Summary of the invention
Technical problem to be solved
Aiming at the defects of the prior art, the invention provides the dispensing equipment of the Internet of things, and solves the problems that when electronic components and a circuit board or a chip are dispensed and fixed, some unused glue solution remains on the outer ring of the outlet of the glue nozzle after dispensing is performed on the glue nozzle, and the glue nozzle still has residual heat after dispensing is completed, so that the glue solution cannot be immediately cleaned, and is easy to forget to clean the glue nozzle, so that the glue solution is directly solidified on the glue nozzle, and the dispensing efficiency of the next time is directly influenced.
(II) technical scheme
In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a thing networking dispensing equipment, its structure includes aircraft nose, dispensing head, thing networking connecting box, clean cooling structure, places extension board, control panel, end control box, braced frame, the aircraft nose is installed on braced frame and swing joint, clean cooling structure inlays and installs on the aircraft nose, dispensing head installs on clean cooling structure, thing networking connecting box installs in the braced frame left side, be equipped with on the end control box and place the extension board, control panel is connected with end control box electricity, clean cooling structure includes cold air guide slot frame, hose, air conditioner, support frame structure, the air conditioner is linked together through hose and cold air guide slot frame, the cold air guide slot frame is installed in the inside and swing joint of support frame structure, air conditioner fixed mounting is inside support frame structure.
Preferably, the cold air guide groove frame comprises a fixed support plate structure, a cold air guide cavity and a cold air discharge pipe structure, the upper end of the cold air guide cavity is mechanically connected with the lower end of the fixed support plate structure, the lower end of the cold air guide cavity is matched with and fixedly connected with the upper end of the cold air discharge pipe structure, sliding grooves are formed in the front side and the rear side of the cold air guide cavity, and an air guide connection hole is formed in the left side of the cold air guide cavity and used for being connected with a hose.
Preferably, the fixed support plate structure comprises a limiting pull rod, a sliding cavity, a buffer spring, an embedding hole, a connecting support plate and a support plate, the limiting pull rod is embedded in the sliding cavity and is in sliding connection with the sliding cavity, the limiting pull rod is fixedly connected with the buffer spring and is connected with the buffer spring through electric welding, the connecting support plate is welded between the support plates, the limiting pull rod and the support plate are of an integrated structure, and the buffer spring is made of spring steel, so that the elasticity of the buffer spring is better.
Preferably, the cold air discharge pipe structure comprises a guide frame, an air groove frame, an air outlet hole and a scraping air guide frame, the guide frame and the air groove frame are of an integrated structure, the right side of the air groove frame is welded with the left side of the air outlet hole, the air outlet hole and the scraping air guide frame are of an integrated structure, the air groove frame is of an inclined hollow groove frame structure, and the inclination is 25-30 degrees.
Preferably, the scraping air guide frame comprises a dispensing head guide hole, an exhaust disc and a cutter frame structure, the dispensing head guide hole and the exhaust disc are of an integrated structure, the lower end of the exhaust disc is welded with the upper end of the cutter frame structure, and the dispensing head guide hole is of a cylindrical ring structure.
As preferred, the supporting frame structure includes card slot hole, outrigger structure, slider, protection casing, the card slot hole is equipped with two altogether, and locates the protection casing in the front and back end be integral structure, the slider is equipped with four altogether, is the cuboid structure, and all welds front and back end in the protection casing.
Preferably, the stabilizing support structure comprises an anti-slip ring, a supporting plate frame and a limiting threaded rod, the anti-slip ring and the supporting plate frame are of an integrated structure, the limiting threaded rod is embedded into the right side of the supporting plate frame and is in threaded connection with the supporting plate frame, and the anti-slip ring is made of rubber materials.
Preferably, the knife rest structure comprises a conical support and a scraper frame, the scraper frame is embedded in the inner side of the conical support and is connected with the conical support through electric welding, the outer ring of the scraper frame is of a circular ring structure, the diameter of the inner side of the scraper frame is gradually reduced from top to bottom, and the inner ring of the scraper frame is provided with three cutting rings.
(III) advantageous effects
The invention provides dispensing equipment for the Internet of things. The method has the following beneficial effects:
1. the cold air guide groove frame is arranged, so that the air conditioner generates cold air, the cold air enters the cold air guide cavity through the hose, the cold air in the cold air guide cavity flows to the inner part of the exhaust disc along the air groove frame, the cold air is exhausted through the air outlet hole to cool the dispensing head, the dispensing head can be conveniently cleaned, and the problem that the dispensing efficiency of the next time is influenced due to the fact that glue solution is bonded on the outer ring of the dispensing head is avoided.
2. The cold air guide cavity is driven by the support plate to slide downwards by the limit pull rod, so that the cold air discharge pipe structure moves downwards along with the cold air guide cavity, the scraper frame on the conical support is driven to scrape colloid condensed at the outer end of the dispensing head, the solidified colloid is scraped and falls off from the dispensing head, and when the external temperature of the dispensing head drops, the external part is cleaned and cleaned, and then maintenance liquid is coated to maintain the dispensing head, so that the effect of cooling and cleaning the solidified colloid is achieved.
Drawings
Fig. 1 is a schematic structural view of an internet-of-things dispensing device according to the present invention;
FIG. 2 is a side view of the clean cooling structure of the present invention;
FIG. 3 is a side view of the cold air duct of the present invention;
FIG. 4 is a front view of the fixing bracket plate structure of the present invention;
FIG. 5 is a side view of the structure of the cold air discharge pipe of the present invention;
FIG. 6 is a side view of the scraper air guide of the present invention;
FIG. 7 is a side view of the supporting frame structure of the present invention;
FIG. 8 is a side view of the stabilizing brace structure of the present invention;
fig. 9 is a front view of the tool holder of the present invention.
In the figure: the machine head-1, the dispensing head-2, the Internet of things connecting box-3, the cleaning and cooling structure-4, the placing support plate-5, the control panel-6, the bottom control box-7, the support frame-8, the cold air guide groove frame-41, the hose-42, the air conditioner-43, the support frame structure-44, the fixed support plate structure-411, the cold air guide cavity-412, the cold air discharge pipe structure-413, the limit pull rod-T1, the sliding cavity-T2, the buffer spring-T3, the embedded hole-T4, the connecting support plate-T5, the support plate-T6, the guide frame-131, the air groove frame-132, the air outlet hole-133, the scraping air guide frame-134, the dispensing head guide hole-341, the exhaust disc-342, the knife rest structure-343, the clamping groove hole-441, the clamping groove structure-131, a stabilizing support structure-442, a sliding block-443, a protective cover-444, an anti-slip ring-421, a supporting plate frame-422, a limit threaded rod-423, a conical support-B1 and a scraper frame-B2.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
As shown in figures 1 to 9:
example 1
The embodiment of the invention provides Internet of things dispensing equipment, which structurally comprises a machine head 1, a dispensing head 2, an Internet of things connecting box 3, a cleaning and cooling structure 4, a placing support plate 5, a control panel 6, a bottom control box 7 and a support frame 8, wherein the machine head 1 is arranged on the support frame 8 and movably connected, the cleaning and cooling structure 4 is embedded on the machine head 1, the dispensing head 2 is arranged on the cleaning and cooling structure 4, the Internet of things connecting box 3 is arranged on the left side of the support frame 8, the placing support plate 5 is arranged on the bottom control box 7, the control panel 6 is electrically connected with the bottom control box 7, the cleaning and cooling structure 4 comprises a cold air guide groove frame 41, a hose 42, an air cooler 43 and a support frame structure 44, the air cooler 43 is communicated with the cold air guide groove frame 41 through the hose 42, the cold air guide groove frame 41 is arranged inside the support frame structure 44 and movably connected, the air conditioner 43 is fixedly mounted inside the support frame structure 44.
Wherein, cold air guide slot frame 41 includes fixed bolster structure 411, cold air guide cavity 412, cold air discharge pipe structure 413, cold air guide cavity 412 upper end and fixed bolster structure 411 lower extreme mechanical connection, cold air guide cavity 412 lower extreme cooperatees and fixed connection with cold air discharge pipe structure 413 upper end, both sides are equipped with the spout around cold air guide cavity 412, and the left side is equipped with the air guide and connects the hole for be connected with hose 42, make and to carry the cold air that air conditioner 43 produced in cold air guide cavity 412.
The fixed support plate structure 411 comprises a limiting pull rod T1, a sliding cavity T2, a buffer spring T3, an embedding hole T4, a connecting support plate T5 and a support plate T6, wherein the limiting pull rod T1 is embedded in the sliding cavity T2 and is in sliding connection, the limiting pull rod T1 is fixedly connected with the buffer spring T3 and is connected with the buffer spring T3 through electric welding, the connecting support plate T5 is welded between the support plates T6, the limiting pull rod T1 and the support plate T6 are of an integrated structure, the buffer spring T3 is made of spring steel, elasticity of the buffer spring T3 is better, and the limiting pull rod T1 can automatically bounce outwards when embedded into the support plate T6.
The cold air discharge pipe structure 413 comprises a guide frame 131, an air groove frame 132, an air outlet 133 and a scraping air guide frame 134, the guide frame 131 and the air groove frame 132 are of an integrated structure, the right side of the air groove frame 132 is welded with the left side of the air outlet 133, the air outlet 133 and the scraping air guide frame 134 are of an integrated structure, the air groove frame 132 is of an inclined hollow groove frame structure, the inclination is 25-30 degrees, and therefore condensed water generated by the inner wall after cold air cooling can be discharged along the radian quickly.
The scraping air guide frame 134 comprises a dispensing head guide hole 341, an exhaust disc 342 and a cutter frame structure 343, the dispensing head guide hole 341 and the exhaust disc 342 are of an integrated structure, the lower end of the exhaust disc 342 is welded with the upper end of the cutter frame structure 343, the dispensing head guide hole 341 is of a cylindrical ring structure and used for being connected with the dispensing head 2, so that the outer ring of the dispensing head 2 can be attached to the dispensing head guide hole 341, the exhaust disc 342 can vertically slide on the dispensing head 2, and the dispensing head 2 cannot be damaged.
The supporting frame structure 44 includes two slot holes 441, two stabilizing support structures 442, four sliding blocks 443, and two protective covers 444, wherein the two slot holes 441 are disposed in the protective covers 444, the front and rear ends of the slot holes are integrated, the four sliding blocks 443 are disposed in the protective covers 444, the four sliding blocks 443 are rectangular and are all welded to the front and rear ends of the protective covers 444, and the sliding blocks 443 are assembled with the sliding slots of the cold air guiding cavity 412, so that the sliding blocks 443 can limit the sliding track of the cold air guiding cavity 412.
Wherein, stabilizing support structure 442 includes anti-slip ring 421, backup pad frame 422, limit threaded rod 423, anti-slip ring 421 and backup pad frame 422 are the integral structure, limit threaded rod 423 is embedded in backup pad frame 422 right side and threaded connection, anti-slip ring 421 adopts the rubber material to make, and is used for the effect of fixed restriction to dispensing head 2 for dispensing head 2 can be more firm fix on backup pad frame 422.
The specific working process is as follows:
after dispensing the electronic components and the circuit board, the air conditioner 43 is started by the control panel 6 to operate, so that the air conditioner 43 generates cold air, the cold air enters the cold air guide cavity 412 through the hose 42, the cold air in the cold air guide cavity 412 flows to the inside of the exhaust disc 342 along the air groove frame 132, the cold air is discharged through the air outlet 133 to cool the dispensing head 2, the buffer spring T3 is compressed by pressing the limiting pull rod T1, so that the guide post inside the limiting pull rod T1 is separated from the air groove hole 441, and then the limiting pull rod T1 is dragged up and down, so that the limiting pull rod T1 drives the support plate T6 to move up and down, the cold air guide cavity 412 connected below the support plate T6 moves up and down along with the cold air discharge pipe structure 413 below the cold air guide cavity 412, so as to adjust the height of the exhaust disc 342, thereby can be quick carry out refrigerated effect to the point is glued head 2 to this can conveniently clean the washing to the point is glued head 2, avoids gluing the solution and bonds on the point is glued head 2 outer ring, causes its some efficiency of gluing that influences next time.
Example 2
The embodiment of the invention provides Internet of things dispensing equipment, which structurally comprises a machine head 1, a dispensing head 2, an Internet of things connecting box 3, a cleaning and cooling structure 4, a placing support plate 5, a control panel 6, a bottom control box 7 and a support frame 8, wherein the machine head 1 is arranged on the support frame 8 and movably connected, the cleaning and cooling structure 4 is embedded on the machine head 1, the dispensing head 2 is arranged on the cleaning and cooling structure 4, the Internet of things connecting box 3 is arranged on the left side of the support frame 8, the placing support plate 5 is arranged on the bottom control box 7, the control panel 6 is electrically connected with the bottom control box 7, the cleaning and cooling structure 4 comprises a cold air guide groove frame 41, a hose 42, an air cooler 43 and a support frame structure 44, the air cooler 43 is communicated with the cold air guide groove frame 41 through the hose 42, the cold air guide groove frame 41 is arranged inside the support frame structure 44 and movably connected, the air conditioner 43 is fixedly mounted inside the support frame structure 44.
Wherein, cold air guide slot frame 41 includes fixed bolster structure 411, cold air guide cavity 412, cold air discharge pipe structure 413, cold air guide cavity 412 upper end and fixed bolster structure 411 lower extreme mechanical connection, cold air guide cavity 412 lower extreme cooperatees and fixed connection with cold air discharge pipe structure 413 upper end, both sides are equipped with the spout around cold air guide cavity 412, and the left side is equipped with the air guide and connects the hole for be connected with hose 42, make and to carry the cold air that air conditioner 43 produced in cold air guide cavity 412.
The fixed support plate structure 411 comprises a limiting pull rod T1, a sliding cavity T2, a buffer spring T3, an embedding hole T4, a connecting support plate T5 and a support plate T6, wherein the limiting pull rod T1 is embedded in the sliding cavity T2 and is in sliding connection, the limiting pull rod T1 is fixedly connected with the buffer spring T3 and is connected with the buffer spring T3 through electric welding, the connecting support plate T5 is welded between the support plates T6, the limiting pull rod T1 and the support plate T6 are of an integrated structure, the buffer spring T3 is made of spring steel, elasticity of the buffer spring T3 is better, and the limiting pull rod T1 can automatically bounce outwards when embedded into the support plate T6.
The cold air discharge pipe structure 413 comprises a guide frame 131, an air groove frame 132, an air outlet 133 and a scraping air guide frame 134, the guide frame 131 and the air groove frame 132 are of an integrated structure, the right side of the air groove frame 132 is welded with the left side of the air outlet 133, the air outlet 133 and the scraping air guide frame 134 are of an integrated structure, the air groove frame 132 is of an inclined hollow groove frame structure, the inclination is 25-30 degrees, and therefore condensed water generated by the inner wall after cold air cooling can be discharged along the radian quickly.
The scraping air guide frame 134 comprises a dispensing head guide hole 341, an exhaust disc 342 and a cutter frame structure 343, the dispensing head guide hole 341 and the exhaust disc 342 are of an integrated structure, the lower end of the exhaust disc 342 is welded with the upper end of the cutter frame structure 343, the dispensing head guide hole 341 is of a cylindrical ring structure and used for being connected with the dispensing head 2, so that the outer ring of the dispensing head 2 can be attached to the dispensing head guide hole 341, the exhaust disc 342 can vertically slide on the dispensing head 2, and the dispensing head 2 cannot be damaged.
The supporting frame structure 44 includes two slot holes 441, two stabilizing support structures 442, four sliding blocks 443, and two protective covers 444, wherein the two slot holes 441 are disposed in the protective covers 444, the front and rear ends of the slot holes are integrated, the four sliding blocks 443 are disposed in the protective covers 444, the four sliding blocks 443 are rectangular and are all welded to the front and rear ends of the protective covers 444, and the sliding blocks 443 are assembled with the sliding slots of the cold air guiding cavity 412, so that the sliding blocks 443 can limit the sliding track of the cold air guiding cavity 412.
Wherein, stabilizing support structure 442 includes anti-slip ring 421, backup pad frame 422, limit threaded rod 423, anti-slip ring 421 and backup pad frame 422 are the integral structure, limit threaded rod 423 is embedded in backup pad frame 422 right side and threaded connection, anti-slip ring 421 adopts the rubber material to make, and is used for the effect of fixed restriction to dispensing head 2 for dispensing head 2 can be more firm fix on backup pad frame 422.
Wherein, knife rest structure 343 includes conical support B1, scrapes knife rest B2, scrape knife rest B2 and inlay in conical support B1 inboard and be connected through the electric welding, it is the ring structure to scrape the knife rest B2 outer loop, and the inboard diameter from top to bottom reduces gradually, and the inner ring is equipped with three cutting ring for the effect of scraping is carried out to the solidification colloid that outer loop terminal surface department was kept away from to dispensing head 2 gradually to the solidification colloid that is close to in outer loop terminal surface department, avoids disposable too big scraping with strength, causes great impact to dispensing head 2 and scrapes, causes dispensing head 2 to damage.
The specific working process is as follows:
after dispensing the electronic components and the circuit board, the air conditioner 43 cools the electronic components and the circuit board, so that the cool air enters the cool air guide chamber 412, and then discharged to the scraping guide frame 134 through the air groove frame 132, discharged through the air outlet hole 133, the dispensing head 2 is cooled down and the limit pull rod T1 is pressed at the same time, so that the inner side of the limit pull rod T1 is separated from the card slot hole 441, then the support plate T6 drives the cold air guide cavity 412 to slide downwards through the limit pull rod T1, thereby, the cold air discharge pipe structure 413 moves downwards along with the cold air discharge pipe structure, the scraper frame B2 on the conical support B1 is driven to scrape the colloid condensed at the outer end of the dispensing head 2, the solidified colloid is scraped and falls off from the dispensing head 2, when the external temperature of the dispensing head 2 is reduced, the outside is cleaned, and then maintenance liquid is smeared to maintain the outside, so that the effect of cooling and cleaning the solidified colloid of the dispensing head 2 is achieved.
It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.