CN113414065A - Dispensing curing equipment for packaging LED nixie tube and working method thereof - Google Patents

Abstract

The invention relates to the technical field of LED nixie tube packaging, in particular to a dispensing and curing device for LED nixie tube packaging and a working method thereof, the dispensing and curing device comprises a base station, an operating platform, a lifting assembly, a third sliding bottom plate and a third sliding plate, the LED nixie tube is positioned in a second slot hole by adjusting the height of the LED nixie tube on a bracket, the alignment and calibration operation of the device is facilitated by arranging the second slot hole, so that the use convenience of the device is improved, meanwhile, the LED nixie tube is restrained and fixed by the second slot hole, the LED nixie tube is prevented from moving left and right in the dispensing process, the dispensing operation of the device is facilitated, the stability of the device in dispensing is improved, the use reliability of the dispensing and curing device for LED nixie tube packaging is improved, the blocking strips are arranged at the two sides of the second slot hole, dust and air can be effectively blocked, and the interference of external factors on the curing of colloid is reduced, therefore, the quality of the LED nixie tube dispensing curing equipment for packaging the LED nixie tube is improved.

Description

Dispensing curing equipment for packaging LED nixie tube and working method thereof

Technical Field

The invention relates to the technical field of LED nixie tube packaging, in particular to dispensing curing equipment for LED nixie tube packaging and a working method thereof.

Background

The LED nixie tube is electronic equipment capable of displaying numbers and other information, the glass tube comprises an anode and a plurality of cathodes, the anode and the cathodes are made of a metal wire mesh, most of the cathodes of the nixie tube are digital, low-pressure gas is filled in the tube, most of neon and mercury and/or argon are added usually, a certain cathode is charged, the nixie tube can emit color light, the gas in the tube is determined according to the color of the nixie tube, the nixie tube is generally orange or green, an enterprise carries out glue dispensing and packaging on the LED nixie tube through the requirement in the process of processing and producing the LED, and in order to meet the huge requirements of the existing market, the enterprise can use glue dispensing and curing equipment for packaging the LED nixie tube when dispensing the LED nixie tube.

However, the existing dispensing and curing equipment for packaging the LED nixie tube has great defects in the using process, the existing dispensing and curing equipment for packaging the LED nixie tube cannot automatically feed materials, the working strength of operators is increased, the automation degree of the equipment is also reduced, and therefore the processing and production efficiency of the equipment is reduced.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides dispensing curing equipment for packaging an LED nixie tube and a working method thereof.

The technical scheme adopted by the invention for solving the technical problems is as follows: a dispensing and curing device for packaging an LED nixie tube comprises a base station, an operation table, a lifting assembly, a third sliding bottom plate and a third sliding plate, wherein the operation table and the third sliding bottom plate are respectively welded and fixed at the center of the top of the base station;

the operating table comprises a table plate, a first sliding bottom plate and a first sliding plate, wherein a second slotted hole is formed in the top of the table plate, the alignment and calibration operation of the equipment is facilitated by the arrangement of the second slotted hole, meanwhile, the LED nixie tube is restrained and fixed through the second slotted hole, so that the LED nixie tube cannot move left and right in the dispensing process, the dispensing operation of the equipment is facilitated, the stability of the dispensing operation of the equipment is improved, two barrier strips are horizontally welded on the top of the table plate and are respectively positioned on two sides of the second slotted hole, the barrier strips are arranged on two sides of the second slotted hole, dust and air can be effectively blocked, the interference of external factors on the solidification of colloid is reduced, the quality of the dispensing solidification equipment for packaging the LED nixie tube on the LED nixie tube is improved, the first sliding bottom plate is horizontally welded on the top of the table plate, and two first sliding rails are welded on the top of the first sliding bottom plate, the cross sections of the two first sliding rails are of I-shaped structures, a plurality of first sliding blocks are welded at the bottom end of each first sliding plate and are respectively in sliding fit with the two first sliding rails, the first sliding plates are in sliding fit with the tops of first sliding bottom plates through the first sliding blocks, first hydraulic cylinders are horizontally fixed at the tops of the first sliding bottom plates, first hydraulic rods are arranged at one ends of the first hydraulic cylinders, one ends of the first hydraulic rods, far away from the first hydraulic cylinders, are connected with the first sliding plates, lifting assemblies are fixed at the tops of the first sliding plates, and the positions of glue dispensing guns can be moved left and right by driving through the first hydraulic cylinders;

the lifting assembly comprises fixed legs, a second sliding bottom plate and a second sliding plate, the two fixed legs are welded and fixed on the top of the first sliding plate, the second sliding bottom plate is vertically welded on one side of the two fixed legs and is of an inverted L-shaped structure, two second sliding rails are vertically welded on one side, away from the fixed frame, of the second sliding bottom plate, the cross sections of the two second sliding rails are of an I-shaped structure, a plurality of second sliding blocks are welded on one side of the second sliding plate and are respectively in sliding fit with the two second sliding rails, the second sliding plate is in sliding fit with the second sliding bottom plate through the second sliding blocks, a second hydraulic cylinder is vertically installed on the top of the second sliding bottom plate, a second hydraulic rod is arranged at the bottom end of the second hydraulic cylinder, and one end, away from the second hydraulic cylinder, of the second hydraulic rod is connected with the second sliding plate, two dispensing guns are mounted on one side, away from the second sliding block, of the second sliding plate, the second hydraulic cylinder is used for driving, so that the height of each dispensing gun can be adjusted, the distance between each dispensing gun and each LED nixie tube can be adjusted, the LED nixie tube packaging dispensing curing equipment can dispense LED nixie tubes of different sizes, the using range of the LED nixie tube packaging dispensing curing equipment is expanded, and the dispensing strength of the LED nixie tube packaging dispensing curing equipment can be controlled by adjusting the height of each dispensing gun;

the third sliding bottom plate is horizontally welded at the top of the base station, two third sliding rails are welded at the top of the third sliding bottom plate, the cross sections of the two third sliding rails are in an I-shaped structure, a third hydraulic cylinder is horizontally fixed at one end of the top of the third sliding bottom plate, a third hydraulic rod is arranged at one end of the third hydraulic cylinder, one end of the third hydraulic rod, which is far away from the third hydraulic cylinder, is connected with a third sliding plate, the third hydraulic cylinder is used for driving, so that the dispensing and curing equipment for packaging the LED nixie tube can automatically feed materials, thereby reducing the working strength of operators and ensuring that the equipment is more automatic, the use efficiency of the dispensing curing equipment for packaging the LED nixie tube is further improved, and meanwhile, the third hydraulic cylinder drives the dispensing curing equipment to enable the position of the LED nixie tube to be adjustable, so that dispensing of the equipment is more accurate;

the bottom of the third sliding plate is welded with a plurality of third sliding blocks which are respectively in sliding fit with the two third sliding rails, the third sliding plate is in sliding fit with the third sliding rails through the third sliding blocks, the third sliding blocks are in sliding fit with the third sliding rails, so that the LED nixie tubes are conveyed more stably and smoothly by the equipment, the use efficiency of the equipment is further improved, meanwhile, the LED nixie tubes on the bracket are conveyed more stably and smoothly, the position of the LED nixie tubes on the bracket is adjusted more sensitively, the use precision of the dispensing and curing equipment for packaging the LED nixie tubes is further improved, one side of the third sliding plate is vertically welded with two fourth sliding rails, the cross sections of the two fourth sliding rails are both in an I-shaped structure, and a fourth hydraulic cylinder is vertically fixed at the bottom end of the third sliding plate, which is close to one side of the fourth sliding rails, the top of fourth pneumatic cylinder is equipped with the fourth hydraulic stem, the one end that the fourth pneumatic cylinder was kept away from to the fourth hydraulic stem is connected with the fourth slide, the welding of one side that the fourth slide is close to the third slide has a plurality of fourth slider, a plurality of fourth slider sliding fit respectively is on two fourth slide rails, drives through using the fourth pneumatic cylinder, makes the high ability free adjustment of the LED charactron on the bracket.

Preferably, base station bottom four corners all is equipped with supporting legs and gyro wheel, and four supporting legs all pass through screw-thread fit in the bottom of base station, and the bottom of four supporting legs all bonds and have the plastic pad, through setting up the gyro wheel, facilitates for the removal and the transportation of this equipment to improve the convenience that this equipment used, support this equipment through the supporting legs, through bonding the plastic pad in the bottom of supporting legs, make the frictional force increase between supporting legs and the ground.

Preferably, the platen is the level setting, and the bottom welding of platen has two support columns, and the bottom of two support columns welds with the top of base station, and the platen is fixed at the top of base station through two support columns, supports the platen through the support column.

Preferably, the bottom of the first sliding blocks is provided with a first sliding chute, the section of the first sliding chute is matched with the section of the first sliding rail in size, the first sliding blocks are in sliding fit with the first sliding rail through the first sliding chutes, and the first sliding blocks are not easy to separate from the first sliding rail by arranging the first sliding chutes.

Preferably, a second sliding groove is formed in one side, close to the second sliding bottom plate, of the plurality of second sliding blocks, the size of the cross section of the second sliding groove is matched with the size of the cross section of the second sliding rail, and the second sliding blocks are in sliding fit with the second sliding rail through the second sliding grooves.

Preferably, a third sliding groove is formed in one side, close to the third sliding bottom plate, of each of the third sliding blocks, the section of each third sliding groove is matched with the section of each third sliding rail in size, the third sliding blocks are in sliding fit with the third sliding rails through the third sliding grooves, and the second sliding rails are not prone to being separated from the second sliding rails through the second sliding grooves.

Preferably, a fourth sliding groove is formed in one side, close to the third sliding plate, of each of the plurality of fourth sliding blocks, the cross section of the fourth sliding groove is matched with the cross section of the fourth sliding rail in size, the fourth sliding blocks are in sliding fit with the fourth sliding rail through the fourth sliding grooves, and the fourth sliding blocks are not prone to being separated from the fourth sliding rail through the fourth sliding grooves, so that the use reliability of the equipment is further improved.

Preferably, the top of the base station is provided with a first slot, one end of the fourth hydraulic cylinder, which is far away from the fourth hydraulic rod, is in sliding fit in the first slot, and convenience is brought to the left and right movement of the first hydraulic cylinder by the arrangement of the first slot.

Preferably, the cross section of the fourth sliding plate is of a U-shaped structure, the two brackets are welded to the two sides of the fourth sliding plate respectively, U-shaped clamping grooves are formed in the tops of the two brackets, and the tops of the two brackets are in sliding fit in the second groove holes.

Preferably, the working method of the device specifically comprises the following steps:

the method comprises the following steps: placing the LED nixie tube on the bracket, driving the third hydraulic rod to move through a third hydraulic cylinder, driving a third sliding plate through the third hydraulic rod, enabling the third sliding plate to move left and right, and sending the LED nixie tube on the bracket to be right below the dispensing gun through moving the third sliding plate left and right;

step two: the fourth hydraulic rod is driven by a fourth hydraulic cylinder to move, the fourth hydraulic rod drives a fourth sliding plate to move the fourth sliding plate up and down, the height of the LED nixie tube on the bracket is adjusted by moving the fourth sliding plate up and down, and the LED nixie tube on the bracket is sent to a designated height;

step three: the glue dispensing gun comprises a first hydraulic cylinder, a first sliding plate, a second hydraulic cylinder, a glue dispensing gun body, a second sliding plate, a first glue dispensing gun body, a second hydraulic cylinder, a second sliding plate, a glue dispensing gun body and a glue dispensing gun body.

The invention has the beneficial effects that:

(1) the invention relates to a dispensing and curing device for packaging an LED nixie tube and a working method thereof, wherein the dispensing and curing device for packaging the LED nixie tube can automatically feed materials by using a third hydraulic cylinder for driving, so that the working strength of an operator is reduced, the device is more automatic, the use efficiency of the dispensing and curing device for packaging the LED nixie tube is improved, meanwhile, the third hydraulic cylinder is used for driving, so that the position of the LED nixie tube can be adjusted, the dispensing of the device is more accurate, the use accuracy of the dispensing and curing device for packaging the LED nixie tube is improved, a third slide block is matched on a third slide rail in a sliding manner, so that the device can convey the LED nixie tube more stably and smoothly, the use efficiency of the device is further improved, and meanwhile, the LED nixie tube is conveyed more stably and smoothly, the position of the LED nixie tube on the bracket is adjusted more sensitively, so that the use precision of the dispensing curing equipment for packaging the LED nixie tube is further improved.

(2) The invention relates to a dispensing and curing device for packaging an LED nixie tube and a working method thereof, wherein the height of the LED nixie tube on a bracket can be freely adjusted by using a fourth hydraulic cylinder for driving, so that the use flexibility of the dispensing and curing device for packaging the LED nixie tube is improved, the LED nixie tube is positioned in a second slotted hole by adjusting the height of the LED nixie tube on the bracket, the alignment and calibration operation of the device is facilitated by arranging the second slotted hole, so that the use convenience of the device is improved, meanwhile, the LED nixie tube is restrained and fixed by the second slotted hole, so that the LED nixie tube cannot move left and right in the dispensing process, the dispensing operation of the device is facilitated, the dispensing stability of the device is improved, the use reliability of the dispensing and curing device for packaging the LED nixie tube is improved, and the baffle bars are arranged at two sides of the second slotted hole, the glue dispensing and curing equipment has the advantages that dust and air can be effectively blocked, and the interference of external factors on glue curing is reduced, so that the glue dispensing quality of the glue dispensing and curing equipment for packaging the LED nixie tube is improved.

(3) According to the dispensing and curing equipment for packaging the LED nixie tube and the working method thereof, the first hydraulic cylinder is used for driving, so that the position of the dispensing gun can move left and right, the use flexibility of the dispensing and curing equipment for packaging the LED nixie tube is further improved, the second hydraulic cylinder is used for driving, the height of the dispensing gun can be adjusted, the distance between the dispensing gun and the LED nixie tube can be adjusted, the dispensing and curing equipment for packaging the LED nixie tube can dispense LED nixie tubes with different sizes and models, the use range of the dispensing and curing equipment for packaging the LED nixie tube is further improved, the dispensing strength of the dispensing and curing equipment for packaging the LED nixie tube can be controlled by adjusting the height of the dispensing gun, and the quality of products processed by the equipment on the LED nixie tube is further improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a schematic view of the structure of the operation table of the present invention.

Fig. 3 is a schematic view of the structure of the inventive bedplate.

Fig. 4 is a schematic structural view of a first hydraulic cylinder according to the present invention.

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

FIG. 6 is a schematic view of a second slide plate according to the present invention.

FIG. 7 is a schematic diagram of a second hydraulic cylinder according to the present invention.

Fig. 8 is a schematic structural view of a third hydraulic cylinder of the present invention.

Fig. 9 is a schematic view of a third slide plate according to the present invention.

Fig. 10 is a schematic view of a fourth slide plate according to the present invention.

In the figure: 1. a base station; 101. supporting legs; 102. a roller; 103. a first slot; 2. an operation table; 201. a platen; 202. a second slot; 203. blocking strips; 204. a first sliding bottom plate; 205. a first slide rail; 206. a first hydraulic cylinder; 207. a first hydraulic lever; 208. a first slide plate; 209. a first slider; 3. a lifting assembly; 301. a fixing leg; 302. a second sliding bottom plate; 303. a second slide rail; 304. a second hydraulic cylinder; 305. a second hydraulic rod; 306. a second slide plate; 307. a second slider; 4. dispensing a glue gun; 5. a third sliding bottom plate; 6. a third slide rail; 7. a third hydraulic cylinder; 701. a third hydraulic lever; 8. a third slide plate; 801. a third slider; 802. a fourth slide rail; 9. a fourth hydraulic cylinder; 901. a fourth hydraulic lever; 10. a fourth slide plate; 11. a fourth slider; 12. a bracket.

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.

As shown in fig. 1-10, the dispensing and curing device for packaging an LED nixie tube according to the present invention includes a base 1, an operation table 2, a lifting assembly 3, a third sliding bottom plate 5, and a third sliding plate 8, wherein the operation table 2 and the third sliding bottom plate 5 are respectively welded and fixed at the center of the top of the base 1, the lifting assembly 3 is disposed on the operation table 2, a dispensing gun 4 is installed at one side of the lifting assembly 3, the third sliding bottom plate 5 is located right below the operation table 2, the third sliding bottom plate 5 is slidably fitted with the third sliding plate 8, a fourth sliding plate 10 is slidably fitted at one side of the third sliding plate 8, and two brackets 12 are disposed on the fourth sliding plate 10;

the operation table 2 comprises a table plate 201, a first sliding bottom plate 204 and a first sliding plate 208, wherein a second slot 202 is formed in the top of the table plate 201, the second slot 202 is formed to facilitate alignment and calibration of the equipment, so that the use convenience of the equipment is improved, meanwhile, the LED nixie tube is restrained and fixed through the second slot 202, so that the LED nixie tube cannot move left and right in the dispensing process, the dispensing operation of the equipment is facilitated, the dispensing stability of the equipment is improved, the use reliability of the dispensing and curing equipment for packaging the LED nixie tube is improved, two barrier strips 203 are horizontally welded on the top of the table plate 201, the two barrier strips 203 are respectively positioned on two sides of the second slot 202, the barrier strips 203 are arranged on two sides of the second slot 202, dust and air can be effectively blocked, the interference of external factors on glue curing is reduced, and the dispensing and curing quality of the dispensing and curing equipment for packaging the LED nixie tube is improved, a first sliding bottom plate 204 is horizontally welded at the top of the bedplate 201, two first sliding rails 205 are welded at the top of the first sliding bottom plate 204, the cross sections of the two first sliding rails 205 are both in an I-shaped structure, a plurality of first sliding blocks 209 are welded at the bottom end of the first sliding plate 208, the plurality of first sliding blocks 209 are respectively in sliding fit with the two first sliding rails 205, the first sliding plate 208 is in sliding fit with the top of the first sliding bottom plate 204 through the first sliding blocks 209, a first hydraulic cylinder 206 is horizontally fixed at the top of the first sliding bottom plate 204, a first hydraulic rod 207 is arranged at one end of the first hydraulic cylinder 206, one end of the first hydraulic rod 207, which is far away from the first hydraulic cylinder 206, is connected with the first sliding plate 208, and the lifting assembly 3 is fixed at the top of the first sliding plate 208, the position of the glue dispensing gun 4 can be moved left and right by driving the first hydraulic cylinder 206, further, the flexibility of the dispensing curing equipment for packaging the LED nixie tube is improved;

the lifting component 3 comprises fixed feet 301, a second sliding bottom plate 302 and a second sliding plate 306, the two fixed feet 301 are welded and fixed on the top of the first sliding plate 208, the second sliding bottom plate 302 is vertically welded on one side of the two fixed feet 301, the second sliding bottom plate 302 is in an inverted L-shaped structure, the second sliding bottom plate 302 is vertically welded on one side away from the fixed frame 301 with two second sliding rails 303, the cross sections of the two second sliding rails 303 are in an I-shaped structure, one side of the second sliding plate 306 is welded with a plurality of second sliding blocks 307, the plurality of second sliding blocks 307 are respectively in sliding fit on the two second sliding rails 303, the second sliding plate 306 is in sliding fit on the second sliding bottom plate 302 through the second sliding blocks 307, a second hydraulic cylinder 304 is vertically installed on the top of the second sliding bottom plate 302, a second hydraulic rod 305 is arranged at the bottom end of the second hydraulic cylinder 304, one end of the second hydraulic rod 305 away from the second hydraulic cylinder 304 is connected with the second sliding plate 306, two dispensing guns 4 are mounted on one side, away from the second sliding block 307, of the second sliding plate 306, and are driven by using the second hydraulic cylinder 304, so that the heights of the dispensing guns 4 can be adjusted, further, the distances between the dispensing guns 4 and the LED nixie tubes can be adjusted, and therefore, the dispensing curing equipment for packaging the LED nixie tubes can dispense the LED nixie tubes with different sizes and models, the use range of the dispensing curing equipment for packaging the LED nixie tubes is enlarged, the dispensing strength of the dispensing curing equipment for packaging the LED nixie tubes can be controlled by adjusting the heights of the dispensing guns 4, and the quality of products processed by the equipment on the LED nixie tubes is further improved;

a third sliding bottom plate 5 is horizontally welded on the top of the base platform 1, two third sliding rails 6 are welded on the top of the third sliding bottom plate 5, the cross sections of the two third sliding rails 6 are in an I-shaped structure, a third hydraulic cylinder 7 is horizontally fixed at one end of the top of the third sliding bottom plate 5, a third hydraulic rod 701 is arranged at one end of the third hydraulic cylinder 7, one end of the third hydraulic rod 701, which is far away from the third hydraulic cylinder 7, is connected with a third sliding plate 8, the third hydraulic cylinder 7 is used for driving, so that the dispensing and curing equipment for packaging the LED nixie tube can automatically perform feeding, the working strength of operators is reduced, the equipment is more automatic, the use efficiency of the dispensing and curing equipment for packaging the LED nixie tube is improved, meanwhile, the third hydraulic cylinder 7 is used for driving, the position of the LED nixie tube can be adjusted, and the dispensing of the equipment is more accurate, therefore, the use accuracy of the dispensing curing equipment for packaging the LED nixie tube is improved;

the bottom of the third sliding plate 8 is welded with a plurality of third sliding blocks 801, the plurality of third sliding blocks 801 are respectively in sliding fit with the two third sliding rails 6, the third sliding plate 8 is in sliding fit with the third sliding rails 6 through the third sliding blocks 801, the third sliding blocks 801 are in sliding fit with the third sliding rails 6, so that the LED nixie tubes are conveyed more smoothly by the equipment, the use efficiency of the equipment is further improved, meanwhile, the LED nixie tubes are conveyed more smoothly, the position of the LED nixie tubes on the bracket 12 is adjusted more sensitively, the use precision of the dispensing curing equipment for packaging the LED nixie tubes is further improved, one side of the third sliding plate 8 is vertically welded with two fourth sliding rails 802, the cross sections of the two fourth sliding rails 802 are both in an I-shaped structure, and the bottom end of the third sliding plate 8, which is close to the side of the fourth sliding rails 802, is vertically fixed with a fourth hydraulic cylinder 9, the top of fourth pneumatic cylinder 9 is equipped with fourth hydraulic stem 901, the one end that fourth pneumatic cylinder 9 was kept away from to fourth hydraulic stem 901 is connected with fourth slide 10, one side welding that fourth slide 10 is close to third slide 8 has a plurality of fourth slider 11, a plurality of fourth slider 11 sliding fit respectively is on two fourth slide rails 802, drive through using fourth pneumatic cylinder 9, the high ability of the LED charactron on messenger's bracket 12 freely adjusts, thereby the flexibility that this LED charactron encapsulation used with some glue curing apparatus has been improved.

1 bottom four corners of base station all is equipped with supporting legs 101 and gyro wheel 102, four supporting legs 101 are all in the bottom of base station 1 through screw-thread fit, and the bottom of four supporting legs 101 all bonds and has the plastic pad, through setting up gyro wheel 102, facilitate for the removal and the transportation of this equipment, thereby improve the convenience that this equipment used, support this equipment through supporting legs 101, through bonding the plastic pad in the bottom of supporting legs 101, make the frictional force increase between supporting legs 101 and the ground, thereby improve the stability when this equipment uses.

Platen 201 is the level setting, and the bottom welding of platen 201 has two support columns, and the bottom of two support columns welds with the top of base station 1, and platen 201 is fixed at the top of base station 1 through two support columns, supports platen 201 through the support column.

First spout has all been seted up to the bottom of a plurality of first slider 209, and the size of first spout cross-section and the size looks adaptation of first slide rail 205 cross-section, and first slider 209 is on first slide rail 205 through first spout sliding fit, through seting up first spout, makes first slider 209 be difficult for first slide rail 205 to break away from to further improve the reliability that this equipment used.

A second sliding groove is formed in one side, close to the second sliding bottom plate 302, of each of the second sliding blocks 307, the size of the cross section of the second sliding groove is matched with the size of the cross section of the second sliding rail 303, and the second sliding blocks 307 are in sliding fit with the second sliding rail 303 through the second sliding grooves.

A third sliding groove is formed in one side, close to the third sliding bottom plate 5, of each of the third sliding blocks 801, the section of each third sliding groove is matched with the section of each third sliding rail 6 in size, the third sliding blocks 801 are in sliding fit with the third sliding rails 6 through the third sliding grooves, and the second sliding grooves are formed, so that the second sliding blocks 307 are not prone to being separated from the second sliding rails 6, and the use reliability of the device is further improved.

A fourth sliding groove is formed in one side, close to the third sliding plate 8, of each of the fourth sliding blocks 11, the cross section of each fourth sliding groove is matched with the cross section of the corresponding fourth sliding rail 802 in size, the fourth sliding blocks 11 are in sliding fit with the fourth sliding rails 802 through the fourth sliding grooves, and the fourth sliding blocks 11 are not prone to being separated from the fourth sliding rails 802 through the fourth sliding grooves, so that the use reliability of the device is further improved.

The top of the base platform 1 is provided with a first slot 103, one end of the fourth hydraulic cylinder 9 far away from the fourth hydraulic rod 901 is in sliding fit in the first slot 103, and the first slot 103 is formed to facilitate the left and right movement of the first hydraulic cylinder 9.

The cross section of the fourth sliding plate 10 is of a U-shaped structure, the two brackets 12 are respectively welded on two sides of the fourth sliding plate 10, U-shaped clamping grooves are formed in the tops of the two brackets 12, and the tops of the two brackets 12 are in sliding fit in the second slotted holes 202.

The working method of the equipment specifically comprises the following steps:

the method comprises the following steps: placing the LED nixie tube on the bracket 12, driving the third hydraulic rod 701 to move through the third hydraulic cylinder 7, driving the third sliding plate 8 through the third hydraulic rod 701, enabling the third sliding plate 8 to move left and right, and sending the LED nixie tube on the bracket 12 to be right below the dispensing gun 4 through the left and right movement of the third sliding plate 8;

step two: the fourth hydraulic rod 901 is driven by the fourth hydraulic cylinder 9 to move, the fourth hydraulic rod 901 drives the fourth sliding plate 10 to move the fourth sliding plate 10 up and down, the height of the LED nixie tube on the bracket 12 is adjusted by moving the fourth sliding plate 10 up and down, and the LED nixie tube on the bracket 12 is sent to a designated height;

step three: the first hydraulic rod 207 is driven by the first hydraulic cylinder 206 to move, the first hydraulic rod 207 drives the first sliding plate 208, the first sliding plate 208 is driven to move left and right, the position of the dispensing gun 4 is adjusted left and right by moving the first sliding plate 208 left and right, the dispensing gun 4 is moved to a position right above a dispensing position required by the LED nixie tube, the dispensing gun 4 is driven by the second hydraulic cylinder 304 to move the second hydraulic rod 305, the second hydraulic rod 305 drives the second sliding plate 306 to move the second sliding plate 306 up and down, the height of the dispensing gun 4 is adjusted by moving the second sliding plate 306 up and down, the dispensing gun 4 is moved downwards, and the dispensing gun 4 is used for dispensing the LED nixie tube.

When in use, firstly, the LED nixie tube is placed on the bracket 12, the third hydraulic rod 701 is driven by the third hydraulic cylinder 7 to move, the third hydraulic rod 701 drives the third sliding plate 8 to enable the third sliding plate 8 to move left and right, the LED nixie tube on the bracket 12 is sent to the position under the glue dispensing gun 4 by moving the third sliding plate 8 left and right, the third hydraulic cylinder 7 is used for driving, the glue dispensing curing equipment for packaging the LED nixie tube can automatically perform feeding, so that the working strength of an operator is reduced, the equipment is more automatic, the use efficiency of the glue dispensing curing equipment for packaging the LED nixie tube is improved, meanwhile, the third hydraulic cylinder 7 is used for driving, the position of the LED nixie tube can be adjusted, the glue dispensing of the equipment is more accurate, the use accuracy of the glue dispensing curing equipment for packaging the LED nixie tube is improved, and the third sliding block 801 is matched on the third sliding rail 6, the equipment can convey the LED nixie tube more smoothly, so that the use efficiency of the equipment is further improved, meanwhile, the LED nixie tube is conveyed more smoothly, the position of the LED nixie tube on the bracket 12 is more sensitively adjusted, so that the use precision of the dispensing and curing equipment for packaging the LED nixie tube is further improved, then, the fourth hydraulic cylinder 9 is used for driving to move the fourth hydraulic rod 901, the fourth hydraulic rod 901 drives the fourth sliding plate 10, the fourth sliding plate 10 is driven to move up and down, the height of the LED nixie tube on the bracket 12 is adjusted by moving up and down the fourth sliding plate 10, the LED nixie tube on the bracket 12 is sent to a designated height, the fourth hydraulic cylinder 9 is used for driving, so that the height of the LED nixie tube on the bracket 12 can be freely adjusted, and the use flexibility of the dispensing and curing equipment for packaging the LED nixie tube is improved, the height of the LED nixie tube on the bracket 12 is adjusted to enable the LED nixie tube to be positioned in the second slotted hole 202, the second slotted hole 202 is arranged to facilitate the alignment and calibration operation of the equipment, thereby improving the use convenience of the equipment, meanwhile, the LED nixie tube is restrained and fixed through the second slotted hole 202 to prevent the LED nixie tube from moving left and right in the dispensing process, thereby facilitating the dispensing operation of the equipment, improving the dispensing stability of the equipment and further improving the use reliability of the dispensing and curing equipment for packaging the LED nixie tube, the barrier strips 203 are arranged at two sides of the second slotted hole 202 to effectively block dust and air blowing, reduce the interference of external factors on the curing of colloid, thereby improving the dispensing quality of the dispensing and curing equipment for packaging the LED nixie tube, and finally, the first hydraulic rod 207 is driven by the first hydraulic cylinder 206 to move, the first hydraulic rod 207 drives the first sliding plate 208 to enable the first sliding plate 208 to move left and right, the position of the dispensing gun 4 is adjusted left and right by moving the first sliding plate 208 left and right, the dispensing gun 4 is moved right above the dispensing position required by the LED nixie tube, the second hydraulic rod 305 is driven by the second hydraulic cylinder 304 to enable the second hydraulic rod 305 to drive the second sliding plate 306 to enable the second sliding plate 306 to move up and down, the height of the dispensing gun 4 is adjusted by moving the second sliding plate 306 up and down, the dispensing gun 4 is moved down to dispense the LED nixie tube by the dispensing gun 4, the position of the dispensing gun 4 can move left and right by driving the first hydraulic cylinder 206, the flexibility of the dispensing curing equipment for packaging the LED nixie tube is further improved, the height of the dispensing gun 4 can be adjusted by driving the second hydraulic cylinder 304, and then make the distance of the glue rifle 4 and LED charactron adjustable, thus make this LED charactron capsulate with the glue solidification equipment can carry out the glue to the LED charactron of different size models and glue, thus has improved the scope that this LED charactron capsulates with the glue solidification equipment use, through the height of adjusting the glue rifle 4, can control this LED charactron encapsulates with the glue intensity of gluing solidification equipment, thus further improve the quality of this equipment to LED charactron processing products.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a LED charactron encapsulation is with some solidification equipment that glues, includes base station (1), operation panel (2), lifting unit (3), third sliding bottom plate (5), third slide (8), its characterized in that: an operating table (2) and a third sliding bottom plate (5) are respectively welded and fixed at the center of the top of the base table (1), a lifting assembly (3) is arranged on the operating table (2), a glue dispensing gun (4) is installed on one side of the lifting assembly (3), the third sliding bottom plate (5) is located right below the operating table (2), a third sliding plate (8) is slidably matched on the third sliding bottom plate (5), a fourth sliding plate (10) is slidably matched on one side of the third sliding plate (8), and two brackets (12) are arranged on the fourth sliding plate (10);

the operating table (2) comprises a table plate (201), a first sliding bottom plate (204) and a first sliding plate (208), a second slotted hole (202) is formed in the top of the table plate (201), two barrier strips (203) are horizontally welded to the top of the table plate (201), the two barrier strips (203) are respectively located on two sides of the second slotted hole (202), the first sliding bottom plate (204) is horizontally welded to the top of the table plate (201), two first sliding rails (205) are welded to the top of the first sliding bottom plate (204), the cross sections of the two first sliding rails (205) are of an I-shaped structure, a plurality of first sliding blocks (209) are welded to the bottom end of the first sliding plate (208), the first sliding blocks (209) are respectively in sliding fit with the two first sliding rails (205), the first sliding plate (208) is in sliding fit with the top of the first sliding bottom plate (204) through the first sliding blocks (209), a first hydraulic cylinder (206) is horizontally fixed at the top of the first sliding bottom plate (204), a first hydraulic rod (207) is arranged at one end of the first hydraulic cylinder (206), one end, far away from the first hydraulic cylinder (206), of the first hydraulic rod (207) is connected with a first sliding plate (208), and the lifting assembly (3) is fixed at the top of the first sliding plate (208);

the lifting assembly (3) comprises fixed feet (301), a second sliding bottom plate (302) and a second sliding plate (306), the two fixed feet (301) are welded and fixed at the top of the first sliding plate (208), the second sliding bottom plate (302) is vertically welded at one side of the two fixed feet (301), the second sliding bottom plate (302) is of an inverted L-shaped structure, two second sliding rails (303) are vertically welded at one side, far away from the fixed frame (301), of the second sliding bottom plate (302), the cross sections of the two second sliding rails (303) are of I-shaped structures, a plurality of second sliding blocks (307) are welded at one side of the second sliding plate (306), the plurality of second sliding blocks (307) are respectively in sliding fit on the two second sliding rails (303), and the second sliding plate (306) is in sliding fit on the second sliding bottom plate (302) through the second sliding blocks (307), a second hydraulic cylinder (304) is vertically installed at the top of the second sliding bottom plate (302), a second hydraulic rod (305) is arranged at the bottom end of the second hydraulic cylinder (304), one end, far away from the second hydraulic cylinder (304), of the second hydraulic rod (305) is connected with a second sliding plate (306), and two point glue guns (4) are installed on one side, far away from the second sliding block (307), of the second sliding plate (306);

the third sliding bottom plate (5) is horizontally welded to the top of the base platform (1), two third sliding rails (6) are welded to the top of the third sliding bottom plate (5), the cross sections of the two third sliding rails (6) are of an I-shaped structure, a third hydraulic cylinder (7) is horizontally fixed to one end of the top of the third sliding bottom plate (5), a third hydraulic rod (701) is arranged at one end of the third hydraulic cylinder (7), and one end, far away from the third hydraulic cylinder (7), of the third hydraulic rod (701) is connected with a third sliding plate (8);

the bottom of the third sliding plate (8) is welded with a plurality of third sliding blocks (801), the plurality of third sliding blocks (801) are respectively in sliding fit with the two third sliding rails (6), the third sliding plate (8) is in sliding fit with the third sliding rails (6) through the third sliding blocks (801), one side of the third sliding plate (8) is vertically welded with two fourth sliding rails (802), the cross sections of the two fourth sliding rails (802) are in an I-shaped structure, a fourth hydraulic cylinder (9) is vertically fixed at the bottom end of one side, close to the fourth sliding rails (802), of the third sliding plate (8), a fourth hydraulic rod (901) is arranged at the top of the fourth hydraulic cylinder (9), one end, far away from the fourth hydraulic cylinder (9), of the fourth hydraulic rod (901) is connected with the fourth sliding plate (10), one side, close to the third sliding plate (8), of the fourth sliding plate (10) is welded with a plurality of fourth sliding blocks (11), the fourth sliding blocks (11) are respectively matched on the two fourth sliding rails (802) in a sliding manner.

2. The dispensing and curing device for packaging an LED nixie tube as claimed in claim 1, wherein: supporting legs (101) and rollers (102) are arranged at four corners of the bottom of the base platform (1), the four supporting legs (101) are matched with the bottom of the base platform (1) through threads, and plastic pads are bonded to the bottoms of the four supporting legs (101).

3. The dispensing and curing device for packaging an LED nixie tube as claimed in claim 1, wherein: bedplate (201) are the level setting, and the bottom welding of bedplate (201) has two support columns, and the bottom of two support columns welds with the top of base station (1), and bedplate (201) are fixed at the top of base station (1) through two support columns.

4. The dispensing and curing device for packaging an LED nixie tube as claimed in claim 1, wherein: first spout has all been seted up to the bottom of a plurality of first slider (209), and the size of first spout cross-section and the size looks adaptation of first slide rail (205) cross-section, first slider (209) are through first spout sliding fit on first slide rail (205).

5. The dispensing and curing device for packaging an LED nixie tube as claimed in claim 1, wherein: a second sliding groove is formed in one side, close to the second sliding bottom plate (302), of the second sliding blocks (307), the cross section of the second sliding groove is matched with the cross section of the second sliding rail (303), and the second sliding blocks (307) are in sliding fit with the second sliding rail (303) through the second sliding groove.

6. The dispensing and curing device for packaging an LED nixie tube as claimed in claim 1, wherein: a third sliding groove is formed in one side, close to the third sliding bottom plate (5), of the third sliding blocks (801), the size of the section of the third sliding groove is matched with the size of the section of the third sliding rail (6), and the third sliding blocks (801) are in sliding fit on the third sliding rail (6) through the third sliding groove.

7. The dispensing and curing device for packaging an LED nixie tube as claimed in claim 1, wherein: a fourth sliding groove is formed in one side, close to the third sliding plate (8), of the fourth sliding blocks (11), the size of the cross section of the fourth sliding groove is matched with the size of the cross section of the fourth sliding rail (802), and the fourth sliding blocks (11) are in sliding fit with the fourth sliding rail (802) through the fourth sliding groove.

8. The dispensing and curing device for packaging an LED nixie tube as claimed in claim 1, wherein: a first slotted hole (103) is formed in the top of the base platform (1), and one end, far away from the fourth hydraulic rod (901), of the fourth hydraulic cylinder (9) is in sliding fit in the first slotted hole (103).

9. The dispensing and curing device for packaging an LED nixie tube as claimed in claim 1, wherein: the cross section of the fourth sliding plate (10) is of a U-shaped structure, the two brackets (12) are welded on two sides of the fourth sliding plate (10) respectively, U-shaped clamping grooves are formed in the tops of the two brackets (12), and the tops of the two brackets (12) are in sliding fit in the second slotted holes (202).

10. The dispensing and curing apparatus for packaging an LED nixie tube according to any one of claims 1 to 9, wherein: the working method of the equipment specifically comprises the following steps:

the method comprises the following steps: the LED nixie tube is placed on a bracket (12) and is driven by a third hydraulic cylinder (7) to enable a third hydraulic rod (701) to move, the third hydraulic rod (701) drives a third sliding plate (8) to enable the third sliding plate (8) to move left and right, and the LED nixie tube on the bracket (12) is conveyed to the position right below a dispensing gun (4) by moving the third sliding plate (8) left and right;

step two: the fourth hydraulic rod (901) is driven to move by the fourth hydraulic cylinder (9), the fourth hydraulic rod (901) drives the fourth sliding plate (10) to enable the fourth sliding plate (10) to move up and down, the height of the LED nixie tube on the bracket (12) is adjusted by moving the fourth sliding plate (10) up and down, and the LED nixie tube on the bracket (12) is sent to a specified height;

step three: the LED digital tube glue dispensing device is driven by a first hydraulic cylinder (206), so that the first hydraulic rod (207) moves, the first hydraulic rod (207) drives a first sliding plate (208), the first sliding plate (208) is made to move left and right, the position of the glue dispensing gun (4) is adjusted left and right, the glue dispensing gun (4) is moved right above the position, needing glue dispensing, of the LED digital tube, the glue dispensing device is driven by a second hydraulic cylinder (304), the second hydraulic rod (305) moves, the second hydraulic rod (305) drives a second sliding plate (306), the second sliding plate (306) moves up and down, the height of the glue dispensing gun (4) is adjusted through the position, the glue dispensing gun (4) moves down, and glue dispensing is conducted on the LED digital tube through the glue dispensing gun (4).

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