced, and the production efficiency is improved.

In another embodiment of the utility model, as shown in fig. 2, be provided with camera mounting bracket B112 on the fabric cutting frame B11, quality inspection camera B141 is installed on camera mounting bracket B112, and the camera lens of quality inspection camera B141 just sets up to work feed passageway B111, and there is not other structures to shelter from in the image acquisition scope of quality inspection camera B141 to ensure that quality inspection camera B141 can gather the image information of cloth 701 in the work feed passageway B111.

Further, in the present embodiment, as shown in fig. 2, the quality inspection mechanism B14 includes a plurality of quality inspection cameras B141, the camera mount B112 includes a mounting bar B1122 horizontally mounted directly above the cloth feeding path B111 and perpendicular to the conveying direction of the cloth 701, and the plurality of quality inspection cameras B141 are mounted on the mounting bar B1122 at intervals. Because the width of the cloth 701 for processing the folded cloth is relatively large, a plurality of quality inspection cameras B141 are arranged at intervals along the direction perpendicular to the conveying direction of the cloth 701 to ensure that any position in the width direction of the cloth 701 can be monitored without dead angles, so that missing inspection is avoided, and the reliability of quality inspection is improved. Specifically, in this embodiment, the camera mounting bracket B112 further includes two vertical rods B1121, the two vertical rods B1121 are disposed at two sides of the cloth feeding channel B111, and two ends of the mounting cross bar B1122 are respectively connected to the two vertical rods B1121.

In another embodiment of the present invention, as shown in fig. 1 and 2, the quality inspection mechanism B14 further includes a communication alarm B143 connected to the quality inspection controller B142 in a communication manner, and the communication alarm B143 is installed on the fabric cutting frame B11. When the quality inspection controller B142 determines that the quality of the cloth 701 currently conveyed in the cloth feeding channel B111 is abnormal, the quality inspection controller B142 controls to turn on the communication alarm B143, and the communication alarm B143 gives an alarm to notify an operator on duty, so that the operator can perform abnormality treatment in time. Specifically, in the present embodiment, the communication alarm B143 may be a buzzer alarm or the like.

In another embodiment of the present invention, as shown in fig. 2 and 3, the cloth feeding mechanism B12 includes a cloth roll mounting shaft B121 and a cloth feeding roller set B122, the cloth roll mounting shaft B121 is mounted on the cloth cutting frame B11 and used for mounting the cloth roll 700, the cloth feeding roller set B122 is rotatably mounted on the cloth cutting frame B11 and is disposed near the cloth feeding end of the cloth feeding passage B111, and the cloth feeding roller set B122 is used for conveying the cloth 701 mounted on the cloth roll 700 on the cloth roll mounting shaft B121 to the cloth feeding passage B111. Specifically, the drum of the cloth roll 700 is inserted into the cloth roll mounting shaft B121, the cloth roll 700 can rotate on the cloth roll mounting shaft B121 to release the cloth 701 wound around the drum, and the cloth feed roller group B122 further conveys the released cloth 701 to the cloth feed passage B111.

Specifically, the cloth feeding roller group B122 includes a floating roller B1222 and a driving roller B1221 for clamping the cloth 701, the cloth feeding mechanism B12 further includes a cloth feeding motor, the cloth feeding motor is drivingly connected to the driving roller B1221 to drive the driving roller B1221 to rotate, the floating roller B1222 is disposed in parallel above the driving roller B1221 and is used for pressing the cloth 701, so that when the driving roller B1221 rotates, the floating roller B1222 rotates in the opposite direction under the action of friction force, so that the cloth 701 clamped between the floating roller B1222 and the driving roller B1221 moves along the conveying direction thereof. Further, the floating roller B1222 and the driving roller B1221 are symmetrically disposed on the upper and lower sides of the cloth feeding passage B111 in the length extending direction, so that the cloth 701 passes through the cloth feeding roller group B122 and then enters the cloth feeding passage B111 straight.

In another embodiment of the present invention, as shown in fig. 2 and fig. 3, the cloth feeding mechanism B12 includes two cloth roll mounting shafts B121, the two cloth roll mounting shafts B121 are mounted on the cloth cutting frame B11 at intervals in parallel, when in use, the two cloth rolls 700 are mounted on the two cloth roll mounting shafts B121 respectively, the cloth 701 on the two cloth rolls 700 can be conveyed to the cloth feeding passage B111 by the cloth roll feeding group B122 according to the sequence, after the cloth 701 on one cloth roll mounting shaft B121 is used up, the cloth roll 700 on the other cloth roll mounting shaft B121 can be used as a new material source, so that, after the cloth roll 700 is used up, the cloth roll 700 on the other cloth roll mounting shaft B121 can be switched to use, the downtime of the cloth feeding mechanism B12 can be shortened, and the cloth folding forming efficiency can be improved.

In another embodiment of the present invention, as shown in fig. 2 and 3, the fabric cutting mechanism B13 includes an upper cutting knife B131, a lower cutting knife B132 and a fabric cutting driving motor B133 electrically connected to the quality inspection controller B142, the lower cutting knife B132 is fixedly installed on the fabric cutting frame B11 and located at the lower side of the fabric feeding channel B111 in the length extending direction, the upper cutting knife B131 is slidably installed on the fabric cutting frame B11 and located at the upper side of the fabric feeding channel B111 in the length extending direction, the knife edge of the upper cutting knife B131 and the knife edge of the lower cutting knife B132 are spaced and form a fabric cutting feed port B134 for the fabric 701 to wear out, the fabric cutting driving motor B133 is installed on the fabric cutting frame B11 and is drivingly connected to the upper cutting knife B131 to drive the upper cutting knife B131 to move the lower cutting knife B132, so as to cut the fabric 701 worn out from the fabric cutting feed port B134. Specifically, when the length of the cloth 701 output from the cloth feeding passage B111 and passing through the cloth cutting feed port B134 meets the size requirement of the folded cloth, the cloth cutting driving motor B133 is started and drives the upper cutting blade B131 to move toward the lower cutting blade B132, so as to cut the cloth 701, after one cutting action is finished, the cloth cutting driving motor B133 drives the upper cutting blade B131 to move away from the lower cutting blade B132 again, and when the length of the cloth 701 passing through the cloth cutting feed port B134 meets the size requirement of the folded cloth again, the next cutting operation is executed.

Specifically, as shown in fig. 2 to 4, two fabric cutting mounting plates B113 for slidably mounting the upper cutting blade B131 are vertically arranged on the left and right sides of the fabric feeding channel B111 in the length extending direction, a slide rail is mounted on each fabric cutting mounting plate B113, and a slide block slidably engaged with the slide rail is mounted at a position opposite to the slide rail on each side of the upper cutting blade B131. In addition, the two fabric cutting mounting plates B113 are correspondingly provided with the fabric cutting driving motor B133, output shafts of the two fabric cutting driving motors B133 are respectively connected with two sides of the upper cutting knife B131, and the two fabric cutting driving motors B133 simultaneously drive the upper cutting knife B131 to move, so that the fabric 701 can be cut more stably and smoothly.

In another embodiment of the present invention, as shown in fig. 2 and 4, a cloth transfer roller set B116 is further provided between the cloth outlet of the cloth feeding channel B111 and the cloth cutting mechanism B13, the cloth 701 is further conveyed to be output from the cloth cutting feed port B134 by the cloth transfer roller set B116 after being output from the cloth outlet of the cloth feeding channel B111, and the cloth 701 is pulled together by the cloth transfer roller set B116 and the cloth feeding roller set B122 to move, so that the cloth 701 can be stably conveyed. Specifically, in the present embodiment, the structure of the cloth conveying roller group B116 is the same as that of the cloth feeding roller group B122, and details thereof are not repeated here.

In another embodiment of the utility model, as shown in fig. 2 and 3, package folding cloth forming device is still including installing crease pressing mechanism B15 on cutting out cloth frame B11, crease pressing mechanism B15 includes crease pinch roller B151 and pinch roller installation axle B152, crease pinch roller B151 rigid coupling is on pinch roller installation axle B152, the perpendicular cloth 701 direction of delivery of pinch roller installation axle B152 rotates and installs in the top of work feed passageway B111, the below of work feed passageway B111 is being provided with to the position department of crease pinch roller B151 and is being supported and press passive roller B114, the rim of crease pinch roller B151 supports cloth 701 and presses in supporting and pressing passive roller B114, thereby process out the folding line on cloth 701. So, when the package plaiting package covers and puts the thing box, only need along the folding line fold the package plaiting can, it is more convenient that the package is rolled over.

Specifically, in this embodiment, as shown in fig. 2 and 3, according to different folding modes when the packing and folding cloth is used to pack and fold the storage box, a plurality of crease pressing wheels B151 may be disposed on the pressing wheel mounting shaft B152 along a direction perpendicular to the conveying direction of the cloth 701, so as to process a plurality of folding lines on the cloth 701. The specific number of the crease pressing wheels B151 is not limited uniquely, and the crease pressing wheels can be designed according to actual production requirements when in use.

Further, in this embodiment, the crease pressing mechanism B15 further includes a pressing wheel driving motor (shown in the figure) installed on the cloth cutting frame B11 and electrically connected to the quality inspection controller B142, an output shaft of the pressing wheel driving motor is connected to one end of the pressing wheel installation shaft B152, and the pressing wheel driving motor drives the pressing wheel installation shaft B152 to rotate in the reverse direction relative to the conveying direction of the cloth 701, so as to drive the crease pressing wheel B151 to rotate in the reverse direction relative to the conveying direction of the cloth 701, thereby ensuring that a clear folding line is pressed.

In another embodiment of the present invention, as shown in fig. 1, the wrapping and folding cloth forming device further includes a dust removing mechanism B16 installed on the cloth cutting frame B11, the dust removing mechanism B16 includes a dust cover B161 and a dust removing fan (not shown) installed in the dust cover B161 and electrically connected to the quality inspection controller B142, the dust cover B161 is covered on the cloth cutting frame B11, and the cloth feeding mechanism B12, the cloth cutting mechanism B13 and the quality inspection mechanism B14 are all contained in the dust cover B161. So, dust cover B161 can avoid external dust to fall into and pollute cloth 701, and dust exhausting fan is used for getting rid of the dust that cuts the production, and the dust that produces when avoiding cloth 701 to cut gets into workshop polluted air. Specifically, in the embodiment, the dust removal fan can be a suspended ion fan with model number AP-DC2452-80, manufactured by Shanghai safety company.

In another embodiment of the present invention, as shown in fig. 1, a bag folding cloth outlet B115 is opened at a position where the fabric cutting frame B11 faces the fabric cutting mechanism B13, and the cut and formed bag folding cloth is output from the bag folding cloth outlet B115.

The utility model discloses an another embodiment still provides an automatic infantees package cloth equipment of package (not shown) anaesthetizes, owing to used foretell package book cloth forming device, cloth 701 quality testing is integrated in package book cloth cuts fashioned process, and package book cloth cuts fashioned quality testing of accomplishing package book cloth in the time of, need not to set up independent quality testing process and detects, and package book cloth use procedure can simplify, and anaesthetizes package cloth efficiency can promote.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A drape forming device, comprising:

the cloth cutting machine frame is provided with a cloth feeding channel for conveying cloth;

the cloth feeding mechanism is arranged on one side of the cloth cutting rack and used for conveying the cloth on the cloth roll to the cloth feeding channel;

the cloth cutting mechanism is arranged on the other side of the cloth cutting rack and is used for cutting the cloth output by the cloth feeding channel into folded cloth;

the quality inspection mechanism is installed on the cloth cutting frame and comprises a quality inspection camera and a quality inspection controller, the quality inspection camera is suspended above the cloth feeding channel to collect image information of cloth in the cloth feeding channel, the quality inspection controller is in communication connection with the quality inspection camera to receive and process the image information collected by the quality inspection camera, and the quality inspection controller is respectively electrically connected with the cloth feeding mechanism and an electric component of the cloth cutting mechanism to control opening and closing of the cloth feeding mechanism and the cloth cutting mechanism.

2. The cloth folding and forming device according to claim 1, wherein a camera mounting frame is arranged on the cloth cutting machine frame, the quality inspection camera is mounted on the camera mounting frame, and a lens of the quality inspection camera is arranged right opposite to the cloth feeding channel.

3. The drape-folding cloth forming device according to claim 2, wherein the quality inspection mechanism comprises a plurality of quality inspection cameras, the camera mounting bracket comprises a mounting cross bar horizontally mounted right above the cloth feeding channel and perpendicular to the cloth conveying direction, and the plurality of quality inspection cameras are mounted on the mounting cross bar at intervals.

4. The apparatus of claim 1, wherein the quality inspection mechanism further comprises a communication alarm communicatively coupled to the quality inspection controller, the communication alarm being mounted to the fabric cutting frame.

5. A cloth folding and forming device according to any one of claims 1 to 4, wherein the cloth feeding mechanism comprises a cloth roll mounting shaft mounted on the cloth cutting frame and used for mounting a cloth roll, and a cloth feeding roller group rotatably mounted on the cloth cutting frame and arranged near a cloth feeding end of the cloth feeding passage, and the cloth feeding roller group is used for conveying the cloth on the cloth roll mounted on the cloth roll mounting shaft to the cloth feeding passage.

6. The cloth folding and forming device according to claim 5, wherein the cloth feeding mechanism comprises two cloth roll mounting shafts, and the two cloth roll mounting shafts are mounted on the cloth cutting frame in parallel and at intervals.

7. The drape-folding cloth forming device according to any one of claims 1 to 4, wherein the cloth cutting mechanism comprises an upper cutting knife, a lower cutting knife and a cloth cutting driving motor electrically connected with the quality inspection controller, the lower cutting knife is fixedly mounted on the cloth cutting frame and located at the lower side of the extension direction of the length of the cloth feeding channel, the upper cutting knife is slidably mounted on the cloth cutting frame and located at the upper side of the extension direction of the length of the cloth feeding channel, the knife edge of the upper cutting knife and the knife edge of the lower cutting knife are arranged at intervals and form a cloth cutting feed port for the cloth to penetrate out, and the cloth cutting driving motor is mounted on the cloth cutting frame and is in driving connection with the upper cutting knife to drive the upper cutting knife to move towards the lower cutting knife so as to cut the cloth penetrating out from the cloth cutting feed port.

8. The cloth folding and forming device according to any one of claims 1 to 4, further comprising a crease pressing mechanism installed on the cloth cutting frame, wherein the crease pressing mechanism comprises a crease pressing wheel and a pressing wheel installation shaft, the crease pressing wheel is fixedly connected to the pressing wheel installation shaft, the pressing wheel installation shaft is rotatably installed above the cloth feeding channel in a direction perpendicular to the cloth conveying direction, a pressing driven roller is arranged below the cloth feeding channel and opposite to the crease pressing wheel, and the rim of the crease pressing wheel presses the cloth against the pressing driven roller, so that a folding line is processed on the cloth.

9. The cloth folding and forming device according to any one of claims 1 to 4, further comprising a dust removing mechanism mounted on the cloth cutting frame, wherein the dust removing mechanism comprises a dust cover and a dust removing fan arranged in the dust cover and electrically connected with the quality inspection controller, the dust cover is covered on the cloth cutting frame, and the cloth feeding mechanism, the cloth cutting mechanism and the quality inspection mechanism are all accommodated in the dust cover.

10. An automatic cloth wrapping device for an anesthesia pack, which is characterized by comprising the cloth wrapping and folding forming device of any one of claims 1 to 9.

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