CN210133746U - High-speed gauze folding machine - Google Patents

Abstract

The utility model discloses a high-speed gauze folder, by the base, the inflatable shaft, connect cloth mechanism, the tensioner, tightening means, cutter mechanism, the delivery wheel, the air cock, the gauze, belt mechanism, folding mechanism, hem mechanism, the live-rollers, the stain detector, inflatable shaft is equipped with at least one and axle center fixed mounting on the base, the gauze winding is installed on inflatable shaft, connect cloth mechanism to be located inflatable shaft one side, the stain detector is located tensioner one side, the stain detector is located the gauze top, through utilizing belt drive transportation gauze, the folding plate is accomplished foldingly, need use vacuum adsorption when having avoided shifting, make under high-speed function, the gauze can not drop on the processing unit, but equipment high-speed operation, thereby double promotion process velocity and guaranteed processingquality.

Description

High-speed gauze folding machine

Technical Field

The utility model relates to a high-speed gauze folder belongs to the gauze processing field.

Background

The gauze piece is a cleaning binding material commonly used in medical care work, the gauze piece is generally folded into multiple layers and then packaged, the existing gauze piece folding mainly comprises two modes of manual folding and mechanical folding, the manual folding speed is low, the efficiency is low, the labor amount is large, the labor cost is high, and the folding quality is unstable; mechanical folding is folded with dedicated gauze folding equipment, and prior art needs the vacuum adsorption gauze to another roller in the transfer process, when doing other steps, because the gauze gas permeability is good, so when speed reaches a definite value, the gauze can drop automatically, can't continue processing, can only slow down the functioning speed to lead to process speed slow, efficiency can't obtain promoting.

For example, the high-speed gauze folder that prior published technical application No. 201910151361.9, it makes the gauze hang at the epaxial horizontal pole of commentaries on classics to utilize the pivot rotation, utilize the folding of a plurality of horizontal poles to realize the gauze, the device is with low costs, small, the noise is little, high production efficiency, but because the gauze quality is lighter, the gas permeability is good, if pivot functioning speed reaches certain degree, the adsorption affinity when the gauze shifts is less than the centrifugal force of pivot, the gauze will be thrown off from the horizontal pole, the quality of production is relatively poor, can't accomplish efficiency and the dual of quality when the high rotational speed of motor and control.

For example, in the gauze folding and discharging mechanism for the medical gauze folding machine, which is disclosed by the prior published technical application No. 201821369439.1, gauze is automatically cut off, folded and automatically discharged by utilizing a plurality of rotating shafts and rotating roller matching cutters, but only one piece of gauze can be processed during each matching operation of the rotating rollers and the rotating shafts, and after the previous piece of gauze is processed, subsequent gauzes can follow up, so that the processing speed is low, and the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims at providing a high-speed gauze folder to solve in the transfer process and need vacuum adsorption gauze to another roller on, when doing other steps, because the gauze gas permeability is good, so when speed reaches a definite value, the gauze can drop automatically, can't continue processing, can only slow down the function speed, thereby lead to that process velocity is slow, efficiency can't obtain the problem that promotes.

In order to achieve the above purpose, the present invention is realized by the following technical solution: a high-speed gauze folding machine comprises a machine body, a base, an air expansion shaft, a cloth receiving mechanism, a tensioner, a tightening device, a cutter mechanism, a feeding wheel, an air nozzle, gauze, a belt mechanism, a folding mechanism, a flanging mechanism, a rotating roller and a stain detector, wherein the air expansion shaft is provided with at least one and the axis is fixedly arranged on the base, the gauze is wound and arranged on the air expansion shaft, the cloth receiving mechanism is positioned on one side of the air expansion shaft, the stain detector is positioned on one side of the tensioner, the stain detector is positioned above the gauze, the feeding wheel is provided with a plurality of feeding wheels, the feeding wheels are attached to the belt mechanism, the tightening device is positioned at the upper end of the cutter mechanism, the feeding wheels are attached to the belt mechanism, the belt mechanism is positioned below the cutter mechanism, the air nozzle is positioned between two groups of belt mechanisms, the folding mechanism is provided with a plurality of folding mechanisms, and the folding, the rotary rollers are arranged in a plurality and are attached to gauze, the rotary rollers are mounted on the base, and the gauze penetrates through the edge folding mechanism.

In order to optimize the technical scheme, the method further comprises the following steps:

according to a preferred mode, connect cloth mechanism to include fixed axle, shell, cylinder piston, silica gel board, silica gel fixed plate, the shell is equipped with two and symmetry, the fixed axle runs through on shell and fixed mounting on the base, the cylinder is installed in the left side on the shell, the cylinder is connected with the cylinder piston, cylinder piston one side fixed mounting has the silica gel board, the silica gel fixed plate is installed on the right side on the shell, the silica gel board is located silica gel fixed plate one side, the gauze is located between silica gel board and the silica gel fixed plate.

According to a preferred mode, the tightening device comprises a driving wheel, a driven rod, a shell, a convex column, a left tightening frame, a right tightening frame, a limiting groove, a shifting gear, a shifting rod and a fixed sliding groove, a driving motor is arranged at the rear side of the driving wheel, the driven rod is arranged on the surface of the driving wheel through a shaft rod, the driven rod is connected with the shifting rod through the shaft rod, the shell is fixedly arranged on a base, the convex column is arranged on one side of each of the left tightening frame and the right tightening frame, the convex column and the left tightening frame are in an integrated structure, the convex column and the right tightening frame are in an integrated structure, the limiting groove and the shifting rod are in clearance fit, a bearing is arranged at the axis of the shifting gear, the bearing is arranged on the inner wall of the shell, the shifting gear is meshed with the lower end of the left tightening frame, the shifting gear is meshed with the shifting rod, the fixed sliding groove is fixedly arranged on the inner wall of the machine shell, and the convex column is inserted into the fixed sliding groove.

According to a preferable mode, the belt mechanism comprises a first belt, a second belt, a turning wheel, a plurality of adjusting wheels, a third belt, a fourth belt, a fifth belt, a sixth belt and a seventh belt, the first belt is attached to the feeding wheel, the turning wheels are vertically arranged on the first belt, the turning wheel axle center is fixedly arranged on the base, the three turning wheels are arranged on the second belt in an L shape, the adjusting wheels are arranged on the belts and are attached to the belts, the adjusting wheel axle center is arranged on the base through screws, the third belt is positioned below the second belt and is symmetrical to the first belt at an oblique angle of 45 degrees, the air nozzle is positioned between the second belt and the fourth belt, the three turning wheels are arranged on the fourth belt in an obtuse angle shape, and the fourth belt is positioned above the fifth belt, the fifth belt is symmetrical to the third belt, the three turning wheels are arranged on the sixth belt in an obtuse triangular shape, the sixth belt is arranged on the right side of the fourth belt, and the sixth belt is arranged at the lower end of the seventh belt.

According to a preferred mode, folding mechanism includes folded plate, fixed cover, pivot, fixed screw, folded plate motor, the folded plate is rectangular platykurtic, fixed cover is installed in the pivot through fixed screw, folded plate fixed mounting is sheathe in fixed, the pivot is connected with the folded plate motor, the folded plate motor is installed on the base, second belt left side below is equipped with folding mechanism just the folded plate is located between second belt and the third belt, fourth belt right side below is equipped with folding mechanism just the folded plate is located between fourth belt and the sixth belt, the upper right side of fourth belt is equipped with folding mechanism just the folded plate is located between sixth belt and the seventh belt.

According to a preferred mode, the flanging mechanism comprises a diversion inclined plate and a limiting folded plate, the diversion inclined plate is located above the limiting folded plate and at least provided with a 1MM gap between the diversion inclined plate and the limiting folded plate, a trapezoidal open slot is formed in the left side of the limiting folded plate, and the diversion inclined plate is located at the open slot of the limiting folded plate.

According to a preferred mode, cutter mechanism includes limit cloth piece, cutter wheel, cutter, auxiliary wheel, cutter base, the cutter embedding is installed on the cutter wheel and through its surface of screw fixation, cutter length is greater than cutter wheel radius, limit cloth piece fixed mounting is on the cutter base, the auxiliary wheel is installed on cutter wheel right side, limit cloth piece is equipped with two, for right trapezoid shape, limit cloth piece laminates in the gauze, the cutter edge of a knife and auxiliary wheel clearance fit.

According to a preferred mode, the belt adopted by the belt mechanism 10 is made of food-grade PU materials.

According to an optimal mode, the silica gel plate 35 is made of food-grade silica gel.

The utility model relates to a high-speed gauze folder's beneficial effect does: through utilizing belt drive transportation gauze, the folded plate is accomplished foldingly, need use vacuum adsorption when having avoided shifting for under high-speed operation, the gauze can not drop on the processing part, but equipment high-speed operation, thereby the improvement process velocity of fold has just guaranteed processingquality.

When the gauze is used for the first time, the coiled gauze is arranged on two air expansion shafts (one is used and one is standby), the standby gauze cloth head is pasted with the double-sided adhesive tape, when one roll is used up to the tail part, a control cabinet connecting button is pressed down, the air cylinder is started, the air cylinder piston drives the silica gel plate to move forward, the standby gauze cloth head pasted with the double-sided adhesive tape is pasted on the used gauze cloth tail, the gauze cloth head enables the gauze to be always in a constant tension state in a tensioner, when the gauze passes through the stain detector, the stain detector detects impurities such as stains on the gauze, signals are transmitted to the control cabinet, the control cabinet analyzes the rotating speed of the current feeding wheel, when the gauze with the stains moves to a position between the second belt and the fourth belt, strong wind can be sprayed, the stains can be blown out from a gap between the second belt and the fourth belt, and the gauze is pulled by the feeding wheel by using friction force, the transmission direction can be adjusted and corrected by utilizing a rotating roller, when gauze passes through a flanging mechanism, the gauze is attached to a diversion inclined plate, when the gauze flows, two sides of the diversion inclined plate are limited and folded inwards by a limiting folded plate, a folded corner is positioned in a gap between the diversion inclined plate and the limiting folded plate, after the two sides are folded, the gauze moves to a tightening device along the rotating roller, on the tightening device, a motor at the rear side of a driving wheel is utilized to rotate the driving wheel, a driven rod is matched to pull the movable rod in a left-right reciprocating mode, when the movable rod moves to the left, a right tightening frame integrated with the movable rod moves to the left, the right side of the limiting gauze is meshed with a reversing gear by utilizing sawteeth at the upper end of the movable rod, the reversing gear rotates and then is meshed with the left tightening frame, so that the left tightening frame moves to the right, the left side of the limiting gauze is simultaneously limited and tightened, the gauze is converged in the gauze when the gauze is cut off, so that the hair of the gauze is not exposed, the convex column and the fixed chute start a limiting effect on the left tightening frame and the right tightening frame, so that the left tightening frame and the right tightening frame can slide stably, the tightened gauze is placed on the cutter mechanism and is erected under the action of a cloth limiting block on the cutter mechanism, the cutter wheel drives the cutter to rotate under the driving of a motor on the rear side of the cutter wheel, when a cutter edge of the cutter is in contact with the auxiliary wheel, the gauze is cut off, the length of the gauze is determined by the rotation period of the cutter wheel, the cut gauze is pulled by the belt mechanism, the gauze is positioned in a gap between the first belt and the second belt at the moment, the first belt and the second belt are driven by the feeding wheel, the gauze vertically moves along the gauze through the friction force on the belts between the first belt and the second belt, and when the gauze moves to the bottoms of the first belt and the second belt, the folding mechanism is positioned at the, the folded plate motor starts the pivot rotatory, the folded plate will be together rotatory, it is folding and push between second belt and the third belt with the gauze of vertical whereabouts, folded plate pivoted cycle has decided the folding length of gauze, will remove between fourth belt and fifth belt at the gauze on the same principle, remove between fourth belt and sixth belt, remove between sixth belt and seventh belt, and utilize the cutter mechanism of the upper left side of the right side downside of fourth belt and sixth belt to fold once more simultaneously, through the elasticity degree of the adjustable belt of adjustment adjusting wheel position, frictional force size when changing the transportation gauze.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

fig. 1 is a schematic structural view of the high-speed gauze folding machine of the present invention.

Fig. 2 is the structure schematic diagram of the cloth receiving mechanism of the high-speed gauze folding machine of the utility model.

Fig. 3 is a schematic structural view of the tightening device of the high-speed gauze folding machine of the present invention.

Fig. 4 is the schematic structural diagram of the belt mechanism of the high-speed gauze folding machine of the present invention.

Fig. 5 is a schematic structural view of the folding mechanism of the high-speed gauze folding machine of the present invention.

Fig. 6 is a schematic side view of the folding mechanism of the high-speed gauze folding machine of the utility model.

Fig. 7 is a schematic top view of the folding mechanism of the high-speed gauze folding machine of the present invention.

Fig. 8 is a schematic view of the three-dimensional structure of the folding mechanism of the high-speed gauze folding machine of the present invention.

Fig. 9 is a schematic structural view of the cutter mechanism of the high-speed gauze folding machine of the present invention.

Description of reference numerals: a base-1, an air expansion shaft-2, a cloth connecting mechanism-3, a tensioner-4, a tightening device-5, a cutter mechanism-6, a feeding wheel-7, an air nozzle-8, gauze-9, a belt mechanism-10, a folding mechanism-11, a folding mechanism-12, a rotating roller-13, a stain detector-14, a fixed shaft-31, a shell-32, a cylinder-33, a cylinder piston-34, a silica gel plate-35, a silica gel fixed plate-36, a driving wheel-51, a driven rod-52, a machine shell-53, a convex column-54, a left tightening frame-55, a right tightening frame-56, a limit groove-57, a change gear-58, a movable rod-59, a fixed chute-510, a first belt-101, a second belt-4, a second tightening device, A second belt-102, a turning wheel-103, an adjusting wheel-104, a third belt-105, a fourth belt-106, a fifth belt-107, a sixth belt-108, a seventh belt-109, a folded plate-111, a fixed sleeve-112, a rotating shaft-113, a fixed screw-114, a folded plate motor-115, a diversion inclined plate-121, a limit folded plate-122, a cloth limiting block-61, a cutter wheel-62, a cutter-63, an auxiliary wheel-64 and a cutter base-65.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

Referring to fig. 1-9, the present invention provides a high-speed gauze folding machine: the equipment body comprises a base 1, an air expansion shaft 2, a cloth receiving mechanism 3, a tensioner 4, a tightening device 5, a cutter mechanism 6, a feeding wheel 7, an air nozzle 8, gauze 9, a belt mechanism 10, a folding mechanism 11, a folding mechanism 12, a rotating roller 13 and a stain detector 14, wherein the air expansion shaft 2 is provided with at least one and the axis is fixedly arranged on the base 1, the gauze 9 is wound on the air expansion shaft 2, the cloth receiving mechanism 3 is positioned at one side of the air expansion shaft 2, the stain detector 14 is positioned at one side of the tensioner 4, the stain detector 14 is positioned above the gauze 9, the feeding wheel 7 is provided with eight, the feeding wheel 7 is attached to the belt mechanism 10, the tightening device 5 is positioned at the upper end of the cutter mechanism 6, the feeding wheel 7 is attached to the belt mechanism 10, the belt mechanism 10 is positioned below the cutter mechanism 6, and the air nozzle 8 is positioned between the two groups of belt mechanisms 10, the folding mechanism 11 is three, the folding mechanism 11 is located on one side of the belt mechanism 10, the rotating roller 13 is three, the rotating roller 13 is attached to the gauze 9, the rotating roller 13 is installed on the base 1, the gauze 9 penetrates through the folding mechanism 12, the cloth receiving mechanism 3 comprises a fixing shaft 31, a shell 32, a cylinder 33, a cylinder piston 34, a silica gel plate 35 and a silica gel fixing plate 36, the shell 32 is provided with two and symmetrical parts, the fixing shaft 31 penetrates through the shell 32 and is fixedly installed on the base 1, the cylinder 33 is installed on the shell 32 on the left side, the cylinder 33 is connected with the cylinder piston 34, the silica gel plate 35 is fixedly installed on one side of the cylinder piston 34, the silica gel fixing plate 36 is installed on the right side of the shell 32, the silica gel plate 35 is located on one side of the silica gel fixing plate 36, the gauze 9 is located between the silica gel plate 35 and the silica gel, the tightening device 5 comprises a driving wheel 51, a driven rod 52, a machine shell 53, a convex column 54, a left tightening frame 55, a right tightening frame 56, a limiting groove 57, a change gear 58, a moving rod 59 and a fixed sliding groove 510, wherein a driving motor is arranged at the rear side of the driving wheel 51, the driven rod 52 is arranged on the surface of the driving wheel 51 through a shaft rod, the driven rod 52 and the moving rod 59 are connected through the shaft rod, the machine shell 53 is fixedly arranged on the base 1, the convex column 54 is arranged at one side of each of the left tightening frame 55 and the right tightening frame 56, the convex column 54 and the left tightening frame 55 are integrated, the convex column 54 and the right tightening frame 56 are integrated, the limiting groove 57 is in clearance fit with the moving rod 59, a bearing is arranged at the axis of the change gear 58 and is arranged on the inner wall of the machine shell 53, the change gear 58 is meshed with the lower end of the left tightening frame 55, the change gear 58, the right end of the moving rod 59 is connected with the driven rod 52 through a shaft rod, the fixed chute 510 is fixedly installed on the inner wall of the machine shell 53, the convex column 54 is inserted into the fixed chute 510, the belt mechanism 10 comprises a first belt 101, a second belt 102, a plurality of direction-changing wheels 103, an adjusting wheel 104, a third belt 105, a fourth belt 106, a fifth belt 107, a sixth belt 108 and a seventh belt 109, the first belt 101 is attached to the feeding wheel 7, the direction-changing wheels 103 are provided with a plurality of direction-changing wheels 103, the two direction-changing wheels 103 are vertically installed on the first belt 101, the axis of the direction-changing wheels 103 is fixedly installed on the base 1, the three direction-changing wheels 103 are installed on the second belt 102 in an L shape, the adjusting wheels 104 are provided with a plurality of direction-changing wheels all attached to the belts, the axis of the adjusting wheels 104 is installed on the base 1 through screws, and the third belt 105 is located below the second, and is symmetrical to the first belt 101 with an oblique angle of 45 degrees, the air tap 8 is located between the second belt 102 and the fourth belt 106, three direction-changing wheels 103 are installed on the fourth belt 106 in an obtuse triangle shape, the fourth belt 106 is located above the fifth belt 107, the fifth belt 107 is symmetrical to the third belt 105, three direction-changing wheels 103 are installed on the sixth belt 108 in an obtuse triangle shape, the sixth belt 108 is installed on the right side of the fourth belt 106, the sixth belt 108 is installed at the lower end of the seventh belt 109, the folding mechanism 11 comprises a folded plate 111, a fixed sleeve 112, a rotating shaft 113, a fixing screw 114 and a folded plate motor 115, the folded plate 111 is in a strip flat shape, the fixed sleeve 112 is installed on the rotating shaft 113 through the fixing screw 114, the folded plate 111 is fixedly installed on the fixed sleeve 112, the rotating shaft 113 is connected with the folded plate motor 115, the folded plate motor 115 is installed on the base 1, the folding mechanism 11 is arranged below the left side of the second belt 102, the folded plate 111 is located between the second belt 102 and the third belt 105, the folding mechanism 11 is arranged below the right side of the fourth belt 106, the folded plate 111 is located between the fourth belt 106 and the sixth belt 108, the folding mechanism 11 is arranged above the right side of the fourth belt 106, the folded plate 111 is located between the sixth belt 108 and the seventh belt 109, the folding mechanism 12 comprises a diversion inclined plate 121 and a limit folded plate 122, the diversion inclined plate 121 is located above the limit folded plate 122, a gap of 1MM is at least arranged between the diversion inclined plate 121 and the limit folded plate 122, a trapezoidal open slot is arranged on the left side of the limit folded plate 122, the diversion inclined plate 121 is located at the open slot of the limit folded plate 122, the cutter mechanism 6 comprises a cloth limiting block 61, a cutter wheel 62, a cutter 63, an auxiliary wheel 64 and a cutter base 65, the cutter 63 is embedded and mounted on the cutter wheel, cutter 63 length is greater than cutter wheel 62 radius, limit cloth piece 61 fixed mounting is on cutter base 65, the auxiliary wheel 64 is installed in cutter wheel 62 right side, limit cloth piece 61 is equipped with two, for right angle trapezoidal form, limit cloth piece 61 laminates in gauze 9, the cutter 63 edge of a knife and auxiliary wheel 64 clearance fit, the belt that belt mechanism 10 adopted is food level PU material, silica gel plate 35 adopts food level silica gel material.

The working principle is as follows: when the gauze is installed and used for the first time, a roll of gauze is installed on two air expansion shafts 2 (one roll is used and one roll is standby), a standby gauze cloth head is pasted with a double-sided adhesive tape, when one roll is used up to the tail part, a control cabinet connecting button is pressed, an air cylinder 3 is started, an air cylinder piston 34 drives a silica gel plate 35 to move forwards, the standby gauze cloth head pasted with the double-sided adhesive tape is pasted on the tail part of a used gauze roll, the gauze cloth head enables the gauze to be in a constant tension state all the time at a tensioner 4, when the gauze passes through a stain detector 14, the stain detector 14 detects that impurities such as stains exist on the gauze, signals are transmitted to the control cabinet, the control cabinet analyzes the rotating speed of a current feeding wheel 7, when the gauze with the stains moves to a position between a second belt 102 and a fourth belt 106 through analysis and calculation, strong air can be sprayed out, the stains are blown out from a gap between the second belt 102 and the fourth, the gauze 9 is pulled by the feeding wheel 7 by friction, the transmission direction can be adjusted and corrected by using the rotating roller 13, when the gauze passes through the flanging mechanism 12, the gauze is attached to the flow guide inclined plate 121, when the gauze flows, two sides of the flow guide inclined plate 121 are limited by the limiting folded plate 122 to be folded inwards, the folded corner is positioned in a gap between the flow guide inclined plate 121 and the limiting folded plate 122, after the two sides are folded, the gauze moves to the tightening device 5 along the rotating roller 13, on the tightening device 5, the driving wheel 51 rotates by using a motor at the rear side of the driving wheel 51, the driven rod 52 is matched to pull the moving rod 59 in a left-right reciprocating mode, when the moving rod 59 moves to the left, the right tightening frame 56 integrated with the moving rod 59 moves to the left side of the limiting gauze, meanwhile, the sawtooth at the upper end of the moving rod 59 is meshed with the change gear 58, the change gear 58 rotates and then is meshed with the left tightening frame 55, the left tightening frame 55 is moved to the right, the left side of the gauze is limited, the two sides of the gauze are simultaneously limited and tightened, and the gauze is tightened during subsequent cutting, the gauze is converged when the gauze is cut off, the hair of the gauze is not exposed, the convex column 54 and the fixed chute 510 start limiting action on the left tightening frame 55 and the right tightening frame 56, the gauze and the right tightening frame can slide stably, the tightened gauze are placed on the cutter mechanism 6, are erected under the action of the cloth limiting block 61 on the cutter mechanism 6, the cutter wheel 62 drives the cutter 63 to rotate under the drive of the motor on the rear side of the cutter wheel 62, when the cutter 63 is in contact with the auxiliary wheel 64, the gauze is cut off, the rotation period of the cutter wheel 62 determines the length of the gauze, the cut gauze is pulled by the belt mechanism 10, the gauze is positioned in the gap between the first belt 101 and the second belt 102 at the moment, the first belt 101 and the second belt 102 are driven by the feeding wheel 7, by the friction on the belt between the first belt 101 and the second belt 102, the gauze is moved vertically, when the gauze is moved to the bottom of the first belt 101 and the second belt 102, the folding mechanism 11 located at the lower left of the second belt 102, the flap motor 115 starts the rotating shaft 113 to rotate, the flap 111 rotates together to fold and push the gauze falling vertically into the space between the second belt 102 and the third belt 105, the folding length of the gauze is determined by the rotation period of the flap 111, and similarly, the gauze moves between the fourth belt 106 and the fifth belt 107, between the fourth belt 106 and the sixth belt 108, between the sixth belt 108 and the seventh belt 109, and at the same time, the cutter mechanism 6 on the lower right side of the fourth belt 106 and the upper left side of the sixth belt 108 is used for folding again, the tightness degree of the belt can be adjusted by adjusting the position of the adjusting wheel 104, and the friction force when the gauze is transported is changed.

The utility model discloses a base 1 rear side be equipped with the PCL switch board, this switch board is for controlling tensioner 4 and electric elements such as stain detector 14 editor travel switch and brake rate, the connected mode is common mode, and is known content, therefore does not detailed any more, also does not show this switch board in the attached drawing, and feeding wheel 7 is equipped with one or more motors in base 1 rear side, can adopt modes such as chain to connect, its purpose is feeding wheel 7 rotation, this drive connected mode is common mode, and is known content, therefore does not detailed any more, tensioner 4 adopts the model to be magnetic damper coiling machine tensioner MTB-04, the device compact structure, the low noise, it is corrosion-resistant, stain detector 14 adopts reverse side SZ-non-woven fabrics, adopt the front irradiation based on advanced machine vision technique and combination non-woven fabrics sparsity and texture characteristics, the imaging mode of transmission combination, the system can perform high-speed and accurate surface defect detection on line, and combines on-line alarming of on-site processes, report statistics, product grading treatment and the like.

The specific embodiments described herein are merely illustrative of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims.

Claims (7)

1. A high-speed gauze folding machine is characterized by comprising an equipment body, wherein the equipment body consists of a base (1), an air expansion shaft (2), a cloth receiving mechanism (3), a tensioner (4), a tightening device (5), a cutter mechanism (6), a feeding wheel (7), an air nozzle (8), gauze (9), a belt mechanism (10), a folding mechanism (11), a flanging mechanism (12), a rotating roller (13) and a stain detector (14), wherein the air expansion shaft (2) is provided with at least one and the axis is fixedly arranged on the base (1), the gauze (9) is wound on the air expansion shaft (2), the cloth receiving mechanism (3) is positioned on one side of the air expansion shaft (2), the stain detector (14) is positioned on one side of the tensioner (4), the stain detector (14) is positioned above the gauze (9), the feeding wheels (7) are provided with a plurality of materials, and the feeding wheels (7) are attached to the belt mechanism (10), tightening means (5) are located cutter mechanism (6) upper end, delivery wheel (7) laminate mutually with belt mechanism (10), belt mechanism (10) are located cutter mechanism (6) below, just air cock (8) are located between two sets of belt mechanism (10), folding mechanism (11) are equipped with a plurality ofly, just folding mechanism (11) are located belt mechanism (10) one side, live-rollers (13) are equipped with a plurality ofly, just live-rollers (13) laminate mutually with gauze (9), live-rollers (13) are installed on base (1), gauze (9) run through in hem mechanism (12).

2. A high speed gauze folder as recited in claim 1, further comprising: connect cloth mechanism (3) including fixed axle (31), shell (32), cylinder (33), cylinder piston (34), silica gel board (35), silica gel fixed plate (36), shell (32) are equipped with two and symmetry, fixed axle (31) run through on shell (32) and fixed mounting on base (1), cylinder (33) are installed in the left side on shell (32), cylinder (33) are connected with cylinder piston (34), cylinder piston (34) one side fixed mounting has silica gel board (35), silica gel fixed plate (36) are installed on the right side on shell (32), silica gel board (35) are located silica gel fixed plate (36) one side, gauze (9) are located between silica gel board (35) and silica gel fixed plate (36).

3. A high speed gauze folder as recited in claim 1, further comprising: the tightening device (5) comprises a driving wheel (51), a driven rod (52), a machine shell (53), a convex column (54), a left tightening frame (55), a right tightening frame (56), a limiting groove (57), a change gear (58), a moving rod (59) and a fixed sliding groove (510), a driving motor is arranged on the rear side of the driving wheel (51), the driven rod (52) is arranged on the surface of the driving wheel (51) through a shaft rod, the driven rod (52) is connected with the moving rod (59) through the shaft rod, the machine shell (53) is fixedly arranged on the base (1), the convex column (54) is arranged on one side of the left tightening frame (55) and one side of the right tightening frame (56), the convex column (54) and the left tightening frame (55) are in an integrated structure, the convex column (54) and the right tightening frame (56) are in an integrated structure, the limiting groove (57) is in clearance fit with the moving rod (59), the bearing is arranged on the axis of the change gear (58) and is mounted on the inner wall of the machine shell (53), the change gear (58) is meshed with the lower end of the left tightening frame (55), the change gear (58) is meshed with the movable rod (59), the right end of the movable rod (59) is connected with the driven rod (52) through a shaft rod, the fixed sliding groove (510) is fixedly mounted on the inner wall of the machine shell (53), and the convex column (54) is inserted into the fixed sliding groove (510).

4. A high speed gauze folder as recited in claim 1, further comprising: the belt mechanism (10) comprises a first belt (101), a second belt (102), turning wheels (103), adjusting wheels (104), a third belt (105), a fourth belt (106), a fifth belt (107), a sixth belt (108) and a seventh belt (109), the first belt (101) is attached to the feeding wheel (7), the turning wheels (103) are arranged in a plurality, the two turning wheels (103) are vertically arranged on the first belt (101), the axes of the turning wheels (103) are fixedly arranged on the base (1), the three turning wheels (103) are arranged on the second belt (102) in an L shape, the adjusting wheels (104) are arranged in a plurality and attached to the belts, the axes of the adjusting wheels (104) are arranged on the base (1) through screws, the third belt (105) is positioned below the second belt (102) and is symmetrical to the first belt (101) at an oblique angle of 45 degrees, air cock (8) are located between second belt (102) and fourth belt (106), and are three diversion wheel (103) are obtuse triangle-shaped and install on fourth belt (106), fourth belt (106) are located fifth belt (107) top, fifth belt (107) and third belt (105) are symmetrical, and are three diversion wheel (103) are obtuse triangle-shaped and install on sixth belt (108), sixth belt (108) are installed on fourth belt (106) right side, sixth belt (108) are installed in seventh belt (109) lower extreme.

5. The high-speed gauze folder according to claim 4, wherein: folding mechanism (11) includes folded plate (111), fixed cover (112), pivot (113), fixed screw (114), folded plate motor (115), folded plate (111) is rectangular platykurtic, fixed cover (112) are installed on pivot (113) through fixed screw (114), folded plate (111) fixed mounting is on fixed cover (112), pivot (113) are connected with folded plate motor (115), folded plate motor (115) are installed on base (1), second belt (102) left side below is equipped with folding mechanism (11) just folded plate (111) are located between second belt (102) and third belt (105), fourth belt (106) right side below is equipped with folding mechanism (11) just folded plate (111) are located between fourth belt (106) and sixth belt (108), fourth belt (106) upper right side is equipped with folding mechanism (11) just folded plate (111) are located sixth belt (108) and seventh belt (109) In the meantime.

6. A high speed gauze folder as recited in claim 1, further comprising: hem mechanism (12) are including water conservancy diversion swash plate (121), spacing folded plate (122), water conservancy diversion swash plate (121) are located spacing folded plate (122) top and between be equipped with 1 MM's clearance at least, spacing folded plate (122) left side is equipped with trapezoidal shape open slot just water conservancy diversion swash plate (121) are located spacing folded plate (122) open slot department.

7. A high speed gauze folder as recited in claim 1, further comprising: cutter mechanism (6) are including limit cloth piece (61), cutter wheel (62), cutter (63), auxiliary wheel (64), cutter base (65), install on cutter wheel (62) and through its surface of screw fixation cutter (63) embedding, cutter (63) length is greater than cutter wheel (62) radius, limit cloth piece (61) fixed mounting is on cutter base (65), auxiliary wheel (64) are installed in cutter wheel (62) right side, limit cloth piece (61) are equipped with two, for right angle trapezoidal form, limit cloth piece (61) laminate in gauze (9), cutter (63) edge of a knife and auxiliary wheel (64) clearance fit.

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