Manufacturing method of automatic production line for medical rubber gloves

- Oct 09, 2020-

Background technique:


Medical rubber gloves are a kind of gloves, which can be used in household, industrial, medical, beauty and other industries. They are necessary hand protection products. In the prior art, hand mold holders are often used to fix hand molds and immerse them in the rubber bucket. Middle dipping, and then manually transported to other equipment for other processing steps, using manual dipping, the time and degree of dipping are not easy to control, and the manual operation efficiency is very low, and it is easy to cause temperature changes during the transfer process Large, resulting in an increase in the defective rate of the product, each stage of the process is divided, resulting in low production efficiency and consuming more manpower.

disposable latex surgical glove machine

Technical realization elements:


The technical problem to be solved by the present invention is to overcome the above technical shortcomings and provide a flow-based operation, each process is closely connected, and an automatic production line for high-efficiency medical rubber gloves is produced.


In order to solve the above technical problems, the technical solution provided by the present invention is: an automatic production line of medical rubber gloves, including a conveyor chain, a cleaning area, a dipping area, a baking area, a curling area, a flanging area, a demolding area, and a collection area. The conveyor chain is arranged in the cleaning zone, dipping zone, baking zone, crimping zone, flanging zone, demolding zone and collection zone to circulate. The cleaning zone, dipping zone, baking zone, demoulding zone and collecting zone The area is located on the lower layer, the curling area and the flanging area are located on the upper layer, a number of connecting pieces are hinged on the conveyor chain, the other end of the connecting piece is rotated to connect the glove mold, and one side of the conveyor chain is provided with a regulating glove mold An angle adjustment belt is placed, and one end of the connecting piece connected to the glove mold is placed on the adjustment belt.


Compared with the prior art, the present invention has the advantages that the various processes required for the design of the production of medical rubber gloves are placed in different areas, and the production is cycled through the conveyor chain in series, reducing human resource consumption and improving production efficiency. Each process step passes inspection The setting can also effectively ensure the production quality and reduce the defective rate. The glove mold is connected to the conveyor chain through the connector, and the rotating connection of the connector and the glove mold can make the glove mold transfer with the conveyor chain due to the connector The friction with the adjusting belt keeps rotating, so that the surface of the glove mold can be uniformly stressed in each process step.

Technical characteristics:


1. An automatic production line for medical rubber gloves, characterized in that it includes a conveyor chain, a cleaning area, a dipping area, a baking area, a curling area, a flanging area, a demolding area, and a collection area. The conveyor chain is set in the cleaning area. Zone, dipping zone, baking zone, curling zone, flanging zone, demolding zone and collection zone, the cleaning zone, dip zone, baking zone, demolding zone and collection zone are located in the lower layer, The curling area and the flanging area are located on the upper layer, the conveyor chain is hinged with a number of connecting pieces, the other end of the connecting piece is rotated to connect the glove mold, and one side of the conveyor chain is provided with an adjustment belt for adjusting the placement angle of the glove mold. One end of the connecting piece connected to the glove mold is placed on the adjusting belt.


2. The automatic production line of medical rubber gloves according to claim 1, characterized in that: the washing area includes a washing tank, and the washing tank is provided with a symmetrically placed turntable, and the opposite end faces of the turntable are provided with bristles. The other end of the turntable is respectively connected to a rotating shaft, and the other end of the rotating shaft is connected with a motor one.


3. The automatic production line of medical rubber gloves according to claim 1, wherein the dip area includes a chemical pool and a glue pool, and the chemical pool and the glue pool are separated by a baffle.


4. The automatic production line of medical rubber gloves according to claim 1, wherein the baking area includes an oven, the oven includes an upper oven and a lower oven, and a glove mold is provided between the upper oven and the lower oven. Convey the baking cavity for baking.


5. The automatic production line of medical rubber gloves according to claim 1, characterized in that: the crimping area includes a bearing base, a driven wheel, a driving wheel, an auxiliary transmission device and a crimping roller. The second motor is bolted on the fixed frame, and the output end of the second motor is connected to a universal joint transmission device. The universal joint transmission device includes a universal joint, a transmission shaft and an intermediate support. The universal joint transmission One end of the device away from the second motor is connected to the curling roller, the top surface of the fixing frame is welded with a mounting plate one, the center of the mounting plate one is provided with a sliding groove one, and the sliding groove one is provided with matching The bearing sliding block, the bottom end surface of the bearing sliding block is welded with a hydraulic lifting column, the fixing frame, the mounting plate one, the bearing sliding block, the sliding groove one and the hydraulic lifting column are symmetrically arranged in two groups, and the curling roller It is rotatably connected between the two sets of sliding blocks with bearings. The driven wheel and the driving wheel are both installed on the top of the bearing base, and the bearing base is provided on both sides of the driven wheel and the driving wheel. The driving wheel 1 and the driven wheel 1 are connected by a belt 1, a motor 3 is provided on the side of the bearing base connected to the driving wheel 1, and the output end of the motor 3 is connected to the driving wheel 2, and the connecting shaft of the driving wheel 1 extends to The outer side of the bearing base and the second driven wheel is provided on the extension end of the first connecting shaft of the driving wheel. The second driving wheel and the second driven wheel are connected by the second belt, and the driving wheel 1 and the driven wheel 1 are welded There is an auxiliary conveying device. The auxiliary conveying device includes an auxiliary wheel and a bearing connecting rod. Two sets of the auxiliary wheel and the bearing connecting rod are respectively provided. There are support rods welded between the support rods, the support rods are welded in four groups, the two sets of bearing connecting rods are rotatably connected with support wheels, the support wheels are rotatably connected to N groups, the two sets of auxiliary wheels and the two sets of The connecting rod with bearing is rotatably connected, the two sets of auxiliary wheels are connected by a flat-top chain plate, a tension adjusting device is arranged between the connecting rod with bearing and the belt one, and the tension adjusting device includes a ratchet wheel and a spring one. The inner side of the bearing connecting rod is fixedly installed with a ratchet, the central axis of the ratchet is rotatably connected to a rocker, the rocker is rotatably connected with a pawl used in conjunction with the ratchet, and the rocker rotates away from one end of the ratchet Connecting the roller one, the rocker and the bearing connecting rod are connected by a spring one.


6. The automatic production line of medical rubber gloves according to claim 1, wherein the flanging area includes a base, a rotating motor, an adjustment unit, a top frame, a bottom frame, a fixed plate and a hair roller, and the base is Rectangle, two sets of underframes are fixed in parallel on the side of the base away from the ground, the underframe is L-shaped, and the end of the vertical section of the underframe away from the horizontal section is fixed and welded on the base. A fixing groove is provided on the horizontal section, the fixing groove is oblong, a sliding plate is fixed on the fixing groove by bolts, a sliding plate is installed on the horizontal section of the base frame, and a top frame is installed on the sliding plate There are two sliding grooves for the sliding of the sliding block one on one side of the top frame, one end of the fixed plate is integrally formed with a sliding block one, and the sliding block one is installed in the sliding groove two of the top frame. The other end of the fixing plate is integrally formed with a matching plate one, the matching plate one is provided with a bolt hole, and the end of the matching plate one away from the fixing plate is fixed with a mounting plate two by bolts, and the mounting plate two is The one-piece molding is provided with a bushing for mounting the second rotating shaft on the wool roller, the wool roller is mounted on the bushing through the second rotating shaft, a sprocket is installed on the left side of the second rotating shaft, and the top of the top frame mounting fixing plate is fixed The adjusting plate is welded with the adjusting plate, the adjusting plate, the fixed plate and the sliding plate are all provided with through holes for screw rod installation, and the screw rods are installed on the through holes of the adjusting plate, the fixed plate and the sliding plate. An internal thread is provided in the through hole on the fixed plate, one end of the screw rod is installed in the through hole on the sliding plate through the adjusting plate and the fixed plate, and the screw rod is installed on a part of the through hole of the sliding plate. The screw is provided with a thread, a handle is installed on the end of the screw rod away from the sliding plate, a rotating motor is installed on the left side of the base, a sprocket is installed at the front end of the rotating motor shaft, and the bottom of the rotating motor is An adjustment unit is installed on one side of the frame, and a chain is installed on the adjustment unit, the sprocket and the sprocket. The adjustment unit at least includes an adjustment housing, a rotating wheel, a pulley, and a telescopic device. There is an outlet for the chain to pass through, and pulley one is installed at the position where the outlet contacts the chain. Three sets of telescopic devices are staggered in the adjusting housing. The end of the telescopic device away from the adjusting housing is equipped with rotating wheels. A chain is installed on the telescopic device, the adjusting housing is fixed on the bottom frame, the telescopic device includes at least two springs, a telescopic housing and a telescopic rod. The telescopic housing is provided with a cavity, and one end of the telescopic rod A rotating wheel is installed, the other end of the telescopic rod is installed in the telescopic housing through the telescopic housing, and the second end of the telescopic rod is installed in the telescopic housing and away from the rotating wheel.


7. The automatic production line of medical rubber gloves according to claim 1, wherein the demolding area includes a bracket, a gripper, a gas cylinder, and a rail, and the bracket includes one or two support columns and a horizontal rail. Rod two, the bottom ends of the two support columns are respectively connected to the two ends of the cross rod one, and the top ends of the two support columns are respectively connected to the two ends of the cross rod two, the cross rod one and the cross rod two are parallel Placed, the gripper is located on the front side of the bracket, the gripper includes a pole, a gripper and a moment arm, the gripper is located on the front side of the top of the pole, and the moment arm is located in the middle of the pole and is symmetrical Placed, the end of the force arm is connected with two rollers, the vertical rod is provided with a connecting rod, the end of the connecting rod far away from the vertical rod is provided with a limit block, and the connecting rod is connected with a spring three , The spring three is connected to two vertical rods through a connecting rod, the front side of the bottom of the vertical rod is hinged to a movable base, the movable base includes a bottom plate and a vertical plate, the bottom plate and the vertical plate are perpendicular to each other, and the bottom plate is symmetrically placed There are two sets of two sliding blocks. The two sliding blocks respectively slide and sleeve sliding rails. The inner side of the two sliding blocks is provided with a sliding groove three for the sliding rail to pass through. The sliding rails are placed parallel to the bottom plate. The two sides of the vertical plate are welded with reinforcing ribs. The vertical plate is provided with two sets of first matching holes for the sliding rail to pass through at the position corresponding to the sliding rail, and two sets of first matching holes are provided with bolt matching holes on both sides A fixing bolt is installed in the bolt fitting hole, and the fixing bolt passes through the bolt fitting hole and then is installed in cooperation with the swivel bearing at the bottom end of the vertical rod. The position of the bottom end of the vertical rod corresponding to the slide rail is provided for the slide rail to pass through The second matching hole, the side of the second matching hole facing the top plate is configured with an opening, the side of the vertical rod close to the second matching hole is configured with a limiting groove, and the limiting groove is symmetrical on both sides of the vertical rod A threaded limit hole is opened in the center of the limit slot, the lever arm and the limit slot are snap-fitted and installed, and are fixed by a limit bolt passing through the bolt limit hole, and the top of the pole is configured with a clamp A mounting groove for movably installed jaws, the clamping jaws have an arc-shaped plate structure, and the inner edge surface is constructed of rubber material, and the outer edge surface of the jaws is centrally constructed with a connecting block, and the connecting block is installed in cooperation with the installation groove , And inserted by the rotating shaft three, the bottom of the movable base is provided with a guide post, the bottom end of the guide post is provided with a pulley three, a matching plate two is provided between the gripper and the bracket, and the matching plate two is With an L-shaped plate structure, the second matching plate is provided with a third matching hole for the sliding rail to pass through at a position corresponding to the sliding rail, and the movable base is provided with a slot for clamping the second matching plate, and the matching plate The top end of the second plate is integrally constructed with a protective plate, the protective plate is located above the spring three, and the two sides of the protective plate are provided with matching grooves for the movement of the gripper, the matching plate two is provided with a through groove, and the through groove A top plate is provided, the top of the top plate is provided with a triangular part, and the hypotenuse of the triangular component abuts the two rollers located on both sides of the top of the top plate, the bottom of the top plate is provided with two pulleys, the track is an upright circular track, and the track includes a first track, a second track, and a third track. The two ends of the slide rail are respectively connected to the first rail and the fourth rail through positioning blocks, the bracket is located above the positioning block and connected to the positioning block, the second rail and the pulley are in two phases Cooperate, the third track and the pulley are matched in three phases, the middle of the second track is provided with a lifting section higher than the two ends of the second track, the lifting section cooperates with the top plate to open the grip, the lifting section of the second track An inflection point away from the first track is provided on the third track and the inflection point is located at the end of the lifting section downhill, the second track and the third track are also provided with correction points, and the gas cylinder corresponds to the beginning of the inflection point When placed, the gas cylinder is connected with a gas nozzle through a pipe, the gas nozzle is provided with two, and the gas nozzle is placed close to the clamping jaw.

8.The automatic production line of medical rubber gloves according to claim 1, wherein the collection area comprises a conveyor belt, two semicircular rollers placed symmetrically are arranged above the conveyor belt, and the peripheral surface of the semicircular roller is concave and convex.

Technical summary

The invention discloses an automatic production line for medical rubber gloves, which includes a conveyor chain, a cleaning area, a dipping area, a baking area, a curling area, a flanging area, a demolding area, and a collection area. The conveyor chain is arranged in the cleaning area, The dipping area, the baking area, the curling area, the flanging area, the demolding area, and the collection area circulate. The cleaning area, the dipping area, the baking area, the demolding area and the collection area are located in the lower layer, and the curling area And the flanging area is located in the upper layer, the conveyor chain is hinged with a number of connecting pieces, the other end of the connecting piece is rotated to connect the glove mold, and one side of the conveyor chain is provided with an adjustment belt for adjusting the placement angle of the glove mold. One end of the connecting piece connected to the glove mold is placed on the adjusting belt. Compared with the prior art, the present invention has the advantages of reasonable structure, flow-based automatic operation, close connection of various process steps, high efficiency and high quality, and saving manpower consumption.