CN207108795U - Recovery smelting furnace for base plate glass - Google Patents

Abstract

The utility model discloses a kind of recovery smelting furnace for base plate glass, the recovery smelting furnace for base plate glass includes：Body of heater, the side wall of the body of heater are provided with heating arrangements and the first discharge port for discharging glass defect, and the bottom of the body of heater is provided with the second floss hole for being used for discharging precious metal；And bell, the bell cover the top of the body of heater, the bell is provided with exhaust outlet and air-flow input port.Preliminary purification effectively can be carried out to the precious metal in glass defect according to the recovery smelting furnace for base plate glass of the utility model embodiment.

Description

Recovery smelting furnace for base plate glass

Technical field

Base plate glass field is the utility model is related to, in particular it relates to the recovery smelting furnace for base plate glass.

Background technology

Base plate glass in process of production, or produces the defects of various, such as bubble, tin point, calculus, field trash Deng.These defects can all influence the presentation quality of base plate glass, influence the following process and quality of base plate glass.

Therefore, it is necessary to include defect (knot to it before these defective base plate glass of tool are entered into recycling link Stone, metal, foreign matter impuritiess etc.) operation is removed, to cause the manufacturing process of base plate glass to enter benign cycle, from And make it that product defects rate is more and more lower.But for part the defects of containing noble metal of base plate glass, currently without for Reclaim the device of the noble metal in the defect part.

Utility model content

The problem of the purpose of this utility model is to overcome prior art to exist, there is provided the recovery for base plate glass is melted Stove, the recovery smelting furnace can effectively reclaim the precious metal in glass defect.

To achieve these goals, the utility model provides a kind of recovery smelting furnace for base plate glass, described to be used for base The recovery smelting furnace of glass sheet includes：Body of heater, the side wall of the body of heater be provided with heating arrangements and for discharging glass defect the One floss hole, the bottom of the body of heater are provided with the second floss hole for being used for discharging precious metal；And bell, the bell cover institute The top of body of heater is stated, the bell is provided with exhaust outlet and air-flow input port.

According to the recovery smelting furnace of the present utility model for base plate glass by setting air-flow input port on bell, so as to Gas can be conveyed into body of heater by air-flow input port, so as to the glass defect liquid in the gas stirring body of heater.Due to glass Centrifugal force it is different from the centrifugal force of precious metal, therefore glass defect liquid can from the side wall of body of heater first discharge Mouth discharge, precious metal can sink downwards to the bottom of body of heater, and the glass defect liquid rich in precious metal can be from positioned at stove The second floss hole discharge of the bottom of body, it is possible thereby to realize the preliminary purification of precious metal.

Therefore, can be effectively to expensive in glass defect according to the recovery smelting furnace of the present utility model for base plate glass Heavy metal carries out preliminary purification.

Preferably, the body of heater is infundibulate, and the agitation chamber including upper end and the collecting chamber of lower end.

Preferably, the first discharge port is arranged in the side wall of the agitation chamber, and is covered by the first blanking cover, described Second floss hole is arranged on the bottom of the collecting chamber, and is covered by the second blanking cover.

Preferably, the recovery smelting furnace includes being used for support first blanking cover first supporting and for supporting described the Second support of two blanking covers.

Preferably, on the supporting surface of first support formed with the first groove for accommodating first blanking cover, described the Formed with the second groove for accommodating second blanking cover on the supporting surface of two supports.

Preferably, the shape of first groove and the shape adaptation of first blanking cover, the shape of second groove With the shape adaptation of second blanking cover.

Preferably, first support is integrally formed with first blanking cover, second support and second blanking cover It is integrally formed.

Preferably, the air-flow input port is obliquely set.

Preferably, the angle of the air-flow input port and plumb line is more than or equal to 5 degree and less than or equal to 45 degree.

Preferably, the angle of the air-flow input port and plumb line is more than or equal to 10 degree and less than or equal to 25 degree.

Brief description of the drawings

Fig. 1 is the schematic diagram according to the base plate glass defect processing system of preferred embodiment of the present utility model；

Fig. 2 is defect removal device in the base plate glass defect processing system according to preferred embodiment of the present utility model Schematic diagram；

Fig. 3 is defect removal device in the base plate glass defect processing system according to preferred embodiment of the present utility model Ejecting gun schematic diagram；

Fig. 4 is defect collection device in the base plate glass defect processing system according to preferred embodiment of the present utility model Schematic diagram；

Fig. 5 is defect separator in the base plate glass defect processing system according to preferred embodiment of the present utility model Side view；

Fig. 6 is defect separator in the base plate glass defect processing system according to preferred embodiment of the present utility model Sectional view；

Fig. 7 is that showing for smelting furnace is reclaimed in the base plate glass defect processing system according to preferred embodiment of the present utility model It is intended to.

Embodiment

Specific embodiment of the present utility model is described in detail below in conjunction with accompanying drawing.It should be appreciated that herein Described embodiment is merely to illustrate and explained the utility model, is not limited to the utility model.

In the utility model, in the case where not making opposite explanation, the noun of locality such as " upper and lower, top, bottom " used is generally It is each part mutual alignment either on vertical, vertical or gravity direction for direction shown in the drawings Relationship description word.

In the prior art, base plate glass in process of production, or produce it is various the defects of, such as bubble, tin point, Calculus, field trash etc..These defects can all influence the presentation quality of base plate glass, influence the following process and product of base plate glass Matter.Therefore, it is necessary to include defect (calculus, gold to it before these defective base plate glass of tool are entered into recycling link Category, foreign matter impuritiess etc.) operation is removed, to cause the manufacturing process of base plate glass to enter benign cycle, so that It is more and more lower to obtain product defects rate.But the system not handled effectively base plate glass defect in the prior art.

Below with reference to the accompanying drawings the recovery smelting furnace 600 for base plate glass 10 according to the utility model embodiment is described.Such as Shown in Fig. 7, body of heater 610 and bell are included according to the recovery smelting furnace 600 for base plate glass 10 of the utility model embodiment 620。

The side wall of body of heater 610 is provided with heating arrangements 611 and first discharge port 612, and first discharge port 612 is used to discharge glass Glass defect, the bottom of body of heater 610 are provided with the second floss hole 613, and the second floss hole 613 is used to discharge precious metal.The envelope of bell 620 The top of lid body of heater 610, bell 620 are provided with exhaust outlet 621 and air-flow input port 622.

Glass defect to be purified is placed in body of heater 610, and body of heater 610 is covered with bell 620, logical to heating arrangements 611 Electricity is begun to warm up.Preferably, glass defect to be purified has fulfiled preheating ahead of schedule.In preferred embodiment of the present utility model In, oxyacetylene torch is passed through in air-flow input port 622, for heating glass defect, glass defect is fused into glass defect liquid. After fusing under oxyacetylene torch airflow function, glass defect liquid rotates in the inside spin of body of heater 610, reaches the process stipulation time, Stop oxyacetylene torch heating.Glass defect liquid will discharge from the first discharge port 612 in the side wall of body of heater 610, due to valuable Weight metal is larger, therefore sinks to the bottom of body of heater 610 downwards, and is discharged by the second floss hole 613.Thus realize glass The initial gross separation and purification of precious metal in defect.

According to the recovery smelting furnace 600 for base plate glass 10 of the utility model embodiment by being set on bell 620 Air-flow input port 622, so as to convey gas into body of heater 610 by air-flow input port 622, so as to the gas stirring body of heater Glass defect liquid in 610.Because the centrifugal force of glass and the centrifugal force of precious metal are different, therefore glass defect liquid can be from First discharge port 612 in the side wall of body of heater 610 is discharged, and precious metal can sink downwards to the bottom of body of heater 610, rich Glass defect liquid containing precious metal can discharge from the second floss hole 613 positioned at the bottom of body of heater 610, it is possible thereby to realize The preliminary purification of precious metal.

Therefore, can be effectively to glass according to the recovery smelting furnace 600 for base plate glass 10 of the utility model embodiment Precious metal in glass defect carries out preliminary purification.

Referring to Fig. 1, Fig. 1 shows a kind of base plate glass defect processing system of preferred embodiment of the present utility model, Base plate glass defect processing system includes：Base plate glass conveying device 100, base plate glass 10 are arranged on base plate glass conveying device On 100, and conveyed along the length direction of base plate glass conveying device 100；Defect recognizing device 200, the edge of defect recognizing device 200 The width of base plate glass conveying device 100 is arranged on the side of base plate glass conveying device 100, and towards base plate glass 10 are set, and defect recognizing device 200 is used to identify positioning defect coordinate position；Defect removal device 300, defect removal device 300 are arranged on the downstream of defect recognizing device 200, defect removal device 300 along the conveying direction of base plate glass conveying device 100 For the separation of glasses defect from base plate glass 10；Defect collection device 400, defect collection device 400 are arranged on defect removal The opposite side of device 300, for receiving the glass defect of separation；And controller, the controller convey with base plate glass respectively Device 100, defect recognizing device 200, defect removal device 300 and defect collection device 400 electrically connect, for control base board glass Cooperation fortune between glass conveying device 100, defect recognizing device 200, defect removal device 300 and defect collection device 400 OK.

The utility model by setting defect recognizing device 200 to carry out Classification and Identification to the defects of base plate glass 10, and Defect coordinate position is recorded, has been inspected defect coordinate location transmission to defect removal device 300, defect removal device 300 The defect coordinate position is adjusted to, glass defect is separated with glass matrix, and by relative with the defect removal device 300 The defects of side is set collection device 400 receives the glass defect of separation.Base plate glass defect processing system is effectively gone Glass impurities during being manufactured except base plate glass 10, production process is entered benign cycle, substantially solved because small Influence of the impurity to product quality.

The structure of each machine device in base plate glass defect processing system is described in detail below with reference to accompanying drawing.

Base plate glass conveying device 100 can be horizontally disposed with, and can also be vertically arranged.For example, base plate glass conveying device 100 can be horizontally disposed conveyer belt, it is preferable that the conveyer belt is hollow out, and the both sides of conveyer belt, which are provided with, is used for fixed base The fixed mechanism of glass sheet 10, such as geometrical clamp, to facilitate defect removal device 300 to remove lacking on base plate glass 10 exactly Fall into.Wherein, defect removal device 300 is arranged on the top of base plate glass 10, and defect collection device 400 is correspondingly disposed in substrate The lower section of glass 10.Base plate glass conveying device 100 can also be included for two tracks that are vertical and be arrangeding in parallel and being capable of edge The fixed mechanism of the tracks travel, such as geometrical clamp, the fixed mechanism are capable of the both sides of fixed substrate glass 10 so that defect Removal device 300 removes the defects of base plate glass 10 exactly.Wherein, defect removal device 300 and defect collection device 400 It is separately positioned on the both sides of base plate glass 10.Those skilled in the art it is to be appreciated that, the utility model is not limited to The embodiment of face description, the conveying device of transport and fixed substrate glass 10 can be played.

In preferred embodiment of the present utility model, defect removal device 300 receives defect coordinate position, especially, Referring to Fig. 2, defect removal device 300 is gunslinging device, and the gunslinging device includes the He of ejecting gun 310 with metal bullet 311 Ejecting gun motion, the defects of being received according to defect removal device 300 coordinate position, ejecting gun 310 moved by ejecting gun Mechanism is adjusted to defect coordinate position, and ejecting gun 310 launches metal bullet 311 towards defect coordinate position.It is fast by ejecting gun 310 Fastly launch metal bullet 311 to defect coordinate position, enabling in the feelings for not influenceing the base plate glass 10 in addition to defect Under condition, defect is removed.Removing the glass matrix of defect can continue to follow base plate glass conveying device to move, female to enter glass Body recycling link D, for example, being put into production again link as raw materials for production after glass matrix is pulverized.

Wherein, include referring specifically to Fig. 2, ejecting gun motion：First moving cell 321, first moving cell 321 Set along the length direction (i.e. first direction) of base plate glass conveying device 100, the first moving cell 321 includes can be along substrate The first sliding block 321-1 that the length direction of glass conveyer device 100 moves back and forth；With the second moving cell 322, second motion Width (i.e. second direction) of the unit 322 along base plate glass conveying device 100 is set, and the second moving cell 322 with First sliding block 321-1 connections of the first moving cell 321, the second moving cell 322 includes can be along base plate glass conveying device The second sliding block 322-1 that 100 width moves back and forth, ejecting gun 310 are arranged on the second sliding block 322-1.That is, the first fortune Moving cell 321 drives length direction of the ejecting gun 310 along base plate glass conveying device 100 to move, and the second moving cell 322 drives Width of the ejecting gun 310 along base plate glass conveying device 100 moves, so that ejecting gun 310 can be moved to substrate On any one coordinate of glass 10, to remove the defects of base plate glass 10 comprehensively.

Specifically, the first moving cell 321 also includes the first guide rail 321-2 and the first fixed support 321-3, and first fixes Length directions of the support 321-3 along base plate glass conveying device 100 is set, and the first guide rail 321-2 is fixedly installed on the first fixation On support 321-3, the first sliding block 321-1 is arranged on the first guide rail 321-2, and can be moved along the first guide rail 321-2；Second Moving cell 322 also includes the first travel(l)ing rest 322-3 and the second guide rail 322-2, the first travel(l)ing rest 322-3 along base plate glass The width arrangement of conveying device 100, the first travel(l)ing rest 322-3 are connected to the first sliding block 321-1, and can be with first Sliding block 321-1 synchronizing movings, the second guide rail 322-2 are arranged on the first travel(l)ing rest 322-3, and the second sliding block 322-1 is arranged on On second guide rail 322-2, the second sliding block 322-1 can move along the second guide rail 322-2.Connected by the first travel(l)ing rest 322-3 The first sliding block 321-1 is connected to, and the first sliding block 321-1 moves along the first guide rail 321-2 so that the first sliding block 321-1 drives Length directions of the first travel(l)ing rest 322-3 along base plate glass conveying device 100 is moved, and the first travel(l)ing rest 322-3 is also set up There is the second sliding block 322-1 for being provided with ejecting gun 310, so as to which the first sliding block 321-1 drives ejecting gun 310 to be conveyed along base plate glass The length direction movement of device 100.The the second sliding block 322-1 itself for being provided with ejecting gun 310 simultaneously can also be along the second guide rail 322-2 is moved, i.e., is moved along the width of base plate glass conveying device 100, so that ejecting gun 310 also can be along substrate The width movement of glass conveyer device 100.

Wherein, the first sliding block 321-1 and the second sliding block 322-1 movement can be by manually completing, or pass through Transmission mechanism is completed.But in order that the first sliding block 321-1 and the second sliding block 322-1 movement it is more accurate, save manpower, Automation is realized, preferably, the first moving cell 321 also includes the first drive mechanism, the first drive mechanism bag to the utility model Include the first motor 321-4 and the first leading screw 321-5, the first motor 321-4 is arranged on the first fixed support 321-3's On end, the first leading screw 321-5 be arranged in parallel with the first guide rail 321-2, the first leading screw 321-5 and the first motor 321-4 Connection, the first sliding block 321-1 are provided with the first mother lead screw 321-6 coordinated with the first leading screw 321-5, and the first leading screw 321-5 runs through First mother lead screw 321-6, the first motor 321-4 drives the first leading screw 321-5 rotations, to cause the first sliding block 321-1 to move It is dynamic；Second moving cell 322 also includes the second drive mechanism, and the second drive mechanism includes the second motor 322-4 and second Leading screw 322-5, the second motor 322-4 are arranged on the first travel(l)ing rest 322-3 end, the second leading screw 322-5 and Two guide rail 322-2 are be arranged in parallel, and the second leading screw 322-5 is connected with the second motor 322-4, the second sliding block 322-1 be provided with The second mother lead screw 322-6, the second leading screw 322-5 that second leading screw 322-5 coordinates is through the second mother lead screw 322-6, the second driving Motor 322-4 drives the second leading screw 322-5 rotations, to cause the second sliding block 322-1 to move.Pass through the first motor 321-4 The first leading screw 321-5 is driven to rotate so that can be along the first leading screw with the first leading screw 321-5 the first mother lead screw 321-6 coordinated 321-5 is moved, so as to drive the first sliding block 321-1 to move.Wherein, the direction by the first leading screw 321-5 rotations is different so that First sliding block 321-1 can move back and forth along the first guide rail 321-2.Similarly, second is driven by the second motor 322-4 Thick stick 322-5 rotates so that can be moved with the second leading screw 322-5 the second mother lead screw 322-6 coordinated along the second leading screw 322-5, So as to drive the second sliding block 322-1 to move.Wherein, the direction by the second leading screw 322-5 rotations is different so that the second sliding block 322-1 can move back and forth along the second guide rail 322-2.

Specifically, in preferred embodiment of the present utility model, referring to Fig. 3, wherein, ejecting gun 310 include gun body 312, Pressurized cylinder 313 and pneumatic control action mechanism 314, pressurized cylinder 313 are connected to pneumatic control actuating mechanism 314, and gun body 312 includes Magazine 312-1 and the bullet transmitting tube 312-2 connected with magazine 312-1, metal bullet 311 are contained in magazine 312-1, pneumatically Control action mechanism 314 is communicated in bullet transmitting tube 312-2.By pneumatic control actuating mechanism 314 by caused by pressurized cylinder 313 Gases at high pressure abrupt release is projected the metal bullet 311 in bullet transmitting tube 312-2 to bullet transmitting tube 312-2, so as to The defects of base plate glass 10 is removed.Preferably, adjusted referring to Fig. 3, bullet transmitting tube 312-2 bottom sidewall provided with elastic force Device, it is further preferred that the elastic force adjuster includes jackscrew and is arranged on the spring of jackscrew end.Wherein jackscrew can be radially into In bullet transmitting tube 312-2.When the metal bullet 311 in magazine 312-1 falls into bullet transmitting tube 312-2, jackscrew end Spring is used to fix metal bullet 311, prevents metal bullet 311 from moving back and forth in bullet transmitting tube 312-2.According to ejecting gun Emission rate needed for 310, to adjust the length that jackscrew is stretched into bullet transmitting tube 312-2, by pressurized cylinder 313 and pneumatically Control action mechanism 314 discharges appropriate pressed gas to bullet transmitting tube 312-2, so as to adjust the transmitting of metal bullet 311 Speed.

Wherein, gun body 312 also includes Tian Dan mechanisms, and Tian Dan mechanisms, which include filling out, plays cylinder block 312-3 and can be by filling out bullet That is stretched back and forth in cylinder block 312-3 fills out spring column plug 312-4, and magazine 312-1 and bullet hair can be opened and closed by filling out spring column plug 312-4 Penetrate pipe 312-2 connectivity part.Referring to Fig. 3, when filling out spring column plug 312-4 and moving up, magazine 312-1 and bullet transmitting tube 312- 2 connections, so that the metal bullet 311 in magazine 312-1 is moved in bullet transmitting tube 312-2；When filling out spring column plug 312-4 When moving down, the connectivity part that spring column plug 312-4 blocks example magazine 312-1 and bullet transmitting tube 312-2 is filled out so that magazine Metal bullet 311 in 312-1 will not be moved in bullet transmitting tube 312-2.In a manner of infinite, particularly preferably, rifle The caliber for playing transmitting tube 312-2 is only capable of accommodating a metal bullet 311.

Preferably, magazine 312-1 is infundibulate, and ejecting gun 310 also includes rotary actuator 315 and metal gun ball emitter 316, metal gun ball emitter 316 is connected with rotary actuator 315, and metal gun ball emitter 316 is arranged on going out for magazine 312-1 At mouthful, to receive the metal bullet 311 in magazine 312-1 exit, and it is by rotary actuator 315 that metal bullet 311 is defeated Deliver to magazine 312-1 and bullet transmitting tube 312-2 connectivity part.Wherein preferably, metal gun ball emitter 316 is and magazine 312-1's exports relative opening box so that from magazine 312-1 outlet, metal bullet 311 out can fall into metal gun In ball emitter 316, then rotary actuator 315 is controlled to rotate metal gun ball emitter 316 so as to fall into the transmitting of metal bullet Metal bullet 311 in device 316 is slid downwardly into Tian Dan mechanisms, so as to realize so that single metal bullet 311 is from magazine 312-1 In roll out.

In preferred embodiment of the present utility model, especially, referring to Fig. 4, defect collection device 400 includes collection group Part 410 and collection assembly motion, collection assembly 410 are adjusted to and defect removal device 300 by collection assembly motion Corresponding position, to receive glass defect and metal bullet 311.Passed through by the control collection assembly 410 of controller Collection assembly motion is moved to the position corresponding with defect removal device 300, is removed with receiving from base plate glass 10 Glass defect and metal bullet 311.

Wherein, collection assembly motion includes：3rd moving cell 421, the 3rd moving cell 421 is along base plate glass The length direction of conveying device 100 is set, and the 3rd moving cell 421 includes can be along the length of base plate glass conveying device 100 The 3rd sliding block 421-1 that direction moves back and forth；With the 4th moving cell 422, the 4th moving cell 422 conveys along base plate glass The width of device 100 is set, and the 3rd sliding block 421-1 of the 4th moving cell 422 and the 3rd moving cell 421 connects Connect, the 4th moving cell 422 includes the Four-slider that can move back and forth along the width of base plate glass conveying device 100 422-1, collection assembly 410 is on Four-slider 422-1.That is, the 3rd moving cell 421 drives collection assembly 410 along substrate glass The length direction movement of glass conveying device 100, the 4th moving cell 422 drive collection assembly 410 along base plate glass conveying device 100 width movement, so that collection assembly 410 can follow defect removal device 300 to be moved to base plate glass 10 Any one coordinate on, can receive and collect the defects of being removed from base plate glass 10.

Specifically, the 3rd moving cell 421 also includes the 3rd guide rail 421-2 and the second fixed support 421-3, and second fixes Length directions of the support 421-3 along base plate glass conveying device 100 is set, and the 3rd guide rail 421-2 is fixedly installed on the second fixation On support 421-3, the 3rd sliding block 421-1 is arranged on the 3rd guide rail 421-2, and can be moved along the 3rd guide rail 421-2；4th Moving cell 422 also includes the second travel(l)ing rest 422-3 and the 4th guide rail 422-2, and the second travel(l)ing rest 422-3 is along base plate glass The width arrangement of conveying device 100, the second travel(l)ing rest 422-3 are connected to the 3rd sliding block 421-1, and can be with the 3rd Sliding block 421-1 synchronizing movings, the 4th guide rail 422-2 are arranged on the second travel(l)ing rest 422-3, and Four-slider 422-1 is arranged on On 4th guide rail 422-2, Four-slider 422-1 can move along the 4th guide rail 422-2.Connected by the second travel(l)ing rest 422-3 The 3rd sliding block 421-1 is connected to, and the 3rd sliding block 421-1 moves along the 3rd guide rail 421-2 so that the 3rd sliding block 421-1 drives Length directions of the second travel(l)ing rest 422-3 along base plate glass conveying device 100 is moved, and the second travel(l)ing rest 422-3 is also set up There is the Four-slider 422-1 for being provided with collection assembly 410, so as to which the 3rd sliding block 421-1 drives collection assembly 410 along base plate glass The length direction movement of conveying device 100.The Four-slider 422-1 itself for being provided with collection assembly 410 simultaneously can also be along the Four guide rail 422-2 are moved, i.e., are moved along the width of base plate glass conveying device 100, so that collection assembly 410 also can It is enough to be moved along the width of base plate glass conveying device 100.

Wherein similarly, the 3rd sliding block 421-1 and Four-slider 422-1 movement can by manually completing, or Completed by transmission mechanism.But in order that the 3rd sliding block 421-1 and Four-slider 422-1 movement it is more accurate, save Manpower, realizes automation, the utility model preferably, the 3rd moving cell 421 also includes the 3rd drive mechanism, and the 3rd drives Mechanism includes the 3rd motor 421-4 and the 3rd leading screw 421-5, and the 3rd motor 421-4 is arranged on the second fixed support On 421-3 end, the 3rd leading screw 421-5 and the 3rd guide rail 421-2 be arranged in parallel, the driving electricity of the 3rd leading screw 421-5 and the 3rd Machine 421-4 connections, the 3rd sliding block 421-1 are provided with the 3rd mother lead screw 421-6 coordinated with the 3rd leading screw 421-5, the 3rd leading screw 421-5 runs through the 3rd mother lead screw 421-6, and the 3rd motor 421-4 drives the 3rd leading screw 421-5 rotations, to cause the 3rd cunning Block 421-1 is moved；4th moving cell 422 also includes the 4th drive mechanism, and the 4th drive mechanism includes the 4th motor 422-4 and the 4th leading screw 422-5, the 4th motor 422-4 are arranged on the second travel(l)ing rest 422-3 end, the 4th Thick stick 422-5 is be arranged in parallel with the 4th guide rail 422-2, and the 4th leading screw 422-5 is connected with the 4th motor 422-4, Four-slider 422-1 is provided with the 4th mother lead screw 422-6 coordinated with the 4th leading screw 422-5, and the 4th leading screw 422-5 runs through the 4th mother lead screw 422- 6, the 4th motor 422-4 drive the 4th leading screw 422-5 rotations, to cause Four-slider 422-1 to move.Pass through the 3rd driving Motor 421-4 drives the 3rd leading screw 421-5 rotations so that being capable of edge with the 3rd leading screw 421-5 the 3rd mother lead screw 421-6 coordinated 3rd leading screw 421-5 is moved, so as to drive the 3rd sliding block 421-1 to move.Wherein, the direction rotated by the 3rd leading screw 421-5 It is different so that the 3rd sliding block 421-1 can move back and forth along the 3rd guide rail 421-2.Similarly, the 4th motor 422-4 is passed through The 4th leading screw 422-5 is driven to rotate so that can be along the 4th leading screw with the 4th leading screw 422-5 the 4th mother lead screw 422-6 coordinated 422-5 is moved, so as to drive Four-slider 422-1 to move.Wherein, the direction by the 4th leading screw 422-5 rotations is different so that Four-slider 422-1 can move back and forth along the 4th guide rail 422-2.

Specifically, in preferred embodiment of the present utility model, collection assembly 410 includes rotary drive mechanism 411, collected Container 412 and mounting rod 413, rotary drive mechanism 411 are arranged on Four-slider 422-1, and mounting rod 413 is rotatably arranged On rotary drive mechanism 411, collection vessel 412 is arranged on the end of mounting rod 413.Controller moves collection assembly 410 Move to defect coordinate opening position, the drive installation bar 413 of rotary drive mechanism 411 so that the opening of collection vessel 412 is towards transmitting Rifle 310 is set.Preferably, the opening of collection vessel 412 is tilted and set towards ejecting gun 310, and collection vessel 412 will not be caused to exist By larger impulsive force during reception.In a kind of embodiment of the present utility model, in a manner of infinite, collection assembly 410 include two collection vessels 412, and two collection vessels 412 are separately positioned on two ends of mounting rod 413, excellent Selection of land, collection vessel 412 are the string bag.But the utility model and it is without cease be limited to this, on mounting rod 413 can be set multiple collection vessels 412, multiple collection vessels 412 are respectively used to collect different types of glass defect.

It is particularly preferred that collection assembly 410 also includes the joint 414 being arranged on the end of mounting rod 413, collection vessel 412 are arranged on mounting rod 413 by joint 414, and collection vessel 412 can rotate around joint 414.So that in mounting rod During 413 rotation, the opening of collection vessel 412 tilts towards ejecting gun 310 all the time.When the glass in collection vessel 412 need to be lacked When sunken and metal bullet 311 is poured out, collection vessel 412 is can be manually rotated, it is its is opening down, you can content is all imported and lacked Fall into separator 500 and separated.

Due to collection vessel 412 include glass defect and with metal bullet 311, can't realize to glass defect from Dynamic centralized collection.Therefore in preferred embodiment of the present utility model, referring to Fig. 5 and Fig. 6, base plate glass defect processing system Also include defect separator 500, conveying direction of the defect separator 500 along base plate glass conveying device 100 is arranged on scarce The downstream of collection device 400 is fallen into, for separation of glasses defect and metal bullet 311, wherein, defect separator 500 includes snail Shell 510, electromagnetism roller 520, dynamic power unit 530 and motor 540, spiral case 510 include the first interconnected disengagement chamber 511 and second disengagement chamber 512, electromagnetism roller 520 is pivotally disposed at connecting for the first disengagement chamber 511 and the second disengagement chamber 512 Place, spiral case 510 are also included positioned at the discharging opening 514 of charging aperture 513 and first of the first disengagement chamber 511 and positioned at the second disengagement chamber 512 the second discharging opening 515, the first discharging opening 514 are used to discharge glass defect, and the second discharging opening 515 is used to discharge metal gun Bullet 311, motor 540 and dynamic power unit 530 are arranged on the sidepiece of spiral case 510, and motor 540 drives electromagnetism roller 520 rotations, dynamic power unit 530 is to the dynamic power of electromagnetism roller 520.Glass defect and pass through charging aperture with metal bullet 311 513 enter in spiral cases 510, by dynamic power unit 530 to the dynamic power of electromagnetism roller 520 so that positioned at the first disengagement chamber 511 Part electromagnetism roller 520 it is powered, with adsorbing metal bullet 311, remaining glass defect is discharged from the first discharging opening 514.Metal Bullet 311 is taken in the second disengagement chamber 512, and the part electromagnetism roller 520 for being now placed in the second disengagement chamber 512 powers off so that is inhaled Attached metal bullet 311 is come off by electromagnetism roller 520, and is discharged from the second discharging opening 515,

Specifically, in preferred embodiment of the present utility model, electromagnetism roller 520 includes pivotal axis 521 and is arranged on pivot Multiple electromagnet 522 on the outer peripheral face of rotating shaft 521, when electromagnetism roller 520 around pivotal axis 521 rotate when, electromagnetism roller 520 it is more Individual electromagnet 522 is included positioned at the energization area of the first disengagement chamber 511 and positioned at the power-off area of the second disengagement chamber 512, dynamic power Unit 530 is powered to the electromagnet 522 in energization area.Referring specifically to Fig. 5, it is powered to the electromagnet 522 of b, c, d, e section, I.e. b, c, d, e section are energization area；The electromagnet 522 of f, g, h, i section is powered off, i.e., f, g, h, i section are power-off area.

Preferably, the first discharging opening 514 is provided with glass defect collection vessel 516, and the second discharging opening 515 is provided with metal bullet Collection vessel 517.The electromagnet 522 in energization area adsorbs the metal bullet 311 in compound, rotation to power-off area, metal gun Bullet 311 is fallen in metal bullet collection vessel 517 by the second discharging opening 515, because electromagnet 522 is for glass defect There is no suction-operated so that glass defect directly falls to glass defect collection vessel 516 from the first discharging opening 514.So as to reach Purpose to separation of glasses defect and with metal bullet 311.Referring next to Fig. 1, the metal bullet 311 of collection enters circulation link C, such as metal bullet 311 can be returned in gunslinging device and recycle；Carry out technique in need in the glass defect of collection The defects of researching and analysing sample enters link B, transfers to technologist to analyze after collection；The shortcomings that containing precious metal, glass will be by Input is into the recovery smelting furnace 600 in link A, to be separated and be purified to precious metal.

Therefore in order to separate and the precious metal in refining glass defect, it is preferable that referring to Fig. 7, base plate glass fault location Reason system also includes recovery smelting furnace 600, and recovery smelting furnace 600 is connected with the first discharging opening 514, for expensive in separation of glasses defect Heavy metal, wherein, recovery smelting furnace 600 includes body of heater 610 and bell 620, and the side wall of body of heater 610 is provided with the He of heating arrangements 611 First discharge port 612, first discharge port 612 are used to discharge glass defect, and the bottom of body of heater 610 is provided with the second floss hole 613, the Two floss holes 613 are used to discharge precious metal, and bell 620 covers the top of body of heater 610, and it is gentle that bell 620 is provided with exhaust outlet 621 Flow input port 622.Glass defect to be purified is placed in body of heater 610, body of heater 610 is covered with bell 620, to heating arrangements 611, which are powered, begins to warm up.Preferably, glass defect to be purified has fulfiled preheating ahead of schedule.Of the present utility model preferred real Apply in mode, oxyacetylene torch is passed through in air-flow input port 622, for heating glass defect, glass defect is fused into glass Defect liquid, after fusing under oxyacetylene torch airflow function, glass defect liquid rotates in the inside spin of body of heater 610, reaches Process Planning Fix time, stop oxyacetylene torch heating.Glass defect liquid will discharge from the first discharge port 612 in the side wall of body of heater 610；By It is larger in precious metal weight, therefore sink to the bottom of body of heater 610 downwards, and discharged by the second floss hole 613.It is thus real The initial gross separation and purification of precious metal in existing glass defect.

As shown in fig. 7, air-flow input port 622 can obliquely be set.The gas inputted from there through air-flow input port 622 The glass defect liquid in body of heater 610 can be preferably stirred, so as to so that more precious metals sink to dropping down onto body of heater 610 Bottom, to improve the rate of recovery of precious metal.

Preferably, the angle of air-flow input port 622 and plumb line can be more than or equal to 5 degree and less than or equal to 45 degree.More Preferably, the angle of air-flow input port 622 and plumb line can be more than or equal to 10 degree and less than or equal to 25 degree.It is possible thereby to make more More precious metals sinks to dropping down onto the bottom of body of heater 610, so as to further improve the rate of recovery of precious metal.

In preferred embodiment of the present utility model, referring to Fig. 7, body of heater 610 is infundibulate, and stirring including upper end Dynamic chamber 614 and the collecting chamber 615 of lower end, first discharge port 612 is arranged in the side wall of agitation chamber 614, and passes through the first blanking cover 616 cappings, the second floss hole 613 is arranged on the bottom of collecting chamber 615, and is covered by the second blanking cover 617.Due to body of heater 610 For infundibulate, it is easy to glass defect to form helical rotation wherein stirring chamber 614；Collecting chamber 615 is used to collect precious metal.Due to The glass defect liquid placed in body of heater 610 is heated, therefore in order to ensure reclaiming the security reliability of smelting furnace 600, first row Put mouth 612 to cover by the first blanking cover 616, the second floss hole 613 is covered by the second blanking cover 617.To prevent in body of heater 610 Material overflows or thrown away.

In order to further ensure that the first blanking cover 616 and the second blanking cover 617 closely cover, especially, recovery smelting furnace 600 includes For supporting the first support 630 of the first blanking cover 616 and for supporting the second of the second blanking cover 617 to support 640, it is preferable that the One support 630 supporting surface on formed with accommodate the first blanking cover 616 the first groove, second support 640 supporting surface on formed There is the second groove for accommodating the second blanking cover 617.

The shape of first groove can be with the shape adaptation of the first blanking cover 616, and the shape of second groove can be with The shape adaptation of two blanking covers 617.It is possible thereby to make the first blanking cover 616 more be fitted securely into first groove, and can be with The second blanking cover 617 is set more to be fitted securely into second groove.

It is particularly preferred that the first support 630 is integrally formed with the first blanking cover 616, the second support 640 and the second blanking cover 617 It is integrally formed.After the process stipulation time is reached, stop oxyacetylene torch heating.The first support 630 is removed, valuable gold will be free of The glass defect liquid of category will discharge from the first discharge port 612 in the side wall of body of heater 610；After drained, the entirety of body of heater 610 is carried Rise, knock out and second supports 640, precious metal is discharged by the second floss hole 613.Thus realize valuable gold in glass defect The initial gross separation and purification of category.

Using the method for the processing base plate glass defect of above-mentioned base plate glass defect processing system, this method includes as follows Step：

The first step, the substrate glass in the base plate glass conveying device 100 is positioned by the identification of defect recognizing device 200 The defects of glass 10 coordinate position, the defect recognizing device 200 given the defect coordinate location transmission by the controller Defect removal device 300 and defect collection device 400；

Second step, base plate glass 10 are delivered to defect removal device 300 by base plate glass conveying device 100, and defect is gone Except device 300 and defect collection device 400 receive and are moved to defect coordinate position；

3rd step, defect removal device 300 is towards defect coordinate position shooting metal bullet 311, with from substrate glass Separation of glasses defect in glass 10, the defect collection device 400 receive the glass defect and metal bullet 311 of separation；

4th step, the glass defect that defect collection device 400 is collected and metal bullet 311 are delivered to defect separator In 500, the metal bullet 311 in glass defect is separated by the electromagnetism roller 520 powered by dynamic power unit 530；

5th step, glass defect is delivered in recovery smelting furnace 600, to extract the precious metal in glass defect.

Preferred embodiment of the present utility model, still, the utility model and unlimited is described in detail above in association with accompanying drawing Detail in above-mentioned embodiment, can be to skill of the present utility model in range of the technology design of the present utility model Art scheme carries out a variety of simple variants, and these simple variants belong to the scope of protection of the utility model.

It is further to note that each particular technique feature described in above-mentioned embodiment, in not lance In the case of shield, it can be combined by any suitable means.In order to avoid unnecessary repetition, the utility model is to each The possible combination of kind no longer separately illustrates.

In addition, it can also be combined between a variety of embodiments of the present utility model, as long as it is not disobeyed Thought of the present utility model is carried on the back, it should equally be considered as content disclosed in the utility model.

Claims (10)

1. A kind of 1. recovery smelting furnace (600) for base plate glass, it is characterised in that including：

   Body of heater (610), the side wall of the body of heater (610) be provided with heating arrangements (611) and for discharging glass defect first Floss hole (612), the bottom of the body of heater (610) are provided with the second floss hole (613) for being used for discharging precious metal；With

   Bell (620), the bell (620) cover the top of the body of heater (610), and the bell (620) is provided with exhaust outlet And air-flow input port (622) (621).
2. 2. the recovery smelting furnace (600) according to claim 1 for base plate glass, it is characterised in that the body of heater (610) For infundibulate, and the agitation chamber (614) including upper end and the collecting chamber (615) of lower end.
3. 3. the recovery smelting furnace (600) according to claim 2 for base plate glass, it is characterised in that first discharge Mouth (612) is arranged in the side wall of the agitation chamber (614), and is passed through the first blanking cover (616) and covered, second floss hole (613) bottom of the collecting chamber (615) is arranged on, and is covered by the second blanking cover (617).
4. 4. the recovery smelting furnace (600) according to claim 3 for base plate glass, it is characterised in that the recovery smelting furnace (600) include being used for the first support (630) for supporting first blanking cover (616) and for supporting second blanking cover (617) Second support (640).
5. 5. the recovery smelting furnace (600) according to claim 4 for base plate glass, it is characterised in that first support (630) formed with the first groove for accommodating first blanking cover (616), the support of second support (640) on supporting surface Formed with the second groove for accommodating second blanking cover (617) on face.
6. 6. the recovery smelting furnace (600) according to claim 5 for base plate glass, it is characterised in that first groove Shape and first blanking cover (616) shape adaptation, the shape of second groove and the shape of second blanking cover (617) Shape is adapted to.
7. 7. the recovery smelting furnace (600) according to claim 4 for base plate glass, it is characterised in that first support (630) be integrally formed with first blanking cover (616), the second support (640) and second blanking cover (617) one into Type.
8. 8. the recovery smelting furnace (600) according to claim 1 for base plate glass, it is characterised in that the air-flow input Mouth (622) is obliquely set.
9. 9. the recovery smelting furnace (600) according to claim 8 for base plate glass, it is characterised in that the air-flow input The angle of mouth (622) and plumb line is more than or equal to 5 degree and less than or equal to 45 degree.
10. 10. the recovery smelting furnace (600) according to claim 9 for base plate glass, it is characterised in that the air-flow input The angle of mouth (622) and plumb line is more than or equal to 10 degree and less than or equal to 25 degree.