CN109975178B - Adhesive flow testing device - Google Patents

Abstract

The invention discloses an adhesive flowing test device, which structurally comprises: the invention realizes the matching of the adhesion testing pedestal and the stirrer, a spark brush plate frame is formed at the bottom of the annular groove test table and is matched with the annular groove test table to form the effect of adjusting the flame temperature in an up-and-down contraposition lifting mode, organic epoxy resin adhesive is cooled to form a plastic agglomeration wheel ring of the annular groove test table to be taken out, the uniform motion effect of the rotary circulating and comprehensively heated saturated fluid is obtained by heating, the half-wrapping type ignition holding effect of the sliding flank of the spark stone plate ring and the side-standing fin block is achieved, the multi-node surrounding combustion-supporting effect of the spark plug sac cushion support pad is formed, the stirring, drainage and speed measurement are matched with a stirrer to ensure the accuracy of test data, and the condition of flow operation deviation is also avoided, the thermosetting consumption-resistant times of the adhesive are improved, and the quality of the epoxy resin organic adhesive is guaranteed.

Description

Adhesive flow testing device

Technical Field

The invention discloses an adhesive flow testing device, and belongs to the field of adhesives.

Background

The organic epoxy resin is a pollution-free adhesive material without pungent smell, is a product of common polymer combined resin, has wide application in circuits, machinery and buildings, has good stability between bonded parts, is a diversified product of the adhesive, and has the following common defects to be optimized in the prior art:

organic epoxy adhesive is the thermosetting type, need to heat to melt and mould after the type and fixed in the cooling, at this moment, flow test to the adhesive just needs the supplementary solid resin of continuous heating to become liquid circulation and detects, but the flame of lighting a fire is undulant, the anchor ring is heated unevenly, can cause epoxy's intermittent type formula local cooling fixed influence flow efficiency, the complete mobility to the fluid can not obtain concrete detection data, and bond on test saddle when leading to taking out the material, form the phenomenon that the corner infiltration is difficult to scratch and remove, cause the not enough influence of mixed material purity to other fluid tests in later stage, disturb test data's deviation, and organic adhesive is heated unevenly and causes the use fluid to mix with the solidification tiny particle after the test, the dottle pin disturbs the gluey efficiency.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide an adhesive flow testing device, so as to solve the problems that the organic epoxy resin adhesive is thermosetting, needs to be heated, melted and molded and then is cooled and fixed, the flow test of the adhesive requires continuous heating to assist the solid resin to become liquid circulation detection, but the ignition outer flame is unsteady, the ring surface is unevenly heated, the intermittent local cooling and fixation of the epoxy resin can be caused to influence the flow efficiency, the complete fluidity of the fluid can not obtain specific detection data, and the material is adhered to the test tray when being taken out, so that the phenomenon that the edges and corners are penetrated and difficult to remove is formed, the influence of insufficient purity of the mixed material caused by other fluid tests in the later period interferes with the deviation of test data, and the organic adhesive is heated unevenly, so that the used fluid can be mixed with solidified small particles after testing, and the spacer interferes with the adhesive efficiency.

In order to achieve the purpose, the invention is realized by the following technical scheme: an adhesive flow test device, the structure of which comprises: antiskid grab handle, gluing test pedestal, agitator, hydraulic column jar, track groove frame, concave type gear box, human-computer interface, button industrial control board, gluing test pedestal nestification is in the front side of concave type gear box bottom, track groove frame and concave type gear box mechanical connection, hydraulic column jar is inserted and is inlayed under the bottom of track groove frame front end, the agitator nestification is under the bottom of hydraulic column jar and the axle center collineation, human-computer interface and button industrial control board are installed in the left side of concave type gear box, human-computer interface passes through the wire and is connected with button industrial control board electricity, gluing test pedestal is equipped with spark brush grillage, slide bar, thermal-insulated cushion, pedestal groove case, welt, annular testboard, pours the groove seat, fixes a position and welds the board, spark brush grillage and slide bar swing joint, thermal-insulated cushion is equipped with two and hugs closely respectively in the inside left and right sides of pedestal groove case, the bottom surface of welt is hugged closely on the top surface of pedestal groove case, the annular testboard welds board and welt welding together and be in on same horizontal plane through the location, the annular testboard adopts interference fit with pouring the groove seat, pour groove seat and location and weld board mechanical connection, pedestal groove case nestification is in the front side of concave type gear box bottom.

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

as a further improvement of the invention, the spark brush plate frame consists of a bearing lantern ring, side vertical fin blocks, spark stone plate rings, a base block and a spark plug sac pad, wherein the spark stone plate rings and the spark plug sac pad are respectively nested at the upper end and the lower end of the base block, the axes of the spark stone plate rings and the spark plug sac pad are collinear, the side vertical fin blocks are provided with two side vertical fin blocks and are respectively welded at the left upper corner and the right upper corner of the spark stone plate rings, and the bearing lantern rings are provided with two side vertical fin blocks and are respectively inserted and nested at the left side and the right side of the base block.

As a further improvement of the invention, the side-standing fin block consists of a through pipe nut seat, a flame spraying cap, an arc groove and a fin groove block, wherein the through pipe nut seat is inserted and embedded under the bottom of the flame spraying cap, the through pipe nut seat is in threaded connection with the top surface of the arc groove and is communicated with the arc groove and the fin groove block, and the arc groove and the fin groove block are of an integral structure.

As a further improvement of the invention, the flint plate ring consists of a flint impact arc tube, a rotary shifting plate, a grinding disc frame, a sparklt tooth block and a half-section tube ring, wherein the flint impact arc tube and the rotary shifting plate are buckled together, the sparklt tooth block and the rotary shifting plate are welded into a whole, the grinding disc frame and the half-section tube ring are nested into a whole, the axes of the grinding disc frame and the half-section tube ring are collinear, the rotary shifting plate is movably connected with the half-section tube ring, and the flint impact arc tube is matched with the grinding disc frame.

As a further improvement of the invention, the collision arc tube comprises two convex pad squares, a folded plate frame block, a bent arc strip plate, a button wheel and small sparkle balls, wherein the convex pad squares and the folded plate frame block are respectively arranged at the left side and the right side of the folded plate frame block, the convex pad squares and the folded plate frame block are respectively clung to the front side of the bent arc strip plate and are positioned on the same vertical surface, the button wheel is provided with two buttons which are respectively nested at the left side and the right side of the bent arc strip plate, and the small sparkle balls and the convex pad squares are welded into a whole.

As a further improvement of the invention, the spark plug sac pad consists of a spark plug cylinder body, a folding connecting rod, an ellipsoid sac pad and a torsion spring pipe, wherein the spark plug cylinder body is mechanically connected with the folding connecting rod, the folding connecting rod and the ellipsoid sac pad are in clearance fit, the ellipsoid sac pad is movably connected with the torsion spring pipe, and the folding connecting rod and the torsion spring pipe are respectively provided with two parts and are respectively arranged at the left side and the right side inside the ellipsoid sac pad.

As a further improvement of the invention, the pouring groove seat is composed of a hinge roller rod, a cover plate, a pouring end cap and a parting groove, the hinge roller rod is mechanically connected with the cover plate, the hinge roller rod is arranged at the right end of the cover plate, the cover plate and the pouring end cap are nested into a whole, the pouring end cap and the parting groove are of an integral structure, and the axes of the pouring end cap and the parting groove are collinear.

As a further improvement of the invention, the rotary shifting plate is of a rotating plate structure with a convex arc round edge at the folding angle of the L-shaped plate block and a narrow joint end and a wide tail end, and the rotating plate rotates to form an ignition point which drives spark stones to continuously scrape and touch internal combustion, so that the uniform node temperature rise effect of annular heating is achieved.

As a further improvement of the invention, the folded plate frame block is an eave type top support block frame plate structure of a V-shaped folded plate at the front side of an inclined vertical plate at the back side of the bottom, a sliding friction groove is reserved through the front V-shaped folded plate, and the top grinding support block is driven to form a triggering friction internal heating effect of double grinding sandstone colliding and sparking.

As a further improvement of the invention, the ellipsoidal capsule pad is of a flat ellipsoidal capsule body structure with an arc pad at the top, and the spherical capsule is uniformly stressed and pressed down by a large-area bearing of the arc pad at the top, so that the bottom can be isolated and buffered in a vibration mode, and meanwhile, the bottom can also be suspended to elastically shake fluid in a pulling mode.

As a further improvement of the invention, the parting groove is of a square through groove structure with double bottom pipes, the adhesive is filled into the groove body, the two bottom pipes are left and right circulated and are discharged downwards, the effect of auxiliary downward discharge of the standby pipes when the single-side pipes are blocked is formed, and the smooth downward discharge operation of the double pipes is realized.

Advantageous effects

The invention relates to an adhesive flow testing device, which is characterized in that an operator edits an automatic operation flow by pressing a button industrial control board and matching a touch human-computer interface, then holds an antiskid grab handle to prevent deflection, a concave gear box of equipment drives a track groove frame to press a hydraulic cylinder to inject glue to a pouring groove seat of a stirrer, which extends into an adhesive testing seat, the pouring groove seat is filled with the glue, then a ring groove testing table between a lining plate and a positioning welding plate is filled with the pouring end cap and a parting groove through cover plate in a dust-free sealing manner to form fluid standing, then a spark brush plate frame between two heat insulation cushion blocks in a seat groove box is started to slide up and down along a sliding rod, a base block and a spark ring are driven by a bearing lantern ring to lift and heat, then a side vertical fin block and the spark plug bag cushion are communicated to release heat and supply energy, heat is sent to an ellipsoid bag cushion by the internal heat of a spark plug cylinder body and a folding connecting rod, and then the interior of a half-section pipe ring is transferred by the elastic jacking heat of a torsion spring pipe, the rotary shifting plate is driven to draw and touch the arc tube and rub the grinding disc frame with the sparkle tooth block to form double-ring spark motion so as to heat the outer side and supply the arc groove and the fin groove block, thereby driving the through pipe nut seat to fire in the through hole of the flame spraying cap to heat the adhesive and melt the adhesive into fluid which is continuously in a liquid state, then the inner side is heated to form a ring-shaped wrapping bottom pad to uniformly heat the central bottom pad, the convex pad square blocks and the folded plate frame block rub at the edge of the bent arc batten to generate sparks, mainly small sparkling stone balls are ignited and smashed violently, a stable rotation and circling friction effect of the button wheel is formed, the heating and fluid accelerating rotation of the frame ring in up-and-down alignment are efficient, the accuracy of detected data is improved, the condition of uneven temperature of interference is avoided, and the later-stage test is finished, the cover plate is turned over through the hinge roller shaft rod to take out the ring block with the solidified adhesive, so that the glue-removing device is uniform, efficient and convenient, does not have loss to product quality, and can be used for continuously heating and purifying.

The invention has the following advantages after operation:

the adhesive testing pedestal is matched with the stirrer, a spark brush plate frame is formed at the bottom of the annular groove testing table and matched with the annular groove testing table to form the effect of adjusting the flame temperature in an up-and-down alignment lifting manner, the organic epoxy resin adhesive is cooled to form a plastic agglomeration wheel ring of the annular groove testing table to be taken out, the uniform motion effect of the rotary circulation comprehensive heated saturated fluid is obtained after heating, the sliding lifting of the sliding rod and the bearing lantern ring can be adjusted through testing data, the local heating and cold agglomeration condition is avoided, the sliding flank semi-wrapping type ignition and holding effect of the spark stone plate ring and the side-standing fin block is achieved, the ignition test of the testing tray is not only unfolded by an alcohol lamp, the multi-joint surrounding combustion-supporting effect of the spark plug sac cushion is formed, the stirring drainage and speed measurement are performed by matching with the stirrer, the accuracy of the testing data is ensured, the flow operation deviation condition is also avoided, and the thermosetting consumption-resistant times of the adhesive are improved, the quality of the epoxy resin organic adhesive is guaranteed.

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 diagram of an adhesive flow testing apparatus according to the present invention.

FIG. 2 is a schematic cross-sectional view of the adhesive test stage of the present invention.

Fig. 3 is a schematic cross-sectional structure diagram of the working state of the spark brush plate frame and the pouring groove seat of the invention.

Fig. 4 is a schematic perspective view of the operation state of the side stand fin block of the present invention.

FIG. 5 is a schematic view of the spark plate ring of the present invention in an overhead configuration.

FIG. 6 is a perspective view of the arc tube of the present invention in working condition.

Fig. 7 is a schematic cross-sectional internal view of a spark plug bladder in accordance with the present invention in its operative condition.

Description of reference numerals: an antiskid grab handle-1, an adhesive test pedestal-2, a stirrer-3, a hydraulic cylinder-4, a track groove frame-5, a concave gear box-6, a human-computer interface-7, a button industrial control board-8, a spark brush plate frame-21, a slide rod-22, a heat insulation cushion block-23, a pedestal groove box-24, a lining plate-25, an annular groove test bench-26, a pouring groove seat-27, a positioning welding plate-28, a bearing sleeve ring-211, a side vertical fin block-212, a spark stone plate ring-213, a base block-214, a spark plug sac-215, a through pipe nut seat-2121, a flame spray cap-2122, an arc groove-2123, a fin groove block-2124, a collision arc pipe-2131, a rotary shifting plate-2132, a grinding disc frame-2133, a spark stone tooth block-2134, A half pipe ring-2135, a convex pad square block-21311, a folded plate frame block-21312, a curved arc strip-21313, a button wheel-21314, a small sparkling stone ball-21315, a sparking plug cylinder-2151, a folding connecting rod-2152, an ellipsoid bag pad-2153, a torsion spring pipe-2154, a hinge roller shaft rod-271, a cover plate-272, a pouring end cap-273 and a parting groove-274.

Detailed Description

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

Referring to fig. 1 to 7, the present invention provides an adhesive flow testing apparatus, which includes: antiskid grab handle 1, gluing test pedestal 2, agitator 3, hydraulic column jar 4, track groove frame 5, concave type gear box 6, human-computer interface 7, button industrial control board 8, gluing test pedestal 2 nests in the front side of concave type gear box 6 bottom, track groove frame 5 and concave type gear box 6 mechanical connection, hydraulic column jar 4 is inserted and is inlayed under the bottom of track groove frame 5 front end, agitator 3 nests under the bottom of hydraulic column jar 4 and the axle center collineation, human-computer interface 7 and button industrial control board 8 are installed in the left side of concave type gear box 6, human-computer interface 7 passes through the wire and is connected with button industrial control board 8 electricity, gluing test pedestal 2 is equipped with spark brush grillage 21, slide bar 22, thermal-insulated cushion 23, pedestal groove case 24, welt 25, annular testboard 26, pours groove seat 27, location weld plate 28, spark brush grillage 21 and slide bar 22 swing joint, the heat insulation cushion blocks 23 are two and are respectively tightly attached to the left side and the right side of the inside of the pedestal groove box 24, the bottom surfaces of the lining plates 25 are tightly attached to the top surface of the pedestal groove box 24, the annular groove test platform 26 is welded with the lining plates 25 through the positioning welding plates 28 and is located on the same horizontal plane, the annular groove test platform 26 and the pouring groove seat 27 are in interference fit, the pouring groove seat 27 is mechanically connected with the positioning welding plates 28, and the pedestal groove box 24 is nested on the front side of the bottom of the concave gear box 6.

Referring to fig. 3, the spark brush plate frame 21 includes a bearing collar 211, side vertical fin blocks 212, a spark plate ring 213, a base block 214, and a spark plug pad 215, the spark plate ring 213 and the spark plug pad 215 are respectively nested at the upper and lower ends of the base block 214 and have collinear axes, the side vertical fin blocks 212 are two and are respectively welded at the left and right upper corners of the spark plate ring 213, the bearing collar 211 is two and are respectively inserted and embedded at the left and right sides of the base block 214, the casting groove seat 27 includes a hinge roller shaft 271, a cover plate 272, a casting end cap 273, and a parting groove 274, the hinge roller shaft 271 is mechanically connected with the cover plate 272, the hinge roller shaft 271 is mounted at the right end of the cover plate 272, the cover plate 272 is nested with the casting end cap 273, the casting end cap 273 is integrated with the parting groove 274, and has a collinear structure and a coaxial axis, the parting groove 274 is a square structure with a double-bottom tube, the groove body is filled with the adhesive, the two bottom pipes are left and right circulated and are arranged downwards, the auxiliary lower-row effect of the standby pipe when the single-side pipe is blocked is formed, the double pipes play a role in smooth safety lower-row operation, the end caps 273 are poured and fed to the spark stone plate rings 213 to form a rotary traction fluid annular accelerated motion test effect, the ultra-long track detection parameters are saved, and the effect of ring-by-ring speed-increasing cover plate parameter correction data is achieved.

Referring to fig. 4, the side-standing fin block 212 is composed of a through pipe nut seat 2121, a flame spraying cap 2122, an arc groove 2123 and a fin groove block 2124, the through pipe nut seat 2121 is inserted and embedded under the bottom of the flame spraying cap 2122, the through pipe nut seat 2121 is screwed on the top surface of the arc groove 2123 and is communicated with each other, the arc groove 2123 and the fin groove block 2124 are of an integral structure, and the through pipe nut seat 2121 is connected with the flame spraying cap 2122 to jet a heating adhesive to the internal heat rising node at the bottom, so that the edge-covered type effect of preventing cold and gel is achieved.

Referring to fig. 5, the flint plate ring 213 is composed of a flint arc tube 2131, a rotary shifting plate 2132, a sand disc frame 2133, a flint tooth block 2134 and a half tube ring 2135, the flint arc tube 2131 and the rotary shifting plate 2132 are buckled together, the flint tooth block 2134 and the rotary shifting plate 2132 are welded into a whole, the sand disc frame 2133 and the half tube ring 2135 are nested into a whole, the axes of the sand disc frame 2133 and the half tube ring 2135 are collinear, the rotary shifting plate 2132 is movably connected with the half tube ring 2135, the flint arc tube 2131 and the sand disc frame 2133 are matched, the rotary shifting plate 2132 is a rotating plate structure with a bent angle of an L-shaped plate block having a convex arc edge and a narrow end and a wide tail end at a joint end, an ignition point which can continuously scrape internal combustion sparks by the rotary plate to achieve a uniform node heating effect of annular heating, the rotary shifting plate 2132 can drive the flint arc tube 2131, the flint tooth block 2134 to form a heating effect of a flint ring and a middle ring and a peripheral heating effect of overlapping, the adhesive can be uniformly permeated and heated in the right-angle slot of the annular groove, and the gap blockage phenomenon is improved.

Referring to fig. 6, the impact arc tube 2131 is composed of two convex pad squares 21311, two folded plate frame blocks 21312, two bent arc plates 21313, a button wheel 21314 and a small sparkle ball 21315, the two convex pad squares 21311 are respectively installed on the left side and the right side of the folded plate frame blocks 21312, the two convex pad squares 21311 and the folded plate frame blocks 21312 are respectively attached to the front side of the bent arc plates 21313 and located on the same vertical surface, the two button wheels 21314 are respectively embedded on the left side and the right side of the bent arc plates 21313, the small sparkle ball 21315 and the convex pad squares 21311 are welded into a whole, the folded plate frame blocks 21312 are roof-shaped top support block frame plates of a bottom rear inclined vertical plate and a front V-shaped folded plate, sliding friction grooves are reserved through the front V-shaped folded plate, the top ground support block is driven to form a triggered internal heat effect of double-sand-stone-impact ignition progressive heating, and the convex pad squares 21311 drive the small sparkle ball squares 21315 and the ground stone ball blocks 21312 to form a continuous friction frame plate frame of a disc-stone disc-shaped ignition disc with a disc-shaped friction frame 2133 The heating effect is achieved, and the effect that the hot melt adhesive is made into fluid to move when the fire ring is uniformly heated is achieved.

Referring to fig. 7, the spark plug bladder pad 215 is composed of a spark plug cylinder 2151, a folding link 2152, an ellipsoidal bladder pad 2153, and a torsion spring tube 2154, the spark plug cylinder 2151 is mechanically connected to a folding link 2152, the folding link 2152 is in clearance fit with an ellipsoidal capsule pad 2153, the ellipsoidal capsule pad 2153 is movably connected with a torsion spring pipe 2154, the folding connecting rod 2152 and the torsion spring pipe 2154 are respectively provided with two parts which are respectively arranged at the left side and the right side inside the ellipsoidal capsule pad 2153, the ellipsoidal capsule pad 2153 is a flat ellipsoidal capsule structure with an arc pad at the top, the top arc pad is round and bears a large area, the ball bag is evenly stressed and pressed downwards, the bottom vibration isolation and buffering effect is realized, meanwhile, the effect of elastically shaking fluid by hanging in the air can be realized, the flame is sent out by the spark plug cylinder 2151 to heat the ellipsoidal capsule pad 2153, so that the folding connecting rod 2152 and the torsion spring pipe 2154 are pushed elastically to transfer heat, and the effect of sufficient bottom heat energy supply is achieved.

The working process is as follows: an operator edits an automatic operation flow by pressing a button industrial control board 8 and matching with a touch human-computer interface 7, then holds an anti-skid grab handle 1 tightly to prevent deflection, drives a track groove frame 5 to press a hydraulic cylinder 4 to inject glue to a pouring groove seat 27 of a stirrer 3 which is deep into an adhesive test pedestal 2, then pours an end cap 273 and a parting groove 274 into a ring groove test platform 26 between a lining plate 25 and a positioning welding plate 28 in a dust-free sealing mode through a cover plate 272 to form fluid standing, then starts a spark brush plate frame 21 between two heat insulation cushion blocks 23 in a pedestal groove box 24 to slide up and down along a slide rod 22, drives a base block 214 and a spark stone plate ring 213 to move up and down for heating through a bearing lantern ring 211, then drives a side-standing fin block 212 and a spark plug bag pad 215 to assist in penetrating for heat release and energy supply, and sends heat to an ellipsoidal bag pad 2153 through the internal heat movement of the spark plug cylinder 2151 and a folding connecting rod 2152, then the torsion spring tube 2154 elastically pushes and transfers heat to the inside of the half pipe ring 2135, the rotary shifting plate 2132 is driven to pull and rub the arc tube 2131 and the sparkle stone tooth block 2134 to rub the abrasive disk frame 2133 to form double-ring spark motion, the outer side heating supply arc groove 2123 and the fin groove block 2124 are reached, the through pipe nut seat 2121 is driven to spray fire and heat the adhesive in the through hole of the flame cap 2122 to form a fluid, the fluid is continuously in a liquid state shape, then the inner side heating is carried out to form a ring shape for the central chassis to wrap the chassis in a ring shape and uniformly heat the chassis, in the period, the convex pad square 21311 and the folded plate frame 21312 rub at the edge of the bent arc plate 21313 to generate sparks, the main small sparkle stone ball 21315 is subjected to sparkle and smash to form a stable rotary orbiting friction effect of the button wheel 21314, the heating and the fluid for the vertical alignment of the frame ring are accelerated to rotate efficiently, the precision improvement of detection data is reached, the condition of avoiding the temperature unevenness and the later stage of interference is ended, the cover plate 272 is turned over through the hinge roller shaft rod 271 to take out the ring blocks with solidified adhesives, so that the glue-removing device is uniform, efficient and convenient, does not have loss on product quality, and can be used for continuously heating and purifying.

The invention achieves the effects of matching the adhesive testing pedestal 2 with the stirrer 3, forming a spark brush plate frame 21 at the bottom of the annular groove testing table 26, matching the upper and lower alignment lifting adjusting flame temperature, cooling the organic epoxy resin adhesive to form a molded agglomeration wheel ring of the annular groove testing table 26, taking out the molded agglomeration wheel ring, heating to obtain the uniform motion effect of the full-surface heated saturated fluid of the rotary circulation, adjusting the sliding lifting of the sliding rod 22 and the bearing sleeve ring 211 through the test data, avoiding the local heating and cooling agglomeration, achieving the sliding flank semi-wrapping type ignition and holding effect of the spark stone plate ring 213 and the side-standing fin block 212, ensuring the ignition test of the testing supporting table to be not only unfolded by an alcohol lamp, forming the multi-node surrounding combustion-supporting effect of the spark plug sac pad 215, matching the stirring, draining and speed measuring effect of the stirrer 3, and ensuring the accuracy of the test data, the condition of flow operation deviation is also avoided, the thermosetting consumption-resistant times of the adhesive are improved, the quality of the epoxy resin organic adhesive is guaranteed, and the problems that the organic epoxy resin adhesive is thermosetting and needs to be cooled and fixed after being heated and melted to be molded, at the moment, the flow test of the adhesive needs to be continuously heated to assist solid resin to be changed into liquid circulation detection, but ignition flame is unstable, the annular surface is heated unevenly, intermittent local cooling and fixing of the epoxy resin can be caused to influence the flow efficiency, the complete fluidity of fluid cannot obtain specific detection data, and the material is adhered to a test tray when being taken out, the phenomenon that corners are difficult to be scratched due to permeation is formed, the influence of insufficient purity of mixed materials is caused to other fluid tests in the later period, the deviation of the test data is interfered, and the small particles are mixed with the fluid after the test due to uneven heating of the organic adhesive, the spacer interferes with the adhesive efficiency.

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 appended hereto.

Claims (1)

1. An adhesive flow test device, the structure of which comprises: antiskid grab handle (1), gluing test bench seat (2), agitator (3), hydraulic column jar (4), track groove frame (5), concave type gear box (6), human-computer interface (7), button industrial control board (8), its characterized in that:

the adhesive testing pedestal (2) is nested on the front side of the bottom of the concave gear box (6), the track groove frame (5) is mechanically connected with the concave gear box (6), the hydraulic column cylinder (4) is inserted and embedded under the bottom of the track groove frame (5), the stirrer (3) is nested under the bottom of the hydraulic column cylinder (4), the man-machine interface (7) and the button industrial control board (8) are installed on the left side of the concave gear box (6), and the man-machine interface (7) is electrically connected with the button industrial control board (8) through a lead;

the adhesive testing pedestal (2) is provided with a spark brush plate frame (21), a sliding rod (22), a heat insulation cushion block (23), a pedestal groove box (24), a lining plate (25), a ring groove testing table (26), a pouring groove seat (27) and a positioning welding plate (28);

the spark brush plate frame (21) is movably connected with the sliding rod (22), the two heat insulation cushion blocks (23) are respectively tightly attached to the left side and the right side of the inside of the pedestal groove box (24), the bottom surfaces of the lining plates (25) are tightly attached to the top surfaces of the pedestal groove box (24), the annular groove test platform (26) is welded with the lining plates (25) through positioning welding plates (28), the annular groove test platform (26) is matched with the pouring groove seat (27), the pouring groove seat (27) is mechanically connected with the positioning welding plates (28), and the pedestal groove box (24) is nested on the front side of the bottom of the concave gear box (6);

the spark brush plate frame (21) is composed of a bearing sleeve ring (211), side vertical fin blocks (212), a spark plate ring (213), a base block (214) and a spark plug sac pad (215), the spark plate ring (213) and the spark plug sac pad (215) are respectively nested at the upper end and the lower end of the base block (214), the side vertical fin blocks (212) are provided with two and are respectively welded at the left upper corner and the right upper corner of the spark plate ring (213), and the bearing sleeve ring (211) is provided with two and is respectively inserted and nested at the left side and the right side of the base block (214);

the side-standing fin block (212) consists of a through pipe nut seat (2121), a flame spraying cap (2122), an arc groove (2123) and a fin groove block (2124), wherein the through pipe nut seat (2121) is inserted and embedded under the bottom of the flame spraying cap (2122), the through pipe nut seat (2121) is in threaded connection with the top surface of the arc groove (2123), and the arc groove (2123) and the fin groove block (2124) are of an integral structure;

the flint plate ring (213) consists of a punching arc tube (2131), a rotary shifting plate (2132), a grinding disc frame (2133), a sparkle tooth block (2134) and a half-section tube ring (2135), wherein the punching arc tube (2131) is buckled with the rotary shifting plate (2132), the sparkle tooth block (2134) and the rotary shifting plate (2132) are welded into a whole, the grinding disc frame (2133) and the half-section tube ring (2135) are nested into a whole, the rotary shifting plate (2132) is movably connected with the half-section tube ring (2135), and the punching arc tube (2131) is matched with the grinding disc frame (2133);

the collision arc tube (2131) consists of four convex pad blocks (21311), a folded plate frame block (21312), a bent arc strip plate (21313), a button wheel (21314) and small sparkle balls (21315), wherein the four convex pad blocks (21311) are provided with two blocks which are respectively arranged on the left side and the right side of the folded plate frame block (21312), the four convex pad blocks (21311) and the folded plate frame block (21312) are tightly attached to the front side of the bent arc strip plate (21313), the button wheel (21314) is provided with two blocks which are respectively nested on the left side and the right side of the bent arc strip plate (21313), and the small sparkle balls (21315) and the four convex pad blocks (21311) are welded into a whole;

the spark plug capsule pad (215) consists of a spark plug cylinder body (2151), a folding connecting rod (2152), an ellipsoid capsule pad (2153) and a torsion spring pipe (2154), wherein the spark plug cylinder body (2151) is mechanically connected with the folding connecting rod (2152), the folding connecting rod (2152) is matched with the ellipsoid capsule pad (2153), and the ellipsoid capsule pad (2153) is movably connected with the torsion spring pipe (2154);

the pouring groove seat (27) is composed of a hinge roller rod (271), a cover plate (272), a pouring end cap (273) and a parting groove (274), the hinge roller rod (271) is mechanically connected with the cover plate (272), the cover plate (272) and the pouring end cap (273) are nested into a whole, and the pouring end cap (273) and the parting groove (274) are of an integral structure;

the rotary shifting plate (2132) is of a rotating plate structure with a convex arc round edge at the folded angle of the L-shaped plate block and a narrow joint end and a wide tail end;

the folded plate frame block (21312) is of an eave type top support block frame plate structure of a V-shaped folded plate at the front side of a bottom rear side inclined vertical plate;

the equipment concave gear box (6) drives a track groove frame (5) to press a hydraulic cylinder (4) to inject glue, the stirrer (3) penetrates into a pouring groove seat (27) of a gluing test pedestal (2) to be filled with the glue, then the pouring end cap (273) and a parting groove (274) penetrate through a cover plate (272) and are filled into a ring groove test bench (26) between a lining plate (25) and a positioning welding plate (28) in a dust-free sealing mode to form fluid standing, then a spark brush plate frame (21) between two heat insulation cushion blocks (23) in a pedestal groove box (24) is started to slide up and down along a sliding rod (22), a base block (214) and a spark stone plate ring (213) are driven by a bearing lantern ring (211) to move up and down for heating, then a side-standing fin block (212) and a spark plug bag pad (215) assist in heat release and energy supply, heat is generated by internal heat of a spark plug cylinder body (2151) and a folding connecting rod (2152) to supply the ellipsoid bag pad (2153), then the elastic jacking heat of the torsion spring tube (2154) is transferred to the inside of a half tube ring (2135) to drive a rotary shifting plate (2132) to pull and touch an arc tube (2131) and a sparkling stone tooth block (2134) to rub a frosted disc frame (2133) to form double-ring spark motion so as to achieve the effects that an arc groove (2123) and a fin groove block (2124) are heated and supplied to the outer side, thereby driving a through tube nut seat (2121) to spray fire and heat an adhesive in a through hole of a flame cap (2122) to form a fluid, the fluid is continuously in a liquid state shape, then the inner side is heated to form a central bottom disc to annularly wrap a bottom pad to be uniformly heated, the convex pad square blocks (21311) and a folded plate frame block (21312) rub at the edge of an arc bending plate (21313) to generate sparks, the main small sparkling stone ball (21315) is subjected to sparking and breaking, a stable rotary and circumambulation effect of a button wheel (21314) is formed, the heating and the frame ring can be aligned up and down and rotated efficiently, so as to accelerate the high efficiency of the heating and the fluid, the precision of the detection data is improved, the condition of temperature unevenness of interference is avoided, the later stage test is finished, and the cover plate (272) is turned over through the hinge roller rod (271) to take out the ring block with solidified adhesive.

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