CN111346794A - Two-component glue mixing device capable of overturning glue outlet through magnetic stirring - Google Patents

Abstract

A double-component glue-preparing device with magnetic stirring and overturning glue is used for uniformly stirring, mixing and pouring quick-drying glue with good fluidity according to a certain proportion, and comprises material storage barrels for respectively containing A, B components, a pipeline for enabling single-component glue materials to flow to a mixer and the mixer, and is characterized in that a double control valve is arranged between the pipelines for enabling the two single-component glue materials to flow to the mixer, a wide-mouth glue nozzle serving as the mixer and a stirrer are arranged below the double control valve, a mechanism capable of enabling the wide-mouth glue nozzle to be positioned and overturned to pour glue at a determined position and restore the original position in time is arranged, the stirrer is composed of a stirring rod arranged in the wide-mouth glue nozzle and a controllable magnetic rotating body arranged in the rotating body close to the bottom of the wide-mouth glue nozzle, and a mechanism with cooperative action is arranged among a valve body, the wide-mouth glue nozzle combination and/or the stirrer. Because the mixed inner rubber path is wide, the inner wall is smooth, and the rubber outlet is arranged above the inner rubber path, the blockage of the rubber path can be effectively avoided, the service life of the mixer is greatly prolonged, and the mixer is simple in structure and convenient to use.

Description

Two-component glue mixing device capable of overturning glue outlet through magnetic stirring

Technical Field

The invention relates to a device for uniformly stirring and mixing a bi-component adhesive according to a certain proportion, which is particularly suitable for glue pouring or dispensing of a quick-drying adhesive with better fluidity. The invention is a divisional application of Chinese patent application CN 2018116498903.

Background

The existing double-component sizing equipment comprises a pneumatic or electric spraying machine, a glue pouring machine, a glue dispenser, a glue gun and the like, the volume ratio or the mass ratio is generally adjusted by a gear pump, an air pump or an electronic balance, and the sizing materials of the two components flow out from a glue outlet after being mixed by a static mixing tube or a dynamic stirrer, so that the double-component sizing equipment is suitable for double-component adhesives which react slowly and have better fluidity. However, the static mixing pipe is internally provided with the intensive spiral channels for cutting the mixed glue solution, the pipe cavity is narrow and has a curved shape and a large surface area, so that the intermittent glue discharging, particularly quick-drying glue, is easy to cause the enrichment of a cured substance, the glue discharging flow and the mixing effect are influenced, and finally the blockage is caused, and the frequent replacement of the static mixing pipe not only influences the work efficiency and wastes glue materials, but also hardly bears the pipe replacement cost and also influences the environmental protection. The conventional dynamic stirrer drives the stirring paddle by the motor to realize the mixing of the rubber material in the finger-sized mixing vessel, and the stirring paddle and the mixing vessel can continuously adhere and deposit residual rubber which starts to solidify along with the increasing of the using time and frequency to cause blockage. In addition, the use of glue is influenced by the existence of the stirrer in the mixing container, and the conventional lifting stirrer is complex in structure and high in cost. The problems seriously affect the flow process of factories and the popularization and application of the novel environment-friendly quick-drying AB glue.

Disclosure of Invention

The invention provides a bi-component glue mixing device capable of stirring and overturning glue by magnetic force, which can greatly prolong the service time of a stirring mixer, and has simple structure and convenient use. The second purpose of the invention is to provide a stirring device which is suitable for the first purpose of the invention, has convenient use, simple structure and low cost, and does not influence the application of sizing materials. The technical scheme is as follows.

The utility model provides a magnetic stirring overturns out gluey bi-component and joins in marriage mucilage binding and puts, includes the storage bucket of splendid attire A, B components respectively, makes the pipeline and the blender of single component sizing material flow direction blender, and characterized by sets up one between the pipeline of two single component flow direction blenders and chews the agitator that constitutes by puddler and broad-mouthed glue, broad-mouthed glue is chewed and is set up on and to make agitator or broad-mouthed glue chew the location upset in order to empty out gluey and in time resume normal position mechanism in the definite position.

The utility model provides a magnetic stirring upset goes out gluey bi-component and joins in marriage mucilage binding and puts, including the storage bucket of splendid attire A, B components respectively, make single component sizing material flow direction mixer's pipeline and blender, characterized by takes the upset and the wide mouthful of gluing of drive structure that resets to chew and set firmly on support piece through the pivot to be in noninterfere wide mouthful of gluing with quiescent puddler and paddle and chew pivoted position, the motor shaft links a puddler, it chews the top at wide mouthful and sets up a supporter to glue, corresponds motor and wide mouthful glue on the supporter and chews the position and establish the through-hole, the puddler passes freely the through-hole, establish the elastic component between supporter and motor, push down the motor, the puddler descends, pressure release back puddler returns original department.

A dual-component glue-preparing device with magnetic stirring and turnover glue discharging comprises a storage barrel for respectively containing A, B components, a pipeline for enabling single-component glue to flow to a mixer, and the mixer, and is characterized in that a plurality of wide-mouth glue nozzles are orderly arranged in a rotating body with a horizontal rotating shaft to form a circulating wide-mouth glue nozzle combination, a pump body or a valve body for flowing two-component glue solution according to the proportion is arranged above the wide-mouth glue nozzle in the normal position, and a stirrer capable of separating from the wide-mouth glue nozzle is arranged, after the wide-mouth glue nozzle combination rotates for 90 degrees around a horizontal central shaft, the glue-applying of the first wide-mouth glue nozzle is completed, and the glue-applying of the second wide-mouth glue nozzle is in.

A double-component glue mixing device with magnetic stirring and overturning glue discharging comprises a storage barrel for respectively containing A, B components, a pipeline for enabling single components to flow to a mixing chamber, a valve body, the mixing chamber and a stirrer, wherein the two components flow out according to a certain proportion, the double-component glue mixing device is characterized in that the mixing chamber is formed by combining more than two circularly rotating wide-mouth glue nozzles, when the valve body for controlling the two single components to flow to the mixing chamber is opened, at least one wide-mouth glue nozzle is in a positive state for receiving glue materials, the stirrer controlled for stirring and mixing is arranged above or in the positive wide-mouth glue nozzle, when the original positive wide-mouth glue nozzle is overturned to an overturning state to pour out the mixed glue solution at a determined position, the next wide-mouth glue nozzle is in a positive state, and the stirrer is in a controllable normal working state, a transmission mechanism or a structure matched with the transmission mechanism is arranged on a rotating shaft of the circularly rotating wide-mouth glue nozzle combination, the wide mouth rubber nozzle combination or the stirrer is matched in a lifting way in the vertical direction when the state is changed, or a stirring device and an anti-falling part are arranged in the wide mouth rubber nozzle, a controllable magnetic force rotating body is arranged in a rotating body close to the bottom of the wide mouth rubber nozzle, and a mechanism for the cooperative action is arranged among the valve body, the wide mouth rubber nozzle combination and/or the stirrer.

The caliber of the upper end of the wide-mouth rubber nozzle is not smaller than that of the bottom; the rotating shaft for positioning and overturning is arranged at the middle part or on one side far away from the overturning part when viewed from the horizontal direction, and is arranged at the middle part or in an area above the middle part when viewed from the vertical direction, and the specific position of the rotating shaft is matched with the caliber of the upper end and the lower end of the wide-mouth rubber nozzle, the depth of a container, the insertion depth of a stirring rod, the shape of the container and the overturning angle of the stirring rod, and the caliber of the upper end of the wide-mouth rubber.

The rotating shaft of the wide-mouth rubber nozzle combined structure is arranged in the horizontal direction or the vertical direction.

The rotating shaft of the horizontal direction or the vertical direction is provided with the opening widening glue nozzle combined structure and can incline by 5-45 degrees, and the rotating shaft is preferably inclined by 10-20 degrees to assist in overturning.

The inclination angle of the inner wall of the mouth widening rubber nozzle is 5-30 degrees, and preferably 7.5-15 degrees.

The caliber of the upper end of the wide-mouth rubber nozzle is not less than 2 times of the insertion depth of the stirring rod or the depth of the container.

The mechanism is an automatic mechanism, a horizontal rotating shaft is arranged on the wide mouth rubber nozzle, a motor or a transmission structure matched with the motor is arranged on the horizontal rotating shaft, the motor is controlled by a system, the transmission structure can be driven by the motor to complete timing stirring, overturning and resetting, the automatic system comprises a proportioning adjusting module, a double-pipe single valve control module, an overturning and resetting action executing module, a time control module, a signal input and output module, a calculating and storing module and a display device.

The mechanism is a manual mechanism, a rotating shaft is arranged on the wide-mouth rubber nozzle, and a structure capable of turning over the wide-mouth rubber nozzle is arranged on the rotating shaft or the wide-mouth rubber nozzle.

The outer wall of the wide-mouth rubber nozzle is provided with a mechanism which can turn over the wide-mouth rubber nozzle on a rotating shaft to dump the mixed rubber liquid and can reset the wide-mouth rubber nozzle and the stirring rod.

The mechanism comprises a rotating shaft, a supporting body for fixing the rotating shaft, a positioning and/or driving structure or a power source for combining the broad-mouthed rubber nozzles.

The mechanism comprises a rotating shaft, a supporting body for fixing the rotating shaft, a wide-mouth rubber nozzle and a positioning and/or driving structure matched with the wide-mouth rubber nozzle or the rotating shaft.

The pivot level sets up on wide mouthful of glue chews, and the preferred one side eccentric settings of toppling over of wide mouthful glue chewing of keeping away from is in order to realize dead weight upset and reset.

The rotating shaft is horizontally arranged on one side of the wide-mouth glue nozzle, close to or close to the outer wall of the wide-mouth glue nozzle by a support body, the height of the rotating shaft is preferably 1/2 which is lower than the height of the wide-mouth glue nozzle, and a limit structure matched with the opposite side of the pouring direction of the wide-mouth glue nozzle is arranged on the stirring rod.

The positioning and driving structure is formed by a slide block below the wide-mouth rubber nozzle and a stirring rod in the wide-mouth rubber nozzle, the slide block is provided with a positioning structure matched with the bottom or the outer edge of the wide-mouth rubber nozzle, the slide block plays a role in supporting and positioning during stirring, and after the wide-mouth rubber nozzle is moved downwards or horizontally away from the wide-mouth rubber nozzle, the wide-mouth rubber nozzle is turned around a shaft due to dead weight; when the wide mouth rubber nozzle is shallow and/or the mouth part is wide enough, the stirring rod is in the container during turning, and the container is applied with return pressure; still be equipped with on the puddler when widening mouthful glue and chew darker or the opening insufficient on the puddler with the upset when the container corresponds along complex limit structure, the preferred unsmooth cooperation of this limit structure, the puddler is preferred to be set up elasticity or can be freely flagging round pin hub connection, this makes the puddler to widening mouthful glue to chew and have bigger return pressure.

The position and the direction of the wide-mouth rubber nozzle on the turntable or the combined rack are unchanged.

The overturning and resetting are controlled by magnetic force or electromagnetic force.

The stirring rod or the stirring rod and the wide-mouth rubber nozzle are detachable.

The stirring rod is in a plug-in type, one end of the plastic pipe is plugged in the motor rotating shaft, the other end of the plastic pipe is provided with a wing piece, and the wing piece can be formed by breaking and separating the hose end head.

And a drainage nozzle is arranged on the upper port of the container towards the toppling-over side.

The inner wall of the container is provided with an oil-repellent layer or a non-adhesive coating.

And a polytetrafluoroethylene layer is coated or lined on the inner wall of the wide mouth rubber nozzle.

The wide-mouth rubber nozzle is made of polytetrafluoroethylene.

The inner wall of the container is of a peelable thousand-layer structure.

The material storage barrel is communicated with a gas storage tank of an air compressor and keeps stable pressure.

A temperature control body is arranged on the base for placing the wide mouth rubber nozzle.

The temperature control body is a hot water sleeve, a cold water sleeve, a chemical or phase change heating or refrigerating material or a Peltier cooler.

The discharge valve of the AB component is in stirring linkage with a motor, and the wide mouth rubber nozzle is in turnover driving linkage, and the turnover is driven by the motor.

The caliber of the upper end of the wide-mouth rubber nozzle is not less than that of the bottom; the rotating shaft for positioning and overturning is arranged at the middle part or on one side far away from the overturning part when viewed from the horizontal direction, and is arranged at the middle part or in an area above the middle part when viewed from the vertical direction, and the specific position of the rotating shaft is matched with the caliber of the upper end and the lower end of the wide-mouth rubber nozzle, the depth of a container, the insertion depth of a stirring rod, the shape of the container and the overturning angle of the stirring rod, and the caliber of the upper end of the wide-mouth rubber.

The motor is of an electric hand drill structure. The electric hand drill is characterized in that an electric key is arranged at the position, opposite to the supporting body, of a motor of the electric hand drill structure, and the electric key is connected with the stirring rod to rotate after being pressed in place. The handle of the motor of the electric hand drill structure is provided with a flexible suspension. The flexible suspension is a helical wire. The self-lubricating sleeve is arranged on the through hole of the support body.

The circulating type wide mouth glue nozzle combination is formed by detachably embedding four or four stacks of wide mouth glue nozzles into the rotating body. The circulating wide-mouth glue nozzles are uniformly distributed in the rotating body. The stirring rod and the wide mouth rubber nozzle can move relatively in the vertical direction.

The invention adopts the turnover wide-mouth rubber nozzle and the stirring rod with simple structure as the mixer, and because the inner rubber mixing path is wide and the inner wall is smooth, and the rubber outlet is arranged above the mixer, the blockage of the rubber path can be effectively avoided, and the service life of the mixer is greatly prolonged.

Because the caliber of the upper end of the wide-mouth rubber nozzle is not smaller than that of the bottom, the wide-mouth rubber nozzle can completely flow out at a not too large rotating angle. Because the upper end bore of the mouth widening glue nozzle is larger than the lower end bore, the bottom glue solution can flow out when the container inclines for 90 degrees, and a plurality of same containers can be conveniently superposed, particularly, the inclined angle of the inner wall of the mouth widening glue nozzle is preferably 5-30 degrees, and is further preferably 7.5-15 degrees, so that the bottom area can be larger and the mixing effect is better while the effects are achieved.

Because the pivot setting of location upset is in the level to and/or vertical to the middle part or keep away from the side of empting and/or the area more than the vertical direction middle part, can make the puddler have bigger depth of insertion under the prerequisite that does not hinder container upset and reset, also make the container have the bigger volume of bigger degree of depth simultaneously.

Because the caliber of the upper end of the wide-mouth rubber nozzle is not less than 2 times of the insertion depth of the stirring rod or the depth of the container, the stirring rod cannot interfere with the overturning and resetting movement of the container when the horizontal rotating shaft is fixedly arranged in the horizontal middle of the container.

Because the mechanism is automatic mechanism, and it establishes the motor or can with motor complex transmission structure to open to glue to chew on establishing the horizontal rotating shaft, and the motor receives system control, and transmission structure can accomplish under the motor drives regularly stirring, upset, resets, and automatic system includes ratio adjusting module, double-barrelled single valve control module, upset and reset action execution module, time control module, signal input output module calculation storage module and display device, and the ratio is more accurate, mixes more evenly, and it is more simple and convenient to operate.

Because the mechanism is a manual mechanism, the rotating shaft is arranged on the wide-mouth rubber nozzle, the structure which can enable the wide-mouth rubber nozzle to overturn is arranged on the rotating shaft or the wide-mouth rubber nozzle, the outer wall of the wide-mouth rubber nozzle can be further provided with a mechanism which can enable the wide-mouth rubber nozzle to overturn in the rotating shaft so as to dump and stir mixed glue solution, and the wide-mouth rubber nozzle and the stirring rod can reset, the structure is simple, and the cost is low.

Because the mechanism comprises the rotating shaft, the supporting body for fixing the rotating shaft, the wide-mouth rubber nozzle and the positioning and/or driving structure matched with the wide-mouth rubber nozzle or the rotating shaft, the double-component feeding and rubber discharging positions can be kept fixed, and the operation is convenient

Because the rotating shaft is eccentrically arranged at one side far away from the wide mouth rubber nozzle in the horizontal direction, the self-weight overturning and resetting can be realized.

Because the rotating shaft is horizontally arranged on the wide-mouth rubber nozzle by the movable support body, the movable support frame can enable the rotating shaft and the container to move up and down or up and down and left and right, thereby tolerating larger insertion depth of the stirring rod, larger container depth and larger volume. On the basis, the rotating shaft is horizontally arranged on one side of the wide mouth glue mouth, close to or close to the outer wall of the wide mouth glue mouth and preferably higher than 1/2 of the wide mouth glue mouth in height, and the stirring rod is provided with a limiting structure matched with the opposite side of the wide mouth glue mouth pouring side, so that the horizontal displacement and deviation are smaller when the container is overturned, and the influence of the stirring rod on the overturning is avoided or reduced.

Because the positioning and driving structure is formed by a slide block below the wide-mouth rubber nozzle and a stirring rod in the wide-mouth rubber nozzle, the slide block is provided with a positioning structure matched with the bottom or the outer edge of the wide-mouth rubber nozzle, the slide block plays a role in supporting and positioning during stirring, and after the wide-mouth rubber nozzle is moved downwards or horizontally away from the wide-mouth rubber nozzle, the wide-mouth rubber nozzle is overturned around a shaft due to dead weight; when the wide mouth rubber nozzle is shallow and/or the mouth part is wide enough, the stirring rod is in the container during turning, and the container is applied with return pressure; still be equipped with on the puddler when widening mouthful glue and chew darker or the opening insufficient on the puddler with the upset when the container corresponds along complex limit structure, the preferred unsmooth cooperation of this limit structure, the puddler is preferred to be set up elasticity or can be freely flagging round pin hub connection, this is that the puddler has bigger return pressure to widening mouthful glue to chewing.

Because the magnet or the electromagnet is arranged between the wide-mouth rubber nozzle and the sliding block, the overturning and the resetting are controlled by magnetic force or electromagnetic force, and the automatic or semi-automatic control is convenient.

The stirring rod or the stirring rod and the wide-mouth rubber nozzle are detachable, so that the stirring rod or the stirring rod and the wide-mouth rubber nozzle are convenient to detach and replace.

Because the stirring rod is of a plug-in type, the disassembly and the replacement are more convenient.

Because one end of the plastic tube is inserted on the motor rotating shaft, and the other end of the plastic tube is used as a wing of the paddle and is formed by breaking and separating the hose end, the cost is low.

Because the upper port of the container is provided with the drainage nozzle or the drainage groove towards the toppling-over side, the positioning is more accurate during glue pouring or dispensing.

The adhesion of the glue solution and the condensate thereof can be reduced because the inner wall of the container is provided with the oil-repellent layer or the non-stick glue coating.

The container is very convenient to disassemble and replace due to the fact that the container is stacked in multiple layers or the inner wall of the container is of a strippable multi-layer structure.

The storage barrel is communicated with the air storage tank of the air compressor, and the pressure stabilization is kept, so that the stability of single component flow and the stability of double component distribution ratio are facilitated.

The circulating type wide mouth glue nozzle combination is formed by detachably embedding four or four stacks of wide mouth glue nozzles into the rotating body. The circulating wide-mouth glue nozzles are uniformly distributed in the rotating body. The stirring rod and the wide mouth rubber nozzle move relatively in the vertical direction.

Drawings

FIG. 1 is a structural schematic diagram of the invention with an eccentric shaft pin on a wide-mouth rubber nozzle and a sliding block arranged at the bottom and below the eccentric shaft pin

FIG. 2 is a schematic view showing the structure of the present invention which can be freely reversed without taking the agitator into consideration of the shape and the positional relationship

FIG. 3 structural schematic of the present invention with an electric telescopic agitator

FIG. 4 is a schematic view of the present invention with a simple telescopic stirring and cord flipping structure

FIG. 5 is a schematic view of a combined structure of a wide-mouth rubber nozzle with a horizontal rotating shaft according to the present invention

FIG. 6 is a schematic view of the structure of the present invention with an electromagnetic stirrer

FIG. 7 is a schematic view of a combined structure of a wide-mouth rubber nozzle with a vertical rotating shaft according to the present invention

FIG. 8 control principle and working procedure schematic

In the figure, a motor 3 of a pipeline 1a and a storage barrel 2 b of a barometer 1 of a barrel cover 1 fixes a plate 5 guide pipe 6 double-pipe feed valve supported by an iron sheet 3a band iron 3b electromagnetic metering pump or a double-pipe feed valve 4, an outlet end 6a rotating shaft 7 of the double-pipe feed valve 6, a coupler 8, a flap 9a stirring rod 9 with smaller rotating radius, a flap 9b blade 9c stirring rod 9d with larger rotating radius, a wide mouth rubber nozzle 10, a drainage nozzle 10a inclined plate or a U-shaped inclined groove 10b, a shaft pin 11 sheath 12 swivel or a slider 13 positioning projection 13a control part or an operation handle 14, a support frame 16, a spring 17, a cord 19, a handle 20, an air blowing pipe 21 surrounding edge 22, and a mechanism.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

Example 1

As shown in fig. 1, a barometer 1a and a pipeline 1b communicated with an air storage tank of an air compressor are arranged on a barrel cover 1 of each storage barrel 2 respectively containing A, B components to maintain constant pressure so as to stabilize glue outlet flow and glue outlet quantity, discharge pipes on the two storage barrels 2 are respectively connected with inlet ends of double-pipe feed valves 4, and outlet ends 6a of the double-pipe feed valves 4 penetrate through plate surfaces 5 supported by supporting frames 16 and are respectively connected with two guide pipes 6 in an inserting mode. A micro motor 3 is arranged between two guide pipes 6 and is fixed on a plate surface 5 by an iron sheet 3a and a holding iron 3b, a rotating shaft 7 at the lower end of the motor 3 is connected with a stirring rod 9 through a coupling 8 capable of adjusting tightness, a hinge 9a with smaller rotating radius is arranged at the higher position at the lower end of the stirring rod, and a hinge 9b with larger rotating radius is arranged at the lower position, so that the two components with different densities, different viscosities and different proportions are uniformly mixed. The lower end of the stirring rod is arranged in a wide mouth glue nozzle 10, a sheath 12 with a clamping protection effect is arranged on the wide mouth glue nozzle 10, a round hole for installing a shaft pin 11 is arranged at the corresponding position of the two sides of the glue outlet side deviating from the center of the whole wide mouth glue nozzle, which is far away from the wide mouth glue nozzle 10, on the sheath 12, and the other end of the shaft pin is movably connected on a supporting rod 15. The conduit 6 above the wide mouth rubber nozzle 10 is arranged in an inverted splayed shape to ensure that the double components can enter the wide mouth rubber nozzle 10, the wide mouth rubber nozzle 10 is also provided with a drainage nozzle 10a, and the inner notch of the drainage nozzle 10a is in a circular arc shape to reduce the adhesion of glue solution. A slide block 13 with a plurality of positioning projections 13a and a control part 14 is arranged below the wide-mouth rubber nozzle 10. Infrared sensors (not shown) are arranged on two sides of the wide mouth rubber nozzle. The slide block 13 has supporting and positioning functions to ensure the smooth proceeding of batching and stirring in a normal state, a power switch is started before use according to different temperatures, different viscosities, different densities and different rheological properties to adjust a certain proportion by different pressures and different pipe diameters or valve body opening degrees, when an infrared sensor senses that a wide-mouth rubber nozzle is in place, a double-component AB sizing material flows into the wide-mouth rubber nozzle according to determined time and amount, a double-pipe feeding valve 4 is closed, a motor 3 starts a stirring rod 9 to stir for 10 seconds to be uniform, the slide block 13 and a support rod 15 drive the wide-mouth rubber nozzle 10 to descend to enable the lower end of the stirring rod 9 to be away from the wide-mouth rubber nozzle 10, then the support rod 15 is fixed, the slide block 13 is moved away in a controlled mode, and the wide-mouth rubber nozzle 10 is unbalanced and deflects around a shaft pin so as to pour out the mixed glue liquid at a determined place to finish primary gluing; then the slide block 13 returns to drive the wide mouth glue nozzle to rotate to the normal position, then the slide block and the support rod 15 rise synchronously to drive the wide mouth glue nozzle 10 to return to the normal position, at the moment, the stirring rod 9 is placed in the wide mouth glue nozzle 10 again, the guide pipe 6 is over against the wide mouth glue nozzle 10, an action cycle is completed, and the second time of material preparation, stirring, overturning, glue application and returning are started. The feeding valve 4 of the embodiment is an electric control double-pipe single valve and a double-component synchronous switch. The actions of the supporting rod 15 and the sliding block 13 can be controlled electrically or manually, and can also be controlled automatically or semi-automatically through a program and the arrangement of a functional module and a chip.

Example 2

As shown in figure 2, the double-component glue material quantitatively flowing out from the self-pressure AB storage barrel according to a certain proportion flows through a double-pipe feeding valve fixedly arranged on an operation platform at a lower position through respective pipelines, the outlet end of the double-pipe feeding valve is sleeved with a conduit, and the distance between two outlets of the conduit is equal to the distance of the glue material which can completely flow into the wide-mouth glue nozzle. A motor is fixed right above the wide-mouth glue nozzle 10 through a support frame, a rotating shaft with a taper at the lower end is arranged below the wide-mouth glue nozzle, a hollow plastic stirring rod 9 at the upper end is inserted on the rotating shaft in an interference manner, one side close to the lower part is provided with the wide-mouth glue nozzle 10 with an upper opening diameter size larger than the height and an inclination of 25-45 degrees at the side wall, a plurality of same wide-mouth glue nozzles can be overlapped and sleeved by the taper so as to change the innermost layer as necessary, a shaft pin 11 is arranged at the position close to the opposite side and the upper edge of the dumping direction, two ends of the shaft pin are fixed on the support frame of a platform, the lower part of the wide-mouth glue nozzle 10 is sleeved with an operating handle 14 which can be temporarily fixed on the support frame, the specific position is determined by the degree that the stirring rod 9 falls in the wide-mouth glue nozzle 10 during the batching and stirring, when the operating handle 14 is started, the wide-mouth glue nozzle 10 overturns around the shaft pin 11 so as, the glue yield is not affected. When blending and stirring, a storage barrel which automatically supplements rubber materials to keep the liquid level stable is arranged and passes through a guide pipe sleeved at the outlet end of a double-pipe feed valve, the two-component rubber materials with the adjusted ratio are quantitatively injected into the wide-mouth rubber nozzle 10, a motor works to drive the stirring rod paddle 9c to rotate, the two-component rubber materials are uniformly stirred after a plurality of seconds, then the wide-mouth rubber nozzle 10 turns around the eccentrically arranged shaft pin 11 within a preset time, meanwhile, the stirring rod 9 with a simple structure basically leaves the wide-mouth rubber nozzle 10, and the rubber liquid flows out without obstacles.

Example 3

The wide-mouth rubber nozzle 10 can also be connected with the rotating shaft 11 or other turnover mechanisms through an extension structure, so that the wide-mouth rubber nozzle 10 is easier to mount and dismount; the shaft pin 11 can also be directly or indirectly fixedly connected with the wide mouth rubber mouth so as to realize overturning by controlling the rotation of the rotating shaft 11; the slide block 13 can also be detachably and fixedly connected with the wide mouth rubber nozzle 10, and the control part 14 of the slide block 13 is connected with the turnover mechanism.

Example 4

As shown in fig. 3 and 4, after the two-component glue pumped out according to a determined proportion in the storage barrel 2 enters the wide-mouth glue nozzle 10, a handle 20 of an electric drill suspended by a spiral lead is manually pressed, the stirring rod 9 extends into a proper position close to the bottom in the wide-mouth glue nozzle 10 along with the compression of a spring 17, meanwhile, a key 19 is switched on, the stirring rod 9 and a paddle 9a thereof inserted on the rotating shaft 7 start to rotate, the electric drill looses hands after uniform stirring, the electric drill returns under the action of the spring 17, the stirring rod 9 is lifted away from the wide-mouth glue nozzle 10, at this time, an operating handle 14 fixed at the lower part of the outer wall of the wide-mouth glue nozzle 10 is lifted, and the wide-mouth glue nozzle 10 is overturned around. In the invention, the operation handle 14 or the outer wall of the side opposite to the glue outlet of the wide-mouth glue nozzle 10 can be connected with the electric drill through the rope 18, the overturning angle of the wide-mouth glue nozzle 10 and the distance between the paddle 9c of the stirring rod and the side wall are adjusted according to the specific position and length, when the electric drill is pressed to drive the stirring rod 9 to move downwards, the wide-mouth glue nozzle returns, the feeding valve is started for a short time, two-component glue is injected in proportion, the motor is started for a short time for stirring, and after the hand is released, the electric drill is driven to reset to overturn and discharge the. In the embodiment, the wide-mouth glue nozzles are stacked, the innermost wide-mouth glue nozzle 10 can be peeled off if necessary, the drainage nozzle or the glue outlet is protected by adhesive tapes and the like, when the designed turning angle is more than 90 degrees, the edges of the laminated opening far away from the glue outlet part can be fixed by clamps or adhesive tapes at multiple points, and non-setting adhesive or double-sided adhesive can be used for point bonding and reinforcement between layers.

Example 5

As shown in fig. 5 and 6, the glue stock in the bi-component storage barrel is pumped out by an electromagnetic metering pump according to a ratio in a designed time period and enters a circulation type wide-mouth glue nozzle 10 with a wide-mouth glue nozzle group in a positive position, at this time, a stirrer which is arranged above and consists of a stirring rod 9 and blades 9c thereof, wherein the stirring rod 9 is connected with a rotating shaft 7 through a coupler 8, extends into the wide-mouth glue nozzle 10 and starts to stir at a high speed for a plurality of seconds, then the stirrer is separated from the wide-mouth glue nozzle 10 in a vertical direction, the circulation type container group rotates 90 degrees anticlockwise around a horizontal central shaft, glue application of the first wide-mouth glue nozzle 10 is completed, glue application of the second wide-mouth glue nozzle is in a positive position, the electromagnetic metering pump pumps the bi-component glue stock according to the ratio, the stirrer enters the wide-mouth glue nozzle 10 and starts to. In this embodiment, four or four broad-mouth rubber nozzles are detachably embedded in the rotator 13, and for the relative movement of the stirring rod 9 and the broad-mouth rubber nozzle 10 in the vertical direction, the relative movement may be controlled by the whole circulation combined container and/or the rotation shaft to move up and down at a predetermined time, or controlled by the stirrer to move up and down on a vertical guide rail, or generated by the telescopic structure of the stirrer or the stirring rod, for example, the upper part of the stirring rod is sleeved with a spring or rubber or elastic coiled material with large elasticity, the upper end of the spring or rubber or elastic coiled material is fixed on the upper part of the stirring rod, the lower end of the spring or rubber or elastic coiled material is fixed on the lower part of the stirring rod, the lower part is freely sleeved with the upper part, and the bottom; the two parts of the stirring rod can also be of a spiral structure, have a limiting piece and are matched with a forward and reverse rotating motor, and the lifting is realized through forward and reverse rotation, and the automatic control is better; the stirrer and/or the action mechanism can also be pneumatic, the stirring rod can also realize the relative displacement in the vertical direction by using a flexible bag body or a flexible corrugated pipe through controlled inflation and deflation, the flexible bag body or the flexible corrugated pipe can be arranged between two parts of the stirring rod or in two cylinders, and the lower end of the flexible bag body or the flexible corrugated pipe is closed. Moreover, a combined coil capable of generating a rotating magnetic field or a micro motor 3b driving a magnet to rotate can be arranged in the rotating body, the rotatable magnet on the combined coil or the micro motor is arranged at a position close to the bottom of the wide-mouth rubber nozzle 10 or the foam sheath 12 thereof, a metal shielding net or a film cover is arranged corresponding to the direction of other wide-mouth rubber nozzles 10 if necessary, a stirrer 9d is arranged in the wide-mouth rubber nozzle 10, the stirrer 9d can also be fixed on a smooth rope thread, the other end of the rope thread is fixed through an eyelet at the side far away from the rubber pouring-out side of the upper part of the wide-mouth rubber nozzle 10, and the length of the rope thread is limited by the free rotation and the possibility of leaving the wide-mouth rubber nozzle 10 during overturning; the other end of the rope wire tying the stirrer 9d can also be fixed above the device generating the rotating magnetic field, and the stirrer 9d is put out for public use after being uniformly stirred; a strip-shaped magnetic sheet or iron sheet can be arranged on the bottom or the side wall of the pouring side, preferably on the outer wall along the pouring direction, so as to adsorb the stirrer and reduce the influence on the fluidity of the glue solution as much as possible; a through hole can be arranged in the middle of the strip-shaped stirrer, a big end pin shaft is movably arranged at the center of the bottom of the wide mouth rubber nozzle 10, a pin with a diameter larger than that of the through hole can be preset in the center of the bottom of the plastic wide mouth rubber nozzle 10, a concave cavity is arranged at the lower end of the through hole of the stirrer, and a structure clamped with the concave cavity is arranged at the upper end of the pin. The rotating magnetic field can also be generated by the rotation of a motor or an electric drill fixed magnetic block.

In order to avoid the pollution or residual gum retention caused by uncertain gum drops under the condition of larger gum liquid adhesion and poor flowability, as shown in figure 6, an air blowing pipe 21 is arranged at the upper position near the wide mouth gum mouth 10 at the pouring position and in a downward state at an angle less than 90 degrees, and/or a smooth inclined plate or a U-shaped inclined groove 10b inclined towards the pouring direction is arranged below the circulating combination container, the length of the inclined plate or the U-shaped inclined groove is equal to or exceeds the pouring point of the wide mouth gum mouth 10, preferably more than two sections of different slopes are provided, the slope is larger when the inclined groove is closer to the lowest end, so that the residual gum dripped under extreme conditions can be prevented from polluting workpieces, the gum liquid which is not proper and is about to be solidified can be prevented from mixing, and the residual gum liquid which is close to the special condition can be intensively dropped into the gum applying point for. Certainly, in order to further prolong the service life of the wide-mouth rubber nozzle 10, a cleaner, which can be a brush type or quick-drying cleaning agent spraying/flushing pipe or a spraying/flushing device, can be arranged outside one, two or all of the wide-mouth rubber nozzles 10 in the non-normal state, at this time, a U-shaped inclined groove capable of flowing to a storage container is arranged below the circulating combination container, and the inclined groove is inclined towards the middle part or the other end far away from the rubber outlet point.

Example 6

In order to improve the demand of glue blending and gluing which is adapted to higher frequency, as shown in figure 7, the axle center of the circulating wide-mouth glue nozzle combination of the invention can be vertically arranged, so that a wide-mouth glue nozzle combination which rotates on a horizontal plane is formed by arranging a plurality of detachable wide-mouth glue nozzles in a circular shape, according to the performance and the process demand of the adhesive, a glue inlet is arranged above the 1 st wide-mouth glue nozzle 10 which is positioned right under a glue material valve body 4, namely above the Z1 position of the circumference where the wide-mouth glue nozzle combination is arranged, the glue inlet is a station for receiving glue solution, the glue solution which flows out from two feed pipes 6a according to the set proportion can completely enter the 1 st wide-mouth glue nozzle, a stirrer which can move up and down relative to the wide-mouth glue nozzle is arranged above the 1+ n wide-mouth glue nozzle which is injected with bi-component glue material, namely above the circumference Zn position, a turnover mechanism is arranged at the 10 position of the circumference Zn +1 st + n +1 glue nozzle which is uniformly stirred, m wide mouth glue nozzles are spaced from the first wide mouth glue nozzle, namely the Z1, namely the position step or the position distance or the step distance is m, and m + n +1 is the number of the wide mouth glue nozzles used for the circulating wide mouth glue nozzle combination, wherein n is more than or equal to 1, and m is more than or equal to 1. The turnover mechanism can be that every wide mouth rubber mouth is combined with a wide mouth rubber mouth to form a circle, and a shaft pin is arranged in the tangential direction of the point and at the same position, so that the turnover mechanism can control to pour the uniformly mixed glue solution outwards at the same place.

The wide mouth glue nozzle combined operation mechanism can be formed by controlling and operating the force arm fixed on the wide mouth glue nozzle, and the wide mouth glue nozzle position is formed in each step of rotation and can be driven by a stepping motor or a servo motor in a controlled manner. The stirrer with the detachable simple stirring rod is arranged near the dumping point, the positions of the wide-mouth rubber nozzles 10 where the double-component feeding and stirring are respectively arranged are selected according to the rubber using frequency, the number of the wide-mouth rubber nozzles for feeding before stirring is increased when the frequency is high, and the stability before stirring can be kept to the maximum extent due to the large encryption degree and the small encryption degree. When the automatic stirring device works, when the stirring rod 9 is controlled to descend, the feeding valve 4 is opened, the storage barrel feeds materials to the standby wide-mouth rubber nozzle 10, the wide-mouth rubber nozzle 10 in the dumping state is restored to be normal and moves forwards by one step, meanwhile, the wide-mouth rubber nozzle 10 which is just added with bi-component rubber materials moves forwards to the position below the stirring rod 9, stirring starts when the stirring rod 9 enters the wide-mouth rubber nozzle 10, stirring is uniform after a plurality of seconds, then the stirring rod 9 moves upwards, the wide-mouth rubber nozzle 10 in the determined position is controlled to dump out the rubber, the standby wide-mouth rubber nozzle 10 rotates forwards by one step, the step distances are consistent, and the automatic stirring device sequentially circulates. In the embodiment, the mouth widening rubber nozzle 10 is fixed in a protective sleeve 12, a rotating shaft 11 fixed on a rotary disc is arranged at the bottom of the protective sleeve, a limiting structure for preventing the mouth widening rubber nozzle from falling inwards is arranged on the rotating shaft, and the limiting structure can also be arranged on the rotary disc. The edge of the rotary disk is provided with a static surrounding edge 22 which does not rotate, and a notch is arranged at the turning position. The notches facilitate automatic turning when the slab mouth nozzle 10 is inclined to some extent against the peripheral edge 22. The resetting can be achieved by an electromagnetic device or a mechanical device which is arranged below the turntable or at the corresponding position in the center of the turntable and is interacted with a ferromagnetic substance arranged at the bottom of the sheath 12 or the broadloom plastic mouth or other positions. A mechanism 23 for realizing the turning reset is arranged in the static area at the center of the turntable corresponding to the turning position.

As shown in fig. 8, the control modes of the opening and closing of the electromagnetic valve of the glue valve body, the motor shutdown and the rotation direction as well as the turnover of the wide mouth glue nozzle can be realized by a circuit control device, and the circuit control device comprises: the power module is used for providing working voltages for the microprocessor control unit, the sizing material valve body, the motor and the turnover mechanism; the time detection module is used for detecting the working time of the electromagnetic valve, the motor and the turnover mechanism; the microprocessor control unit is used for controlling the working states of the electromagnetic valve and the motor driving module; and the motor driving module is used for driving the motor to rotate positively and negatively or lift.

When the circuit control device works, the microprocessor control unit sends a working signal to the electromagnetic valve module, the double-control electromagnetic valve starts to flow out double-component glue solution, the time detection module detects the working time of the electromagnetic valve, and when the opening time is A seconds, the time-up signal is sent to the microprocessor control unit; the microprocessor control unit sends a stop signal to the electromagnetic valve module; the time detection module detects the stop time of the electromagnetic valve, and sends a time-up signal to the microprocessor control unit when the stop time is B seconds; the microprocessor control unit sends a rotation signal to the motor rotation module, the stepping motor operates to drive the turntable to rotate, the time detection module detects the working time of the rotation motor, and when the starting time is C seconds, the time-up signal is sent to the microprocessor control unit; the microprocessor control unit sends a stop signal to the motor rotating module, at this time, the first wide-mouth glue nozzle which injects the two-component glue solution is transferred to a stirring station, and the second wide-mouth glue nozzle which is originally in a preparation state is positioned at a station which is just under the electromagnetic valve and takes out the two-component glue solution; the time detection module detects the stop time of the rotating motor, and sends a time-up signal to the microprocessor control unit when the stop time is D seconds; the microprocessor control unit sends a working signal to the motor stirring lifting module, the stirrer or the lifting stirrer works, the stirring rod provided with a spiral and limiting anti-falling structure can be screwed out to be lengthened and enter the wide-mouth glue nozzle, the stirrer or the lifting stirrer works, meanwhile, the microprocessor control unit sends a working signal to the electromagnetic valve module, the double-control electromagnetic valve starts to flow out double-component glue solution, the time detection module detects the working time of the stirrer or the lifting stirrer and the working time of the electromagnetic valve, and when the opening time is E seconds, the microprocessor control unit sends a time-up signal; the microprocessor control unit sends a stop signal to the motor stirring lifting module and the electromagnetic valve module; the time detection module detects the stop time of the stirring motor and the electromagnetic valve, and sends a time-up signal to the microprocessor control unit when the longest stop time is F seconds; the microprocessor control unit sends a rotation signal to the motor rotation module, the stepping motor operates to drive the turntable to rotate, the time detection module detects the working time of the rotation motor, and when the starting time is G seconds, the microprocessor control unit sends a time-up signal; the microprocessor control unit sends a stop signal to the motor rotating module, at this time, the first wide-mouth glue nozzle injected with the two-component glue solution is transferred to the overturning station, the second wide-mouth glue nozzle is positioned at the stirring station at the glue solution receiving station, and the second wide-mouth glue nozzle is positioned at the station at the preparation state at the solenoid valve at the two-component glue solution receiving station; the time detection module detects the stop time of the rotating motor, and sends a time-up signal to the microprocessor control unit when the stop time is D seconds; the microprocessor control unit sends working signals to the overturning driving module, the motor stirring lifting module and the electromagnetic valve module, the overturning mechanism, the stirrer or the lifting stirrer and the electromagnetic valve work, the wide mouth glue nozzle at the overturning station finishes overturning glue injection and resetting, and the steps are repeated.

If the glue solution is more, the reaction time is longer, a forward and reverse rotation stirring motor and a program can be further arranged, the time detection module detects the forward rotation time of the stirring motor, and when the forward rotation time is H seconds, a time-up signal is sent to the microprocessor control unit; the microprocessor control unit sends a stop signal to the motor stirring module; the time detection module detects the stop time of the stirring motor, and sends a time-up signal to the microprocessor control unit when the stop time is I seconds; the microprocessor control unit sends a reverse operation signal to the motor stirring module, and the motor reversely rotates to retract the stirring rod so as to exit the wide-mouth rubber nozzle or drive the lifting mechanism to drive the stirring rod to move upwards; the time detection module detects the reverse rotation time of the stirring motor, and sends a time-up signal to the microprocessor control unit when the reverse rotation time is J seconds; the microprocessor control unit sends a stop signal to the motor stirring module; the time detection module detects the stop time of the stirring motor, and when the stop time is K seconds, the microprocessor control unit sends a forward rotation signal to the motor stirring module again; the above process is repeated. The forward and reverse rotation time, the stop time and the cycle times can be set differently according to the properties of the sizing material, particularly different curing time, reaction speed, flow state and process requirements. Wherein A = E, C = G, preferably B is less than or equal to F, A + B = E + F, the working time of the electromagnetic valve, the stirring piece and the turnover mechanism can be the same or different, and the next step rotation program is carried out after the longest time of the work is finished. The preferred parameters are: a is more than or equal to 3 and less than or equal to 10, B is more than or equal to 0.5 and less than or equal to 3, C is more than or equal to 3 and less than or equal to 10, and D is more than or equal to 2 and less than or equal to 5.

The circulating wide-mouth rubber nozzle combination can also be designed into a crawler type, the crawler carrying the detachable and reversible wide-mouth rubber nozzle rotates circularly under the driving of a controlled driving wheel, and the operation steps of feeding, stirring, overturning, rubber discharging and the like are realized under the matching of a stirrer and a rubber material valve body and the coordination control of a power mechanism and a controller, and the structure is shown in the previous example.

Claims (10)

1. A double-component glue-mixing device with magnetic stirring and turnover glue-discharging function comprises a material storage barrel containing A, B components, the material storage barrel is communicated with a gas storage tank of an air compressor, two single components are connected with a double control valve through a pipeline and can flow into a mixing chamber according to a certain proportion, the device is characterized in that the mixing chamber is formed by combining more than two circularly rotating wide-mouth glue nozzles, when a valve body controlling the two single components to flow to the mixing chamber is opened, at least one wide-mouth glue nozzle is in a positive state for receiving glue materials, a stirrer controlled to realize stirring and mixing is arranged above or in the positive wide-mouth glue nozzle, when the original positive wide-mouth glue nozzle is turned to an inclined state to tilt out the mixed glue solution at a determined position, the next wide-mouth glue nozzle is in a positive state, and the stirrer is in a controllable normal working state, a transmission mechanism or a structure matched with the transmission mechanism is arranged on a rotating shaft of the circularly rotating wide-mouth glue nozzle combination, the wide-mouth rubber nozzle combination or the stirrer is in lifting fit in the vertical direction when the state changes, the stirrer is a stirrer, a controllable magnetic force rotating body is arranged in a rotating body close to the bottom of the wide-mouth rubber nozzle, a mechanism for cooperative action is arranged among the valve body, the wide-mouth rubber nozzle combination and/or the stirrer, and a drainage nozzle is arranged at the upper end opening of the wide-mouth rubber nozzle towards the toppling-over side.

2. A two-component adhesive mixing device with magnetic stirring and reverse adhesive discharging as claimed in claim 1, wherein said mechanism comprises a rotating shaft, a supporting body for fixing the rotating shaft, a positioning and/or driving structure for the combination of the wide-mouth adhesive nozzle and the power source.

3. A two-component adhesive mixing device with magnetic stirring and turnover adhesive as claimed in claim 2, wherein the discharge valve of the AB component is linked with the stirring of the motor and the turnover drive of the wide-mouth adhesive nozzle, and the turnover is driven by the motor.

4. A two-component dispensing apparatus for magnetically stirring inverted product gels as claimed in any of claims 1, 2 or 3 wherein said container has an oil-repellent layer on the inner wall.

5. The two-component glue mixing device with magnetic stirring and glue turning over function as claimed in claim 4, wherein the rotating shaft is horizontally arranged on the wide-mouth glue nozzle, preferably, the side far away from the wide-mouth glue nozzle to be tilted is eccentrically arranged to realize self-weight turning over and resetting.

6. A two-component glue-dispensing device with magnetic stirring and glue-pouring function as claimed in any one of claims 4 or 5, wherein the rotating shaft is horizontally disposed on the pouring side of the wide-mouth glue nozzle by means of a support body, and is adjacent to or close to the outer wall of the wide-mouth glue nozzle, preferably 1/2, the height of the rotating shaft is lower than the height of the wide-mouth glue nozzle, and the stirring rod is provided with a limit structure matched with the opposite side of the pouring direction of the wide-mouth glue nozzle.

7. The two-component glue-dispensing device with magnetic stirring and glue-pouring features that a combined coil or a micro-motor for rotating a magnet, which can generate a rotating magnetic field, is arranged in a rotating body, and the rotating magnet on the combined coil or the micro-motor is arranged near the bottom of a wide-mouth glue nozzle or a foam sheath thereof.

8. A two-component adhesive mixing device with magnetic stirring and reverse adhesive discharge as claimed in claim 6, wherein a metal shielding net or film cover is provided corresponding to the other wide-mouth adhesive nozzle, and a stirring bar is placed in the wide-mouth adhesive nozzle and fixed on a smooth cord, the other end of the cord is fixed by a hole on the side of the upper portion of the wide-mouth adhesive nozzle far away from the adhesive discharge, and the length of the cord is limited by the fact that the cord can rotate freely and cannot leave the wide-mouth adhesive nozzle during reverse.

9. The two-component glue compounding device with magnetic stirring and glue turning over as claimed in claim 8, wherein the other end of the string tying the stirrer is fixed above the device generating the rotating magnetic field, and the stirrer is lifted out for public use after being stirred uniformly.

10. A two-component adhesive mixing device with magnetic stirring and reverse adhesive pouring features that a magnetic or iron strip is arranged on the bottom or the external wall of the pouring side wall along the pouring direction.

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