CN217436110U

CN217436110U - Capping and boxing device based on epoxy seam beautifying agent

Info

Publication number: CN217436110U
Application number: CN202220630218.5U
Authority: CN
Inventors: 杨洪涛; 王磊; 张长权; 朱会娟; 万传发; 郭鸿章
Original assignee: Hunan Handsome Adhesive Industry Co Ltd
Current assignee: Hunan Handsome Adhesive Industry Co Ltd
Priority date: 2022-03-22
Filing date: 2022-03-22
Publication date: 2022-09-16
Anticipated expiration: 2032-03-22

Abstract

The utility model provides a closing cap vanning device based on epoxy seam beautifying agent, which comprises a material vibrating disc and a bottle guiding rotary disc, wherein, a material discharging plate which rises in a spiral shape is arranged in the material vibrating disc, the inner side of the material discharging plate is provided with a material discharging inner baffle, and the output end of the material discharging plate is provided with a bottle cap material discharging unit; the bottle cap discharging unit is characterized in that a cap screwing unit is arranged above a bottle guiding groove in the output direction of the bottle cap discharging unit, an inclined bottle discharging guide groove is formed in a workbench in the output direction of the cap screwing unit, a bottle discharging box is arranged on the ground outside the bottle discharging guide groove, a bottle discharging unit is arranged in the bottle discharging box, a box loading frame is arranged below the output direction of the bottle discharging unit, a box sealing conveying belt is installed at the top of the box loading frame, and a box supporting assembly is arranged above the input end of the box sealing conveying belt. Rational in infrastructure after this scheme of adoption, excellent in use effect can realize automated production with the external system cooperation.

Description

Capping and boxing device based on epoxy seam beautifying agent

Technical Field

The utility model belongs to the technical field of the glue technique and specifically relates to indicate closing cap vanning device based on beautiful seam agent of epoxy.

Background

The crack sealer is an upgraded product of the crack sealer, the decorative practicability of the crack sealer is obviously superior to that of a color crack sealer, and the problems of unattractive gaps, dirty and black gaps and the like of the ceramic tiles are solved. The crack beautifying agent can be directly added into the gaps of the ceramic tiles after the ceramic tiles are bonded. The filling agent is suitable for filling gaps with the thickness of more than 2mm, is more convenient than the common filling agent in construction, and is an upgrading and updating product of the filling agent. The joint beautifying agent has luster after construction, rich, natural and fine colors, such as golden color, silver color, pearly color and the like, and the white and black chromaticities are obviously higher than those of white cement and a color joint mixture, so that the joint beautifying agent brings better integral effect to the wall surface, and the decoration property is greatly stronger than that of the white cement and the color joint mixture. And after the ceramic tile is solidified, the surface is smooth like porcelain, the ceramic tile can be scrubbed together with the ceramic tile, the ceramic tile has the characteristics of permeation resistance and water resistance, and the real gaps of the ceramic tile can never become black. The traditional seam beautifying agent is manually screwed on a rubber bottle after filling and opening melting, and the rubber bottle is manually discharged into a packing box for sealing after being screwed, so that the mode has the defects of high labor intensity, low efficiency and incapability of forming an effective automatic production line.

Disclosure of Invention

An object of the utility model is to overcome prior art's not enough, provide a capping vanning device rational in infrastructure, excellent in use effect based on beautiful seam agent of epoxy.

In order to achieve the above object, the present invention provides a technical solution: the cover sealing and boxing device based on the epoxy crack sealer comprises a material vibrating disc and a bottle guiding rotary disc, wherein a material discharging plate which rises in a spiral shape is arranged in the material vibrating disc, a material discharging inner baffle is arranged on the inner side of the material discharging plate, and a bottle cover material discharging unit is arranged at the output end of the material discharging plate; the bottle guiding rotary disc is arranged on the workbench and is driven by the corresponding rotary disc to operate, bottle guiding grooves with the number larger than 4 are uniformly distributed at the edge of the bottle guiding rotary disc, an annular limiting ring is arranged on the workbench outside the bottle guiding rotary disc, a bottle inlet is arranged on one side of the limiting ring, and a rubber bottle conveying belt is arranged on the workbench outside the bottle inlet; the bottle cap discharging unit outlet is located above a bottle guiding groove of the rubber bottle conveying belt in the output direction, a cap screwing unit is arranged above the bottle guiding groove of the bottle cap discharging unit in the output direction, a bottle discharging guide groove which is inclined is formed in a workbench of the cap screwing unit in the output direction, a bottle discharging box is arranged on the ground outside the bottle discharging guide groove, a bottle discharging unit is arranged in the bottle discharging box, a box loading frame is arranged below the output direction of the bottle discharging unit, a box sealing conveying belt is installed at the top of the box loading frame, and a box supporting assembly is arranged above the input end of the box sealing conveying belt.

The bottle cap discharging unit comprises a limiting guide rod, an anti-overlapping guide rod and a cap discharging cylinder, wherein the output end of a discharging plate is provided with a downward-concave gravity groove, a material returning groove is formed in a discharging inner baffle at the position of the gravity groove, the number of the limiting guide rods is two, one end of the limiting guide rod is positioned above the output end of the gravity groove, the number of the cap supporting guide rods is two, one end of the cap supporting guide rod is connected with the discharging plate on two sides of the outlet of the gravity groove, the other end of the limiting guide rod is connected with the bottom of the cap discharging cylinder, the other end of the cap supporting guide rod is connected with the top of the cap discharging cylinder, and the connected cap supporting guide rod and the limiting guide rod are parallel to form a bottle cap conveying channel; an anti-overlapping guide rod is arranged above the gravity groove, and one end of the anti-overlapping guide rod is connected with the inner cavity wall of the material vibrating disc outside the discharging plate; the other end of the anti-folding guide rod extends to the upper part of the material returning groove; the top of the cap outlet cylinder is provided with a cap tip guide groove, the top of the cap outlet cylinder at the output end of the cap tip guide groove extends outwards to form a baffle hinge position, the bottom of the baffle hinge position is movably hinged with two limiting plates, and the two limiting plates are respectively positioned on two sides of the cap tip guide groove; the top of the limiting plate is movably hinged to the top of the inner cavity wall of the cap outlet cylinder through a limiting pin shaft, a V-shaped clamp spring is sleeved on the limiting pin shaft, one fork arm of the V-shaped clamp spring is abutted to the top of the inner cavity wall of the cap outlet cylinder, the other fork arm of the V-shaped clamp spring is abutted to the surface of the limiting plate, and the bottom of the limiting plate after installation is inclined downwards to form a gear.

The cap screwing unit comprises a cap screwing lifting cylinder arranged above the rubber bottle conveying belt, a cap screwing seat is arranged at the bottom of the cap screwing lifting cylinder, a cap screwing motor is arranged in the cap screwing seat, a transmission shaft of the cap screwing motor is downwards connected with a cap screwing head, a bottle guide pressing plate is arranged below the cap screwing head, a vertically upward limiting guide pillar is arranged at the top of the bottle guide pressing plate, the top of the limiting guide pillar upwards penetrates through the cap screwing seat to be meshed with a guide pillar limiting nut, a guide pillar spring is sleeved on the limiting guide pillar, the bottom of the guide pillar spring is abutted against the top of the bottle guide pressing plate, and the top of the guide pillar spring is abutted against the bottom of the cap screwing seat; the bottle guide pressure plate right below the cap screwing head is provided with a bottle body positioning groove which penetrates through the bottle body positioning groove from top to bottom, and the bottom of the cap screwing head outside the bottle body positioning groove is provided with a centering ring which is small at the top and big at the bottom.

The bottle arranging unit comprises a bottle arranging box and a bottle guiding plate, wherein the bottle arranging box is installed on the ground of an input end of a packing frame, a bottle inlet is formed in the upper portion of one side of the bottle arranging box, two bottle guiding plate supporting rails are installed in the bottle arranging box below the bottle inlet, the bottle guiding plate is installed on the bottle guiding plate supporting rails, a push plate cylinder is installed in the bottle arranging box at one end of the bottle guiding plate supporting rails, a piston rod of the push plate cylinder is just opposite to the direction of the packing frame, a piston rod of the push plate cylinder is connected with one end of the bottle guiding plate, a bottle arranging outlet is formed in the bottle arranging box at the other end of the bottle guiding plate, the bottle arranging outlet is located above a bearing surface of a sealing conveying belt, and a check plate is movably hinged to the outer side wall of the bottle arranging box above the bottle outlet.

The two groups of box supporting components are respectively positioned on the box loading frames at the two sides of the input end of the box sealing conveyor belt, each box supporting component comprises a box supporting guide post, a box supporting slide block, a turnover motor and a box clamping cylinder, the two supporting box guide pillars are vertically fixed on the box loading frame, two supporting box sliding blocks are provided with guide pillar holes which are penetrated through from top to bottom, the guide pillar holes are sleeved with the supporting box guide pillars, a supporting box top plate is fixed at the tops of the supporting box guide pillars, a supporting box lifting cylinder is installed on the supporting box top plate, a supporting box lifting cylinder piston rod is connected with the tops of the supporting box sliding blocks downwards, the overturning motor is horizontally installed at the bottoms of the supporting box sliding blocks, a box clamping seat is installed on a transmission shaft of the overturning motor, the bottom of the box clamping seat is horizontally provided with a box clamping cylinder, box clamping plates are installed on piston rods of the box clamping cylinders and are L-shaped, box clamping plate cross arms in two groups of supporting box assemblies are opposite, and a box clamping area is formed between the two box clamping plates.

After the technical scheme is adopted, the vibration disc drives the rubber bottle caps to be arranged on the material discharging plate, the tips of the bottle caps are downward through the gravity groove, then the materials are discharged through the bottle cap material discharging unit and conveyed to the upper part of the bottle guiding rotary disc, the rubber bottles are driven to be downward under the outlet of the bottle cap material discharging unit under the driving of the bottle guiding rotary disc, the bottle caps are covered and separated to the cover screwing unit, the bottle caps are screwed through the cover screwing unit, the rubber bottles are guided into the bottle discharging box through the bottle discharging guide groove after being screwed, the rubber bottles are pushed by the bottle discharging unit to pass through the bottle discharging outlet to the inside of the packing box, the packing box is overturned by 90 degrees through the overturning motor after being filled in the packing box, the opening of the packing box is upward, and then the packing box is placed on the box sealing conveying belt to drive the post-process; rational in infrastructure after this scheme of adoption, excellent in use effect can realize automated production with the external system cooperation.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is the utility model discloses a limiting plate hinge schematic diagram.

Fig. 3 is a schematic view of the structure of the screw cap unit of the present invention.

Fig. 4 is a schematic view of the bottle arranging unit structure of the present invention.

Fig. 5 is a schematic structural view of the tray box assembly of the present invention.

Detailed Description

The present invention will be further explained with reference to the drawings, and the preferred embodiment of the present invention is: referring to fig. 1 to 5, the cover sealing and boxing device based on the epoxy crack sealer in the embodiment includes a material vibrating tray 101 and a bottle guiding turntable 202, wherein a material discharging plate 102 rising in a spiral shape is arranged in the material vibrating tray 101, a material discharging inner baffle 103 is arranged on the inner side of the material discharging plate 102, and a bottle cap discharging unit is arranged at the output end of the material discharging plate 102; the bottle guiding rotary disc 202 is arranged on the workbench 203 and is driven by the corresponding rotary disc to operate, the bottle guiding grooves 204 with the number larger than 4 are uniformly distributed at the edge of the bottle guiding rotary disc 202, an annular limiting ring 205 is arranged on the workbench 203 outside the bottle guiding rotary disc 202, a bottle inlet is arranged on one side of the limiting ring 205, and a rubber bottle conveying belt 206 is arranged on the workbench 203 outside the bottle inlet; bottle lid row material unit export is located rubber bottle conveyer belt 206 delivery direction's bottle groove 204 top of leading, bottle lid row material unit delivery direction's bottle groove 204 top is equipped with the spiral cover unit, be equipped with the play bottle guide slot 207 of slope on spiral cover unit delivery direction's workstation 203, go out subaerial row bottle case 215 that is equipped with in the bottle guide slot 207 outside, be equipped with row bottle unit in row bottle case 215, row bottle unit delivery direction below is equipped with vanning frame 301, vanning conveyer belt 302 is installed at vanning frame 301 top, vanning conveyer belt 302 input top is equipped with the support case subassembly.

The bottle cap discharging unit comprises a limiting guide rod 104, an anti-overlapping guide rod 107 and a cap discharging cylinder 109, wherein the output end of a discharging plate 102 is provided with a gravity groove 105 formed by sinking, a material returning groove 108 is arranged on a discharging inner baffle plate 103 at the gravity groove 105, the number of the limiting guide rods 104 is two, one end of each limiting guide rod is positioned above the output end of the gravity groove 105, the number of the cap supporting guide rods 106 is two, one end of each limiting guide rod is connected with the discharging plate 102 on two sides of the outlet of the gravity groove 105, the other end of each limiting guide rod 104 is connected with the bottom of the cap discharging cylinder 109, the other end of each cap supporting guide rod 106 is connected with the top of the cap discharging cylinder 109, and the connected cap supporting guide rods 106 and the limiting guide rods 104 are parallel to form a bottle cap conveying channel; an anti-overlapping guide rod 107 is arranged above the gravity groove 105, and one end of the anti-overlapping guide rod 107 is connected with the inner cavity wall of the vibrating tray 101 outside the discharging plate 102; the other end of the anti-folding guide rod 107 extends to the upper part of the material returning groove 108; a cover tip guide groove 110 is formed in the top of the cover outlet cylinder 109, the top of the cover outlet cylinder 109 at the output end of the cover tip guide groove 110 extends outwards to form a baffle hinge position, limiting plates 112 are movably hinged to the bottoms of the baffle hinge positions, and the two limiting plates 112 are respectively located on two sides of the cover tip guide groove 110; the top of the limiting plate 112 is movably hinged to the top of the inner cavity wall of the cap outlet cylinder 109 through a limiting pin shaft, a V-shaped clamp spring 113 is sleeved on the limiting pin shaft, one fork arm of the V-shaped clamp spring 113 abuts against the top of the inner cavity wall of the cap outlet cylinder 109, the other fork arm of the V-shaped clamp spring 113 abuts against the surface of the limiting plate 112, and the bottom of the limiting plate 112 after installation inclines downwards to form a stop.

The cap screwing unit comprises a cap screwing lifting cylinder 208 arranged above the rubber bottle conveying belt 206, a cap screwing seat 209 is arranged at the bottom of the cap screwing lifting cylinder 208, a cap screwing motor 210 is arranged in the cap screwing seat 209, a transmission shaft of the cap screwing motor 210 is downwards connected with a cap screwing head 211, a bottle guide pressure plate 212 is arranged below the cap screwing head 211, a vertically upward limiting guide pillar 213 is arranged at the top of the bottle guide pressure plate 212, the top of the limiting guide pillar 213 upwards penetrates through the cap screwing seat 209 to be meshed with a guide pillar limiting nut, a guide pillar spring 214 is sleeved on the limiting guide pillar 213, the bottom of the guide pillar spring 214 is abutted against the top of the bottle guide pressure plate 212, and the top of the guide pillar spring 214 is abutted against the bottom of the cap screwing seat 209; a bottle body positioning groove which penetrates through the bottle body positioning groove from top to bottom is formed in the bottle guide pressing plate 212 right below the cap screwing head 211, and a centering ring 219 which is small in top and large in bottom is arranged at the bottom of the cap screwing head 211 outside the bottle body positioning groove.

The bottle arranging unit comprises a bottle arranging box 215 and a bottle guide plate 216, wherein the bottle arranging box 215 is installed on the ground of the input end of the packing frame 301, the upper portion of one side of the bottle arranging box 215 is provided with a bottle inlet, two bottle plate support rails are installed in the bottle arranging box 215 below the bottle inlet, the bottle guide plate 216 is installed on the bottle plate support rails, a push plate cylinder 217 is installed in the bottle arranging box 215 at one end of each bottle plate support rail, a piston rod of the push plate cylinder 217 is opposite to the direction of the packing frame 301, a piston rod of the push plate cylinder 217 is connected with one end of the bottle guide plate 216, a bottle arranging outlet is formed in the bottle arranging box 215 at the other end of the bottle guide plate 216 and is located above the bearing surface of the packing conveyor belt 302, and a check plate 218 is movably hinged on the outer side wall of the bottle arranging box 215 above the bottle arranging outlet.

The two box supporting assemblies are respectively positioned on the boxing frames 301 at the two sides of the input end of the box sealing conveying belt 302, each box supporting assembly comprises two box supporting guide posts 303, a box supporting sliding block 306, two overturning motors 307 and a box clamping cylinder 308, wherein the two box supporting guide posts 303 are vertically fixed on the boxing frames 301, the two box supporting sliding blocks 306 are provided with guide post holes which penetrate through up and down, the guide post holes are sleeved with the box supporting guide posts 303, a box supporting top plate 304 is fixed at the top of the box supporting guide posts 303, a box supporting lifting cylinder 305 is arranged on the box supporting top plate 304, a piston rod of the box supporting lifting cylinder 305 is downwards connected with the top of the box supporting sliding block 306, the overturning motors 307 are horizontally arranged at the bottom of the box supporting sliding block 306, a box clamping seat is arranged on a transmission shaft of the overturning motors 307, a box clamping cylinder 308 is horizontally arranged at the bottom of the box clamping seat, a box clamping plate 309 is arranged on a piston rod of the box clamping cylinder 308, the clamping plate 309 is L-shaped, and clamping plates 309 in the two groups of box supporting assemblies are opposite to each other, a box clamping area is formed between the two box clamping plates 309.

The bottle cap is conveyed upwards through vibration of the vibration tray, the width of the gravity groove is smaller than the width of a cap opening of the bottle cap and larger than the width of the top (tip) of the bottle cap, and when the bottle cap moves to the gravity groove, the tip of the bottle cap enters the gravity groove downwards under the action of vibration force and the dead weight of the tip of the bottle cap;

when the bottle cap or the stacked bottle caps with upward tips walk backwards, the bottle cap or the stacked bottle caps touch the anti-folding guide rod and are blocked by the anti-folding guide rod, so that the bottle cap cannot walk backwards;

under the guiding action of the vibrating disc and the anti-overlapping guide rods, the bottle caps finally pass through the material returning groove to return to the vibrating disc for discharging again, smoothly pass through the bottle caps (the bottle caps with downward tips) below the anti-overlapping guide rods to continue to advance and enter a bottle cap conveying channel through the guiding of the gravity groove, and the tips of the cap caps are supported by the two cap supporting guide rods (the tips are positioned between the two cap supporting guide rods downward) when the bottle caps enter the bottle cap conveying channel;

the bottle cap conveying channel is twisted (rotated) by 180 degrees from the input end to the output end, and when the bottle cap conveying channel continues to travel to the output end of the bottle cap conveying channel, the tip of the bottle cap is upward under the twisting action of the bottle cap conveying channel, and the bottle cap is continuously traveled and discharged into a cap discharging cylinder;

at the moment, the tip of the bottle cap is upwards positioned in the cap tip guide groove, under the action of the V-shaped clamp spring, the bottoms of the limiting plates are inclined downwards to form a gear to be blocked at an outlet of the cap outlet cylinder, the tip of the bottle cap at the outermost side enters between the two limiting plates, and the cap body at the outermost side is blocked by the limiting plates and cannot be discharged; meanwhile, under the inclination action of the limiting plate, the cover body of the bottle cap can slightly incline;

the glue bottles are conveyed to the bottle guide rotating disc through the glue bottle conveying grooves and are blocked by the disc edge of the bottle guide rotating disc, the bottle guide rotating disc moves under the driving of a rotating disc motor (one station is formed when the bottle guide rotating disc moves, the disc edge of the bottle guide rotating disc is not blocked when the bottle guide rotating disc is over against the glue bottles, the glue bottles enter the bottle guide grooves, and the bottle guide rotating disc is driven by the rotating disc motor to move to a station (a limiting ring is used for preventing the glue bottles from being thrown out) to the cap outlet cylinder;

the horizontal plane of the lower end of the bottle cap body is lower than the horizontal plane of the top of the bottle body, when the glue bottle moves to the bottle cap, the glue outlet of the glue bottle is firstly contacted with the inner cavity of the lower end of the bottle cap body, when the glue bottle continues to move, the bottle cap is pulled, the bottle cap is extruded out of the limiting plate (two fork arms of the V-shaped clamp spring are relatively stressed and closed), and the upward-rotating limiting plate is adopted, so that when the bottle cap is output, the limiting plate can apply certain pressure to the bottle cap, and the bottle cap can be just buckled with the glue outlet; thereby realizing the stable output of the bottle cap; after the bottle cap is buckled, the bottle guiding rotary disc continues to move one station to the lower part of the cap screwing unit;

the cap screwing lifting cylinder drives the cap screwing base to descend, the cap screwing base synchronously drives the bottle guide pressing plate to descend, the bottle guide pressing plate is gradually contacted with the upper part of the rubber bottle, when the rubber bottle deviates, automatic centering is carried out under the action of the centering ring, finally the bottle guide pressing plate is pressed on the outer side of a bottle opening at the top of the rubber bottle (the guide pillar spring is stressed and compressed), the cap screwing base continuously descends, the cap screwing head starts to be contacted with the bottle cap, the cap screwing motor rotates to drive the cap screwing head, the cap screwing head drives the bottle cap to be locked, and the cap screwing lifting cylinder drives the cap screwing base to ascend after locking is finished; the bottle guiding rotary table continuously walks for a station to a position above the bottle discharging guide groove, the rubber bottles fall into the bottle discharging guide groove under the self-weight and slide into the bottle arranging box under the guiding action of the inclined plane of the bottle discharging guide groove;

the end part of a bottle guide plate in the direction of a push plate cylinder in the bottle arranging box is bent upwards to form an anti-skidding limiting edge, the horizontal plane of the top of the anti-skidding limiting edge is lower than the horizontal plane of the bottom of the check plate, and the horizontal plane of the bottom of the check plate is lower than the horizontal plane of the top of the rubber bottle; the rubber bottle after being sealed is driven by an external conveyer belt to enter from a bottle inlet and move to a bottle guide plate, and after the rubber bottle enters the bottle guide plate, a piston rod of a push plate cylinder extends out to drive the bottle guide plate to move towards the direction of a bottle discharge outlet;

the packing box is placed in a box clamping area, two sides of the bottom of the packing box are respectively supported by corresponding box clamping plate cross arms, piston rods of two box clamping cylinders extend out relatively to drive two box clamping plates to approach relatively, so that vertical walls of the box clamping plates cling to the side walls of the packing box, the packing box is centered, a box opening of the centered packing box is right opposite to a bottle discharging outlet, and the stacking position of the packing box is flush with a bottle guiding plate supporting surface;

when the bottle guide plate passes through the bottle discharge outlet, the glue bottles push the check plate outwards and upwards, the check plate rotates outwards and upwards, the bottle guide plate drives the glue bottles to pass through the bottle discharge outlet and enter the packaging box, and after the glue bottles pass through, the lower part of the check plate falls under the self weight;

at the moment, the glue bottle is positioned outside the check plate (in the packing box), the piston rod of the push plate cylinder retracts to drive the bottle guide plate, the glue bottle is stopped by the check plate when returning along with the bottle guide plate (the upper part of the check plate is limited by the outer side wall of the bottle discharging box above the bottle discharging outlet), the glue bottle does not return to the bottle discharging box along with the bottle guide plate, but enters the packing box to finish the packing of the glue bottle, and after the stacking position of the packing box is fully discharged, the box supporting lifting cylinder drives the packing box to descend by one stacking position to continue to bottle;

after all the packaging boxes are loaded, the box supporting lifting cylinder retracts to drive the box supporting assembly to ascend, a certain position is reserved between the bottom of the packaging box and the bearing surface of the box sealing conveying belt, the overturning motor rotates to drive the box clamping base to rotate, and the packaging box is overturned by 90 degrees through the box clamping plate so that the box opening of the packaging box is upward;

a piston rod of a box supporting lifting cylinder extends out to drive a box supporting component to descend, so that the bottom of a cross arm of a box clamping plate is in contact with the bearing surface of a box sealing conveying belt, the piston rod of a box clamping cylinder retracts to drive two box clamping plates to be relatively far away, the cross arm of the box clamping plate is withdrawn from the bottom of a packaging box, and the packaging box is subjected to a post-process by the bearing of the box sealing conveying belt to complete box sealing; the scheme can realize automatic production by matching with an external control system, and has the advantages of reasonable structure and good use effect.

The above-mentioned embodiments are only preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, so that the changes made according to the shape and principle of the present invention should be covered within the protection scope of the present invention.

Claims

1. Closing cap vanning device based on beautiful seam agent of epoxy, its characterized in that: the bottle cap discharging device comprises a vibrating tray (101) and a bottle guiding rotary disc (202), wherein a discharging plate (102) which rises in a spiral shape is arranged in the vibrating tray (101), a discharging inner baffle plate (103) is arranged on the inner side of the discharging plate (102), and a bottle cap discharging unit is arranged at the output end of the discharging plate (102); the bottle guiding rotary table (202) is arranged on the workbench (203) and is driven by the corresponding rotary table to operate, bottle guiding grooves (204) with the number larger than 4 are uniformly distributed at the edge of the bottle guiding rotary table (202), an annular limiting ring (205) is arranged on the workbench (203) at the outer side of the bottle guiding rotary table (202), a bottle inlet is arranged at one side of the limiting ring (205), and a rubber bottle conveying belt (206) is arranged on the workbench (203) at the outer side of the bottle inlet; bottle lid row material unit export is located bottle groove (204) top of leading of gluey bottle conveyer belt (206) direction of output, bottle lid row material unit direction of output is equipped with spiral cover unit in leading bottle groove (204) top, be equipped with play bottle guide slot (207) of slope on spiral cover unit direction of output's workstation (203), go out subaerial row bottle case (215) that is equipped with in bottle guide slot (207) outside, be equipped with row bottle unit in row bottle case (215), row bottle unit direction of output below is equipped with vanning frame (301), vanning conveyer belt (302) are installed at vanning frame (301) top, vanning conveyer belt (302) input top is equipped with the support case subassembly.

2. The epoxy caulk based closure encasement device of claim 1, wherein: the bottle cap discharging unit comprises a limiting guide rod (104), an anti-overlapping guide rod (107) and a cap discharging cylinder (109), wherein the output end of a discharging plate (102) is provided with a gravity groove (105) formed by sinking, a material returning groove (108) is arranged on a discharging inner baffle (103) at the position of the gravity groove (105), the number of the limiting guide rods (104) is two, one end of each limiting guide rod is positioned above the output end of the gravity groove (105), the number of the cap supporting guide rods (106) is two, one end of each cap supporting guide rod is connected with the discharging plate (102) on two sides of the outlet of the gravity groove (105), the other end of each limiting guide rod (104) is connected with the bottom of the cap discharging cylinder (109), the other end of each cap supporting guide rod (106) is connected with the top of the cap discharging cylinder (109), and the connected cap supporting guide rods (106) and the limiting guide rods (104) are parallel to form a bottle cap conveying channel; an anti-overlapping guide rod (107) is arranged above the gravity groove (105), and one end of the anti-overlapping guide rod (107) is connected with the inner cavity wall of the vibrating tray (101) on the outer side of the discharging plate (102); the other end of the anti-folding guide rod (107) extends to the upper part of the material returning groove (108); a cover tip guide groove (110) is formed in the top of the cover outlet cylinder (109), the top of the cover outlet cylinder (109) at the output end of the cover tip guide groove (110) extends outwards to form a baffle hinge position, limiting plates (112) are movably hinged to the bottom of the baffle hinge position, and the two limiting plates (112) are respectively located on two sides of the cover tip guide groove (110); the top of the limiting plate (112) is movably hinged to the top of the inner cavity wall of the cover outlet cylinder (109) through a limiting pin shaft, a V-shaped clamp spring (113) is sleeved on the limiting pin shaft, one fork arm of the V-shaped clamp spring (113) is abutted to the top of the inner cavity wall of the cover outlet cylinder (109), the other fork arm of the V-shaped clamp spring (113) is abutted to the surface of the limiting plate (112), and the bottom of the mounted limiting plate (112) inclines downwards to form a gear.

3. The epoxy caulk based closure encasement device of claim 1, wherein: the cap screwing unit comprises a cap screwing lifting cylinder (208) arranged above the rubber bottle conveying belt (206), a cap screwing seat (209) is arranged at the bottom of the cap screwing lifting cylinder (208), a cap screwing motor (210) is arranged in the cap screwing seat (209), a transmission shaft of the cap screwing motor (210) is downwards connected with a cap screwing head (211), a bottle guiding pressing plate (212) is arranged below the cap screwing head (211), a vertical and upward limiting guide pillar (213) is arranged at the top of the bottle guiding pressing plate (212), the top of the limiting guide pillar (213) upwards penetrates through the cap screwing seat (209) to be meshed with a guide pillar limiting nut, a guide pillar spring (214) is sleeved on the limiting guide pillar (213), the bottom of the guide pillar spring (214) is abutted against the top of the bottle guiding pressing plate (212), and the top of the guide pillar spring (214) is abutted against the bottom of the cap screwing seat (209); a bottle body positioning groove which penetrates through the bottle body positioning groove from top to bottom is arranged on the bottle guide pressure plate (212) right below the cap screwing head (211), and a centering ring (219) which is small in top and large in bottom is arranged at the bottom of the cap screwing head (211) on the outer side of the bottle body positioning groove.

4. The epoxy caulk based closure encasement device of claim 1, wherein: the bottle arranging unit comprises bottle arranging boxes (215) and bottle guide plates (216), wherein the bottle arranging boxes (215) are installed on the ground of the input end of a packing frame (301), the upper portion of one side of each bottle arranging box (215) is provided with a bottle inlet, two bottle plate supporting rails are installed in the bottle arranging boxes (215) below the bottle inlet, the bottle guide plates (216) are installed on the bottle plate supporting rails, a push plate cylinder (217) is installed in the bottle arranging box (215) at one end of each bottle plate supporting rail, a piston rod of the push plate cylinder (217) is opposite to the direction of the packing frame (301), a piston rod of the push plate cylinder (217) is connected with one end of each bottle guide plate (216), a bottle arranging outlet is formed in each bottle arranging box (215) at the other end of the bottle guide plate (216), the bottle arranging outlet is located above the bearing surface of a sealing conveying belt (302), and a return stop plate (218) is movably hinged to the outer side wall of each bottle arranging box (215) above the bottle arranging outlet.

5. The epoxy caulk based closure encasement device of claim 1, wherein: the two box supporting components are respectively positioned on the box loading frame (301) on two sides of the input end of the box sealing conveying belt (302), the two box supporting components comprise two box supporting guide posts (303), two box supporting sliding blocks (306), a turnover motor (307) and a box clamping cylinder (308), wherein the two box supporting guide posts (303) are vertically fixed on the box loading frame (301), the two box supporting sliding blocks (306) are provided with guide post holes which penetrate through up and down, the guide post holes are sleeved with the box supporting guide posts (303), a box supporting top plate (304) is fixed on the top of the box supporting guide posts (303), a box supporting lifting cylinder (305) is arranged on the box supporting top plate (304), a piston rod of the box supporting lifting cylinder (305) is downwards connected with the top of the box supporting sliding blocks (306), the turnover motor (307) is horizontally arranged at the bottom of the box supporting sliding blocks (306), a box clamping seat is arranged on a transmission shaft of the turnover motor (307), and the box clamping cylinder (308) is horizontally arranged at the bottom of the box clamping seat, the piston rod of the box clamping cylinder (308) is provided with a box clamping plate (309), the box clamping plate (309) is L-shaped, the cross arms of the box clamping plates (309) in the two groups of box supporting assemblies are opposite, and a box clamping area is formed between the two box clamping plates (309).