CN107322295A - A kind of instrument rotary assembled system - Google Patents

Abstract

The invention discloses a kind of instrument rotary assembled system, including front casing body, in addition to front casing supply unit, including front casing vibration component and front casing conveying mechanism；Front casing screening unit, it is connected with the front casing conveying mechanism, also include chassis, the chassis upper surface is provided with the first front casing rotating disk, and the second front casing rotating disk is additionally provided with the first front casing rotating disk, and detection components are provided with above the second front casing rotating disk, the current state of the front casing body is detected, the screening to it is realized.Beneficial effects of the present invention：One be by provided with front casing supply unit, satisfactory front casing can be transferred out in irregular front casing, accelerates its conveying, improves production efficiency；Two be by provided with front casing screening unit, the screening to front casing supply unit state in package system can be completed, hence into the assembling subsystem of next element.

Description

A kind of instrument rotary assembled system

Technical field

The present invention relates to the technical field of automatic package system, more particularly to a kind of automatic package system of instrument.

Background technology

Recently as the development of science and technology, anti-explosion digital thermometer is one of temperature measuring device type, according to The difference and the difference of temperature-measuring range of thermometric substance used, there is kerosene thermometer, alcohol thermometer, mercurial thermometer, gas temperature Spend meter, resistance thermometer, thermoelectric thermometer, radiation thermometer and flash ranging thermometer, bimetallic thermometer etc., digital temperature Meter can accurately judge and measurement temperature that with numerical monitor, and non-pointer or mercury are shown, therefore claim digital thermometer or numeral Round-the-clock collection and communication under thermometer, its field for being adapted to that external power can not be provided or adverse circumstances, meet corrosivity, impact Property, the premise temperature such as vibrations show, meet laboratory and industry spot high precision collecting demand, substitute conventional cursor thermometer, Normal thermometer can be done.And anti-explosion digital thermometer product explosion-resistant enclosure is formed using the aluminum alloy casing die casting of high intensity, Inside shows temperature more directly perceived using import high accuracy, Low Drift Temperature, ultra-low power consumption integrated circuit and super large LCDs, Apparent five-digit number code display makes measurement display precision higher, and the anti-explosion digital thermometer on open market includes front casing, glass Glass piece, internal electronic element and rear casing, and inefficiency in process of production in the presence of production is, it is necessary to spend a large amount of artificial And the time come complete whole completed assembled the problem of.

The content of the invention

The purpose of this part is some aspects for summarizing embodiments of the invention and briefly introduces some preferably implementations Example.It may do a little simplified or be omitted to avoid making our department in this part and the description of the present application summary and denomination of invention Point, the purpose of specification digest and denomination of invention obscure, and this simplification or omit and cannot be used for limiting the scope of the present invention.

In view of front casing, sheet glass and the electronic component of the above-mentioned existing automatic package system of anti-explosion digital thermometer are certainly The problem of dynamic assembling subsystem is present, it is proposed that the present invention.

Therefore, it is an object of the present invention to provide a kind of automatic package system of instrument, by taking explosion-proof digital thermometer as an example, this is System can realize front casing, sheet glass, the electronics member of anti-explosion digital thermometer in the automatic package system of anti-explosion digital thermometer The automatic screening of each part such as device and assembling, substantially increase production efficiency, while reducing the cost of manpower, saving is produced into This.

Beneficial effects of the present invention：The automatic package system of a kind of instrument that the present invention is provided, one is by provided with before Shell supply unit, can transfer out satisfactory front casing in irregular front casing, and accelerate its conveying, section Make an appointment, improve production efficiency；Two be by provided with front casing screening unit, to outer before front casing supply unit Shell carries out judgement screening, can complete the screening to front casing supply unit state in package system, comply with automatic group The state under system requirements is filled, hence into the assembling subsystem of next element, the operation of automation is completed；Three be to pass through The sheet glass detection unit being provided with, can detect the positive and negative of sheet glass；Four be by provided with sheet glass screening unit, can Sheet glass after detection is adjusted, the sheet glass under the state of meeting the requirements is adjusted to, afterwards into workbench, so that The assembling of next step is carried out into next assembling subsystem, production efficiency is improved；Five are pushed away by first in conveying assembly Flitch pushs out material, passes through the connection produced between the first rack and first gear and second gear on the first scraping wings It is dynamic, allow material to fall, realize the effect that a station completes two processes.Blanking component in assembling device makes material under More stablize during material, improve the qualification rate of product, and assembled by the completion of automation, improve operating efficiency, save Time cost.

Brief description of the drawings

In order to illustrate the technical solution of the embodiments of the present invention more clearly, being used required in being described below to embodiment Accompanying drawing be briefly described, it should be apparent that, drawings in the following description are only some embodiments of the present invention, for this For the those of ordinary skill of field, without having to pay creative labor, it can also obtain other according to these accompanying drawings Accompanying drawing.Wherein：

Fig. 1 show the overall structure diagram of instrument rotary assembled system described in the first embodiment of the invention.

The overall structure that Fig. 2 show front casing body in instrument rotary assembled system described in the first embodiment of the invention is shown It is intended to.

Fig. 3 show front casing conveying mechanism structure in instrument rotary assembled system described in second of embodiment of the invention and shown It is intended to.

Fig. 4 show Fig. 3 partial enlargement structural representation.

Fig. 5 show the entirety of front casing screening unit in instrument rotary assembled system described in the third embodiment of the invention Structural representation.

Fig. 6 show the structural representation for removing the second front casing rotating disk in Fig. 5.

The overall structure that Fig. 7 show the second rotating disk in the 4th kind of system of instrument rotary assembled described in embodiment of the invention is shown It is intended to.

Fig. 8 show Fig. 7 bottom views structural representation.

Fig. 9 show the structural representation of tray bottom in the 4th kind of system of instrument rotary assembled described in embodiment of the invention Figure.

Figure 10 show another embodiment overall structure diagram of the invention.

Figure 11 show the overall structure diagram of sheet glass in another embodiment of the invention.

Figure 12 show the structural representation of sheet glass conveying mechanism in an embodiment of the present invention.

Figure 13 show the structural representation that sheet glass in an embodiment of the present invention pushes component.

Figure 14 show the structural representation of detection components in an embodiment of the present invention.

Figure 15 show Figure 14 sectional view.

Figure 16 show the overall structure diagram of sheet glass screening unit in an embodiment of the present invention.

Figure 17 show the partial enlargement structural representation of sheet glass screening unit in an embodiment of the present invention.

Figure 18 is the overall structure diagram in a kind of embodiment of conveying assembly of the present invention.

Figure 19 is the overall structure left view schematic diagram in a kind of embodiment of conveying assembly of the present invention and partial enlargement signal Figure.

Figure 20 be a kind of embodiment of conveying assembly of the present invention in first scraping wings overall structure diagram and Close-up schematic view.

Figure 21 is the overall structure diagram of the first transmission parts and office described in a kind of embodiment of conveying assembly of the present invention Portion's enlarged diagram.

Figure 22 is the overall structure schematic front view of the first transmission parts described in a kind of embodiment of conveying assembly of the present invention.

Figure 23 be a kind of embodiment of conveying assembly of the present invention in first scraping wings overall structure diagram and Close-up schematic view.

Figure 24 be a kind of embodiment of conveying assembly of the present invention in first pushing piece overall structure diagram and Close-up schematic view.

Figure 25 assembles the overall structure diagram of the blanking component in a kind of embodiment of device for the present invention.

Figure 26 is the overall structure diagram in a kind of present invention assembling embodiment of device.

Figure 27 is applied to the overall applicability structural representation of automatic package system for the present invention.

Figure 28 is the overall structure diagram in bonnet of the present invention assembling device the first embodiment.

Figure 29 is the overall structure diagram in bonnet of the present invention assembling second of embodiment of device.

Figure 30 is the partial structural diagram in bonnet of the present invention assembling device the third embodiment.

Embodiment

In order to facilitate the understanding of the purposes, features and advantages of the present invention, with reference to Figure of description pair The embodiment of the present invention is described in detail.

Many details are elaborated in the following description to facilitate a thorough understanding of the present invention, still the present invention can be with It is different from other manner described here using other to implement, those skilled in the art can be without prejudice to intension of the present invention In the case of do similar popularization, therefore the present invention is not limited by following public specific embodiment.

The overall structure diagram of instrument rotary assembled system as described in Fig. 1~2 show the first embodiment of the invention, Satisfactory state is conveyed and filtered out to front casing in order to realize in front casing assembling subsystem, in the present embodiment In, front casing body Y is the explosion-resistant enclosure of anti-explosion digital thermometer, and it is that a bottom surface is opening, the circular column of another bottom surface closing Body, so as to form receiving inner chamber, intracavitary installs the electronic component of anti-explosion digital thermometer in the receiving, by plus explosion-proof Rear casing is covered after sheet glass, opening will be provided with its extrusion forming, and the annular side of cylinder, along edge of opening to extension Stretch and be fixed with penetrating column casing, column casing is connected by opening of fitting with receiving inner chamber, and the column casing is set to anti-explosion digital temperature The passage that meter inner member is connected with the element of off-balancesheet.In order to realize front casing body Y automatic assembling, specifically, outer including before Front casing is delivered to front casing and screened by shell supply unit 100 and front casing screening unit 200, the front casing supply unit 100 In unit 200, filtered out by front casing screening unit 200 in satisfactory front casing body Y, the workbench that drops, herein Workbench is the turntable with some stations, and the installation operation of next step is carried out into next assembling subsystem；Enter again One step, front casing vibration component 101 and front casing conveying mechanism 102, front casing vibration component 101 herein are used as this implementation Preferably, it is vibrating barrel to one kind in example, according to the special construction that column casing is provided with front casing body Y, is selected by vibratory sieve The front casing body Y of satisfactory column casing direction, so as to complete the preliminary screening to front casing body Y；And front casing conveying mechanism 102 are arranged at the top of front casing vibration component 101, to the carry out acceleration conveying after preliminary screening, improve in the process certainly The efficiency of dynamic assembling.Front casing body Y of 200 pairs of the front casing screening unit from front casing supply unit 100 leads to after judging Cross the rotation of itself and the rotation of inside completes to be adjusted to undesirable, be adjusted to fall to work after meeting the requirements Make platform, it also includes chassis 201, the first front casing rotating disk 202, the second front casing rotating disk 203 and detection components 204, specifically, chassis 201 is fixed carrier, it is provided with central point S, and the first front casing rotating disk 202 The upper surface on chassis 201 is arranged on, and can be freely rotatable using the central point S on chassis 201 as the point of rotation, and it is outer before first Shell rotating disk 202, which is located in central point S both sides, is additionally provided with the second front casing rotating disk 203, the second front casing rotating disk 203 are arranged on the inside of the first front casing rotating disk 202, can be while the first front casing rotating disk 202 does central rotation Rotation, i.e. the second front casing rotating disk 203 are carried out not only as the first front casing rotating disk 202 is outside central point S rotations, Rotation is carried out also by the point of rotation of center itself, this two rotary courses can either simultaneously occur, can also independently rotate, Realize to being adjusted in front casing body Y horizontal direction；And second the top of front casing rotating disk 203 be provided with detection components 204, Detection components 204 described herein are sensing device, and preferred as one kind of the present embodiment, it is photoelectric sensor, photoelectric transfer Sensor is that it is first converted into measured change the change of optical signal as the sensor of detecting element using photoelectric cell Change, then further convert optical signals into electric signal by photoelectric cell, photoelectric sensor typically by light source, optical path and The part of photoelectric cell three is constituted, therefore detection components 204 are capable of detecting when the direction of column casing on front casing body Y, current shell body Y It is delivered to by front casing conveying mechanism 102 in the second front casing rotating disk 203, detects front casing body Y's by detection components 204 Current state, realizes and is adjusted to carrying out corresponding rotation after its judgement.

It is front casing conveying mechanism in instrument rotary assembled system described in second of embodiment of the invention as shown in figs. 34 Structural representation, more stablizes to realize in course of conveying and improves efficiency, in the present embodiment with the first embodiment Difference is：Front casing conveying mechanism 102 also includes front casing delivery track 102a, conveyer belt 102b and elastic bumps Part 102c, specifically, wherein：Front casing conveying mechanism 102 also include set be connected with front casing vibration component 101 it is preceding outside Shell delivery track 102a, its track width is slightly larger than front casing body Y diameter, and front casing body Y is entered before this after preliminary screening In shell delivery track 102a, front casing delivery track 102a track end is connected with front casing screening unit 200, front casing Delivery track 102a track upper end is provided with conveyer belt 102b, and conveyer belt is also known as conveyer belt, is to be used to rise in belt conveyor Carrying and the rubber and fiber, metal composite goods for transporting material effect, or plastics and the compound product of fabric, for example： Rubber conveyer belt, nylon conveyer belt, are preferably rubber conveyer belt as one kind of the present embodiment, and its two ends sets roller member, roller After part is driven by drive component bullet is also disposed with driving conveying belt 102b operating, and conveyer belt 102b belt surface Property projection piece 102c, some elastic bumps part 102c vertical transports directions arrange to a row formed one group, some groups of elastic bumps Part 102c is arranged along conveying direction, is looped around conveyer belt 102b belt surface, and elastic bumps part 102c is preferred in the present embodiment Elastomeric material is made, the certain elasticity having, positioned at conveyer belt 102b lower surfaces elastic bumps part 102c can with it is preceding outer Front casing body Y in shell delivery track 102a tracks is inconsistent, with conveyer belt 102b operating forward, drives front casing body Y It is fed forward, and conveyer belt 102b running speed can be adjusted to suitable size, therefore not only improve in the process automatic The efficiency of assembling, also has conflict power to front casing body Y, its conveying is more stablized.

It is illustrated in figure 5 the whole of front casing screening unit in instrument rotary assembled system described in the third of the invention embodiment Body structural representation, in order to realize the judgement to front casing body Y states, in the present embodiment with second of embodiment difference It is：First front casing rotating disk 202 also includes penetrating groove 202b, extension 202c and targeting port 202d；Specifically, this In embodiment wherein：First front casing rotating disk 202 also includes penetrating groove 202b, extension 202c and targeting port 202d, And the first front casing rotating disk 202 has been dug out in penetrating groove 202b, the present embodiment on central point S two ends are centrosymmetric, Penetrating groove 202b is penetrating for annular, can accommodate the second front casing rotating disk 203, and the diameter of the second front casing rotating disk 203 It is coincide with penetrating groove 202b diameter so that in penetrating groove 202b rotation can occur for the second front casing rotating disk 203, And the bottom edge of the penetrating groove 202b extends internally and is provided with extension 202c, sent out for being supported in penetrating groove 202b The the second front casing rotating disk 203 turned is born from, its marginal portion is supported, and the first front casing rotating disk 202 and central point S Targeting port 202d is additionally provided with apart from farthest one end, targeting port 202d bottom surface is higher than penetrating groove 202b bottom surface, and leads It is slightly larger than front casing body Y diameter to mouth 202d A/F, such current shell body Y is by front casing delivery track When 102a is delivered to end, it can be entered by targeting port 202d in the second front casing rotating disk 203.

The overall structure signal of front casing screening unit in the 4th kind of system of instrument rotary assembled described in embodiment of the invention Figure, in order to realize that the second front casing rotating disk 203 can drive front casing body Y to rotate, in the present embodiment with the third Embodiment difference is：Second front casing rotating disk 203 also include annular penetrating mouth 203a, the penetrating mouth 203b of strip, The penetrating mouth 203c of special type, specifically, in the present embodiment, wherein：Second front casing rotating disk 203 also includes annular penetrating mouth The penetrating mouth 203b of 203a, strip, the penetrating mouth 203c of special type, dig downwards in the center position of the second front casing rotating disk 203 Go out the annular penetrating mouth 203a corresponding with front casing body Y cylinder body shapes, and annular penetrating mouth 203a two ends symmetrical digging again Go out the penetrating mouth 203b of strip being adapted with the column casing on front casing body Y, formed to accommodate under different conditions therebetween Front casing body Y the penetrating mouth 203c of special type, two kinds for column casing towards preceding or column casing after of two states herein, and It is located at the penetrating mouth 203c of the special type downward truncated section in one end in the upper surface of the second front casing rotating disk 203, constitutes chute 203d, chute 203d is corresponding with targeting port 202d, and its floor height is identical with targeting port 202d floor height, its groove Width is slightly larger than front casing body Y diameter, and current shell body Y is delivered to track end by front casing delivery track 102a When, it can be introduced into after targeting port 202d and be directed into chute 203d by targeting port 202d, it is penetrating then to fall into special type It is limited in mouth 203c, and the second front casing rotating disk 203 is arranged in penetrating groove 202b, its marginal portion is extended portion 202c is supported, and the second front casing rotating disk 203 and the first front casing rotating disk 202 may be contained within the upper surface on chassis 201, Therefore supported, just do not fallen out by the upper surface on chassis 201 after front casing body Y is fallen in the penetrating mouth 203c of special type, and this reality Apply and also set up one in example on chassis 201 and drop a mouthful 201b, the form and dimension of mouthful 201b that drops is with the penetrating mouth 203c's of special type Shape size is consistent, and front casing body Y is supported after falling in the penetrating mouth 203c of special type by the upper surface on chassis 201, before second After the front casing rotating disk 202 of shell rotating disk 203 and first is rotated, mouthful 201b that drops is overlapped with the penetrating mouth 203c of special type, So as to which front casing body Y loses the upper surface support on chassis 201, therefore the work of workbench can be fallen to downwards due to Action of Gravity Field Make on position, then rotating into next subsystem assembled automatically by workbench.Further, in the present embodiment In, in order to drive the rotation of the second front casing rotating disk 203 and the first front casing rotating disk 202, front casing screening is single Member 200 also includes the first front casing drive device 201a and the second front casing drive device 202a, specifically, on chassis 201 Central point S lower end is provided with outer before the first front casing drive device 201a, the first front casing drive device 201a driving first The rotation of shell rotating disk 202, the first front casing drive device 201a is power set herein, can be motor or cylinder, work For the present embodiment one kind preferably, the first front casing drive device 201a is motor, and the rotation of the first front casing rotating disk 202 Center is connected with the rotating shaft of motor, so that the rotation of the first front casing rotating disk 202 is driven, and in the first front casing rotating disk The second front casing drive device 202a, the second front casing drive device 202a is additionally provided with 202 and is preferably again motor, its Upper Central Symmetry is arranged at central point S both sides, and is contacted with the second front casing rotating disk 203, driving the second front casing rotation The rotation of disk 203, here, the second front casing drive device 202a machine shaft outer surface are provided with gear, and before second Shell rotating disk 203 is also provided with gear on side, and the two realizes the second front casing of driving by the ratcheting serial verb construction of gear The rotation of rotating disk 203.

Operation principle：The front casing body Y in it is vibrated to front casing delivery track by front casing vibration component 101 first On 102a, it is accelerated to be delivered to track end by the elastic bumps part 102c on conveyer belt 102b, by the targeting port contacted 202d enters in chute 203d, is delivered into the second front casing rotating disk 203, now examines by elastic bumps part 102c again afterwards The column casing surveyed in the penetrating mouth 203b of the detection strip of component 204 whether there is, so as to judge the direction of column casing, judges whether it accords with this Close and require, if meeting the requirements, the first front casing rotating disk 202 is rotated, and the second front casing rotating disk 203 is not rotated, so that Fall in front casing body Y to mouthful 201b that drops；If undesirable, the first front casing rotating disk 202 is rotated, while before second Shell rotating disk 203 also occurs after rotation, falls in front casing body Y to mouthful 201b that drops, and completes the process entirely screened.

Sheet glass is automatic in the instrument rotary assembled system as described in Figure 10~17 show the 4th kind of embodiment of the invention Package system structural representation, in the present embodiment, specifically, sheet glass X is the slide for the cake shape being made up of glass, One layer of opaque film is posted on the upper surface both sides of slide, and the film is not pasted in the centre position of slide, forms one Square display module, the display module can show the temperature of anti-explosion digital thermometer measure, therefore, it is possible to by posting Opaque coating is detected to it, distinguishes its positive and negative；And the subsystem also includes sheet glass supply unit 300, sheet glass and examined Unit 400 and sheet glass screening unit 500 are surveyed, sheet glass X is delivered to sheet glass detection unit by sheet glass supply unit 300 400 detected after push in sheet glass screening unit 500, by carrying out vertical direction in sheet glass screening unit 500 On upset so that it is sheet glass X under the state of meeting the requirements to adjust it, the rotation on by level is transported to work On platform, into next assembling subsystem, specifically, sheet glass supply unit 300 also includes the He of sheet glass vibration component 301 Sheet glass conveying mechanism 302, sheet glass vibration component 301 is in the present embodiment vibrating barrel, by the sheet glass X in it by shaking Dynamic mode is delivered on sheet glass conveying mechanism 302；In the present embodiment, wherein：Sheet glass conveying mechanism 302 also includes glass Glass piece delivery track 302a, limiting plate 302b and push opening 302c, further, sheet glass delivery track 302a initiating terminals with Sheet glass vibration component 301 is connected, and its end is provided with limiting plate 302b, the glass conveyed to sheet glass delivery track 302a It is provided with the spacing positions at limiting plate 302b of piece X, and the orbit sidewall of sheet glass delivery track 302a ends both sides The push opening 302c vertical with limiting plate 302b, push opening 302c size and the diameter of sheet glass X circular pieces Identical, sheet glass X can be pushed component 402 by sheet glass and be carried out by pushing in opening 302c push-in sheet glass detection unit 400 Detection；Push opening 302c to connect relatively with sheet glass detection unit 400, sheet glass detection unit 400 also includes sheet glass and detected Component 401 and sheet glass push component 402, and sheet glass pushes the sheet glass push that component 402 will stay on conveying mechanism 302 The detection of positive and negative is carried out into sheet glass detection components 401, detection components 401 are docked with sheet glass screening unit 500, work as inspection Survey after the completion of component 401 detects sheet glass X and sheet glass screening unit 500 is pushed it into by sheet glass push component 402 again Middle progress upset adjustment；Sheet glass, which pushes component 402, also includes the first sheet glass push component 402a and the push of the second sheet glass Component 402b, the sheet glass X that the first sheet glass push component 402a will be delivered at limiting plate 302b, which is pushed, to be put to detection components Detected in 401, the second sheet glass pushes component 402b and released the sheet glass X after detection is completed in detection components 401；And First sheet glass, which pushes component 402a, also to be included being arranged at the first sheet glass pushing plate 402a-1 pushed at opening 302c, and this One sheet glass pushing plate 402a-1 enters from the one end for pushing opening 302c, and the sheet glass X at limiting plate 302b is passed through The other end for pushing opening 302c is released, and pushes opening 302c other end docking sheet glass detection unit 400, and with the The first sheet glass drive device 402a-2 that one sheet glass pushing plate 402a-1 is connected；Second sheet glass pushes component 402b also Including be arranged at the top of the detection components 401 the second sheet glass pushing plate 402b-1 and with the second sheet glass pushing plate The second sheet glass drive device 402b-2 that 402b-1 is connected, and the first sheet glass drive device 402a-2 and the second sheet glass Drive device 402b-2 is power set, preferably cylinder in the present embodiment；Detection components 401 also include arc bend 403, light Source part 404 and light sensing component 405, sheet glass detection components 401 are cube structure, and it, which is arranged at, pushes the one of opening 302c Side, and sheet glass detection components 401 are provided with detection entrance 401a, the detection entrance on the side for pushing opening 302c 401a dock with pushing opening 302c, and sheet glass X, which can be entered by pushing opening 302c, to be detected in entrance 401a, and along detect into Mouthful 401a is parallel into cube structure to dig out a passage 401b, and passage 401b channel width is corresponding with sheet glass X diameter, There is the effect for being oriented to conveying to sheet glass X, passage 401b, which is extended on adjacent side, sets detection outlet 401c, and glass The upper surface of piece detection components 401 is provided with the chute 401d connected with passage 401b, chute 401d one end and the second glass Piece pushing plate 402b-1 is docked, and the second sheet glass pushing plate 402b-1 is by energy after the second sheet glass drive device 402b-2 drivings It is enough to be slided in chute 401d, and passage 401b is connected with chute 401d, the second sheet glass pushing plate 402b-1 and sheet glass X is supported Touch, so as to promote sheet glass X in passage 401b slip；Arc bend 403 is additionally provided with passage 402, this arc bend 403 Radian it is equal with sheet glass X circular arc, therefore sheet glass X is pushed in passage 401b by the first sheet glass pushing plate 402a-1 Afterwards, arc bend 403 is rested on, it fits because radian is equal with its edge, and the top of arc bend 403 has along its arc Direction and some light source components 404 that be arranged in parallel are spent, the light source component 404 equally has the radian same with arc bend 403, is formed Coverage rate for sheet glass X the area of a circle a quarter, can all include opaque because sheet glass X any a quarter goes out Film, therefore when sheet glass X be located at some light source components 404 lower section when, some light source components 404 can be irradiated to sheet glass X's On a quarter area, and light sensing component 405 is set on the adjacent two sides of the light source component 404, if as sheet glass X For post opaque coating it is face-up when, just having the light of the irradiation of light source component 404 can not penetrate, and be arranged at both sides light sensing component 405 would not sense light source, if if as sheet glass X for post opaque coating it is face-down when, the light that light source component 404 is irradiated will be complete Portion is penetrated, and light source is can't detect there will be no light sensing component 405, so as to detect sheet glass X state by such a mode, is examined The second sheet glass pushing plate 402b-1 pushes to sheet glass X in sheet glass screening unit 500 after survey has judged；Sheet glass is screened Unit 500 also includes horizontal rotation component 501, vertical upset component 502 and pushes component 503, and horizontal rotation component 501 is surrounded Center of turntable rotates, and vertical upset component 502 is symmetricly set in the two of horizontal rotation component 501 centered on center of turntable End；Sheet glass pushes component and pushes to the sheet glass X after the completion of detection in vertical upset component 502, passes through upset group vertically The upset screening of part 502 obtains the sheet glass X under the state of meeting the requirements；The rotation for horizontally rotating component 501 will upset group vertically Above the band of part 502 to workbench, push component 503 and sheet glass X is pushed into the process for falling on workbench, detecting herein In, if detecting to meet the requirements, vertical upset component 502 is not overturn, the rotation in horizontal rotation component 501 occurred level direction Turn, if detecting undesirable, vertical upset component 502 is first overturn, after sheet glass X upsets, horizontal rotation group The rotation in the occurred level direction of part 501, the sheet glass X after adjustment is brought to above workbench and dropped.

In the present embodiment, wherein：Horizontally rotating component 501 also includes horizontal rotating disc 501a and extension 501b, water Rotating disc 501a center of turntable is provided with the 3rd sheet glass drive device 501a-1 and drives its rotation, and extension 501b is set It is centrosymmetric setting, the 3rd sheet glass drive device on the relative sides of horizontal rotating disc 501a, and on center of turntable When 501a-1 driving horizontal rotating discs 501a is rotated, synchronous rotation occurs for extension 501b, and vertical upset component 502 also includes Roll-over table 502a, it is connected with extension 501b, and the 4th sheet glass drive device 501b-1, this reality are provided with extension 501b Apply in example, the 3rd sheet glass drive device 501a-1 and the 4th preferred motors of sheet glass drive device 501b-1, roll-over table 502a is connected with the 4th sheet glass drive device 501b-1 machine shaft, the 4th sheet glass drive device 501b-1 driving upsets Platform 502a in the vertical directions are overturn, and as the sheet glass X for detecting to fall short of specifications, are carried out the upset of vertical direction； And second entrance 502a-1 is provided with side relative with detection outlet 401c roll-over table 502a, when sheet glass X completes to detect It is pushed into afterwards by the second sheet glass pushing plate 402b-1 by detection outlet 401c in second entrance 502a-1, and roll-over table 502a Centre is provided with sheet glass and dropped a mouthful 502a-2, and second entrance 502a-1 and sheet glass mouthful 502a-2 that drops are connected, and sheet glass falls Fall mouthful 502a-2 upper surfaces and second entrance 502a-1 connectivity parts be additionally provided with push pedal opening 502a-4, push pedal opening 502a-4 with Second sheet glass pushing plate 402b-1 correspondences, sheet glass X push-in sheet glass is dropped and is clamped in mouthful 502a-2, therefore is pushed to Second entrance 502a-1 sheet glass X can fall into sheet glass and drop in mouthful 502a-2, and sheet glass drops a mouthful 502a- in the present embodiment Elastic clamping pieces 502a-3 is also set up on 2 edge of opening, elastic clamping pieces 502a-3 preferred rubber materials are made, it is by glass Glass piece X is clamped in sheet glass and dropped in mouthful 502a-2, does not allow it to fall down, so that in driving horizontal rotating disc 501a rotation, by glass Glass piece X is horizontally rotated to the top of workbench, is pushed by pushing component 503 and dropped, and pushing component 503 also includes post The lower lock block 503a of body structure, lower lock block 503a are connected with the 5th sheet glass drive device 503b, and it drives lower lock block 503a Move downwardly to sheet glass to drop in mouthful 502a-2, at this moment lower lock block 503a pushes sheet glass X, because it is under pressure, clamping The elastic clamping pieces 502a-3 that sheet glass X edges are set will be deformed upon, so that sheet glass X is pushed into the workbench that drops On station.

Its main body includes the first pushing piece in the one embodiment provided for conveying assembly 600 of the present invention, the embodiment 610 and first transmission parts 620, first pushing piece 610 includes including first on the first scraping wings 611, the first scraping wings 611 Rack 611a, and the first rack 611a for positive helical teeth, i.e. rack incline direction towards the right side.

First transmission parts 620 include object storage component 621 and driving member 622, and driving member 622 includes first gear 622a and second Gear 622b, and first gear 622a and second gear 622b be mutually perpendicular to, i.e., the direction of rotation of two gears is vertical, for example, One is horizontally oriented rotation, and another is rotated along vertical direction.First gear 622a passes through connecting rod and object storage component 621 Connect, and be parallel to each other with object storage component 621, second gear 622b is arranged on object storage component 621, the driving wheel with object storage component 621 It is connected, linkage is realized in first gear 622a and second gear 622b intermeshings.Wherein, first gear 622a and the first tooth Bar 611a is meshed, it is preferred that the first scraping wings 611 is set to " U " type, when first gear 622a and the first rack 611a are mutual During effect, because to be empty in the middle of the first scraping wings 611, first gear 622a and during the first rack 611a engagements, The flexible performance of first scraping wings 611, enhances the service life of the first scraping wings 611.First scraping wings 611 is to object storage component When 621 directions are moved, the first rack 611a driving first gear 622a, first gear 622a driving second gear 622b motions, Second gear 622b drives driving wheel, realizes the transmission of the first transmission parts 620.

In the present embodiment, driving member 622 also includes driven member 622e and conveyer belt 622c, and conveyer belt 622c is provided with Baffle plate 622d.Driven pulley 622e includes the first driven pulley 622e-1 and the second driven pulley 622e-2, and the first driven pulley 622e-1 It is gear with the second driven pulley 622e-2, and is intermeshed.After driving wheel is driven by second gear 622b, the first driven pulley 622e-1 is also moved therewith, because the first driven pulley 622e-1 and the second driven pulley 622e-2 intermeshings, second is driven Wheel 622e-2 is also moved therewith.Conveyer belt 622c include the first conveyer belt 622c-1 and the second conveyer belt 622c-2, when first from When driving wheel 622e-1 and the second driven pulley 622e-2 drive the first conveyer belt 622c-1 and the second conveyer belt 622c-2 motions respectively, Because being the direction phase of the linkage that gear engagement is produced, the first conveyer belt 622c-1 and the second conveyer belt 622c-2 motions Instead.Baffle plate 622d includes first baffle 622d-1 and second baffle 622d-2, per adjacent first baffle 622d-1 and second gear In one plane, first baffle 622d-1 is arranged on the first conveyer belt 622c-1 to plate 622d-2, and second baffle 622d-2 is set In the second conveyer belt 622c-2, because the first conveyer belt 622c-1 and the second conveyer belt 622c-2 directions of motion are on the contrary, former Second gear on first first baffle 622d-1 on the first conveyer belt 622c-1, and the second conveyer belt 622c-2 adjacent thereto After exercise, both are still adjacent and in one plane by plate 622d-2.In adjacent first baffle 622d-1 and second baffle Material is placed between 622d-2, if the first conveyer belt 622c-1 first first baffle 622d-1 and the second conveyer belt 622c-2 First second baffle 622d-2 between formed for first receiving space M, second first of the first conveyer belt 622c-1 Formed between baffle plate 622d-1 and the second conveyer belt 622c-2 second second baffle 622d-2 for the second receiving space N, In the present embodiment, first receiving space M is empty, i.e., do not place material.

In the present embodiment, the first rack 611a is positive helical teeth, and the first rack 611a does work in the first scraping wings 611 Distance is equal to the distance between upper two adjacent first baffle 622d-1 of the first conveyer belt 622c-1, or equal to the second transmission With the distance between upper two adjacent second baffle 622d-2 of 622c-2." acting " mentioned here refers to, the first rack 611a and first gear 622a are meshed, if the first rack 611a and first gear 622a are not intermeshed, the first rack 611a just not works done.So, when the first scraping wings 611 is pushed toward the direction of object storage component 621, the first rack 611a and first gear 622a is meshed, and starts acting, now, and the first rack 611a drivings first gear 622a, first gear 622a drive the second tooth 622b motions are taken turns, second gear 622b drives driving wheel, after driving wheel is driven by second gear 622b, the first driven pulley 622e-1 is also moved therewith, because the first driven pulley 622e-1 and the second driven pulley 622e-2 intermeshings, second is driven Wheel 622e-2 is also moved therewith, realizes the transmission of the first transmission parts 620, now the material in the second receiving space N is down pushed Instead of first receiving space M position.When material falls on first receiving space M under the second receiving space N position, first Rack 611a completes to do work in the first scraping wings 611, allows it to complete the taken mode of acting, can set the first scraping wings 611 carry the first rack 611a rack length, the first rack 611a mono- can also be carried on the first scraping wings 611 by setting The length at end, other embodiment is not illustrated one by one, but within the scope of the present invention.Continue to press on the first pusher Plate 611, now the first rack 611a and first gear 622a on the first scraping wings 611 do not do work, i.e., both no longer engagement and Linkage is not produced, therefore promotes the first scraping wings 611, and the material being now positioned in first receiving space M is pushed out.Then One scraping wings 611 is moved to the opposite direction where object storage component 621, the first scraping wings 611 is pulled out, because in the present embodiment In the first rack 611a be positive helical teeth, so during counter motion, the first rack 611a is not engaged with first gear 622a, therefore Linkage is not produced.When pushing again, successively so.In the present embodiment, by promoting the first scraping wings 611 to make the second receiving empty Between material in N down push behind the position instead of first receiving space M, continuation is pushed forward, material is accommodated from second empty Between push out in N after, then the first scraping wings 611 moved toward away from the direction of object storage component 621, now because the first rack 611a is Positive helical teeth, still will not now engage between the first rack 611a and first gear 622a and not produce linkage.

Second embodiment of conveying assembly 600 of the present invention, the embodiment, which is different from one embodiment, is：First tooth Bar 611a is backslash tooth, i.e. teeth directional towards a left side.Specific embodiment is：When the first scraping wings 611 is transported to the place direction of object storage component 621 When dynamic, because the first rack 611a is backslash tooth, therefore the first rack 611a does not drive first gear 622a to move, the first scraping wings 611 push forward straight, until after material is pushed out, then allow the first scraping wings 611 to be transported to away from the direction of object storage component 621 It is dynamic, because the first rack 611a is backslash tooth, now the first rack 611a and first gear on the first scraping wings 611 622a is engaged, so as to produce linkage.First rack 611a drives first gear 622a, first gear 622a to drive the second tooth 622b motions are taken turns, second gear 622b drives driving wheel, after driving wheel is driven by second gear 622b, the first driven pulley 622e-1 is also moved therewith, because the first driven pulley 622e-1 and the second driven pulley 622e-2 intermeshings, second is driven Wheel 622e-2 is also moved therewith, and now the material in the second receiving space N down pushes the position instead of first receiving space M. So in the present embodiment, when the first scraping wings 611 is pushed forward, releasing material.When first scraping wings 611 is toward post-tensioning, upper one Sheaf space realizes moving down for material toward declining.

3rd embodiment of conveying assembly 600 of the present invention, the embodiment is different from first or second embodiment It is that in the embodiment, referring to Figure 18, the first pushing piece 610 includes the first actuator 613, and one end of the first actuator 613 is provided with 3rd gear 613a, the first scraping wings 611 also includes the second rack 611b, the second rack 611b and the 3rd gear 613a and matched Close.3rd gear 613a rotations are driven by the first actuator 613, the 3rd gear 613a is engaged with the second rack 611b so that First scraping wings 611 is pushed forward, and then the first rack 611a is also moved therewith.If the first rack 611a is positive helical teeth (rack Teeth directional towards the right side), the first rack 611a driving first gear 622a, first gear 622a driving second gear 622b motions, the Two gear 622b drive driving wheel, and after driving wheel is driven by second gear 622b, the first driven pulley 622e-1 is also moved therewith, Because the first driven pulley 622e-1 and the second driven pulley 622e-2 intermeshings, the second driven pulley 622e-2 is also transported therewith Dynamic, the material in the second receiving space N down pushes the position instead of first receiving space M.And continue to push the first scraping wings 611, it is necessary to which explanation, now the first rack 611a is no longer intermeshed with first gear 622a, therefore pushes the first scraping wings When 611, material is simply pushed, the function that material declines is not realized.After material is pushed out from the second receiving space N, then will First scraping wings 611 is moved toward away from the direction of object storage component 621, now between the first rack 611a and first gear 622a still not It can engage and not produce linkage, the first scraping wings 611 returns to original state position.If the first rack 611a is backslash tooth (rack Teeth directional towards a left side), when the first scraping wings 611 is pushed forward, the first rack 611a and first gear 622a are not engaged, therefore at this In motion, the action for releasing material is only done.When first scraping wings 611 is toward post-tensioning, the first rack 611a driving first gear 622a, First gear 622a driving second gear 622b motions, second gear 622b driving driving wheels, when driving wheel is by second gear After 622b drivings, the first driven pulley 622e-1 is also moved therewith, because the first driven pulley 622e-1 and the second driven pulley 622e-2 Intermeshing, so the second driven pulley 622e-2 is also moved therewith, the material in the second receiving space N, which is down pushed, replaces first Receiving space M position, realizes moving down for material.

Reference picture 25 and Figure 26, device is assembled present invention also offers one kind, and the main body of the device includes conveying assembly 600 With blanking component 700, conveying assembly 600 includes the first pushing piece 610 and the first transmission parts 620, and the first pushing piece 610 includes the Include the first rack 611a on one scraping wings 611, the first scraping wings 611.First transmission parts 620 include object storage component 621 and transmission Part 622, driving member 622 includes first gear 622a and second gear 622b.First gear 622a passes through connecting rod and object storage component 621 connect, and are parallel to each other with object storage component 621, and second gear 622b is arranged on object storage component 621, the active with object storage component 621 Wheel is connected, first gear 622a and second gear 622b intermeshings, realizes linkage.First scraping wings 611 is to object storage component 621 When place direction is moved, the first rack 611a driving first gear 622a, first gear 622a driving second gear 622b motions, Second gear 622b drives driving wheel, realizes the transmission of the first transmission parts 620.Driving member 622 also includes driven member 622e and biography Band 622c is sent, and conveyer belt 622c is provided with baffle plate 622d.It is driven that driven pulley 622e includes the first driven pulley 622e-1 and second 622e-2 is taken turns, and the first driven pulley 622e-1 and the second driven pulley 622e-2 are gear, and be intermeshed.When driving wheel is by After two gear 622b drivings, the first driven pulley 622e-1 is also moved therewith, because the first driven pulley 622e-1 and the second driven pulley 622e-2 is intermeshed, so the second driven pulley 622e-2 is also moved therewith.Conveyer belt 622c includes the first conveyer belt 622c-1 With the second conveyer belt 622c-2, when the first driven pulley 622e-1 and the second driven pulley 622e-2 drives the first conveyer belt respectively During 622c-1 and the second conveyer belt 622c-2 motions, because being the linkage that gear engagement is produced, the first conveyer belt 622c-1 With the second conveyer belt 622c-2 move it is in opposite direction.Baffle plate 622d includes first baffle 622d-1 and second baffle 622d-2, In one plane, first baffle 622d-1 is arranged on the first conveyer belt by first baffle 622d-1 and second baffle 622d-2 622c-1, second baffle 622d-2 are arranged on the second conveyer belt 622c-2, because the first conveyer belt 622c-1 and the second conveyer belt The 622c-2 directions of motion are on the contrary, so originally first baffle 622d-1 on the first conveyer belt 622c-1, and adjacent thereto After exercise, both are still adjacent and in one plane by second baffle 622d-2 on second conveyer belt 622c-2.Adjacent First baffle 622d-1 and second baffle 622d-2 between place material, if the first conveyer belt 622c-1 first first gear Formed between plate 622d-1 and the second conveyer belt 622c-2 first second baffle 622d-2 for first receiving space M, One conveyer belt 622c-1 second first baffle 622d-1 and the second conveyer belt 622c-2 second second baffle 622d-2 Between formed for the second receiving space N.If the first rack 611a is positive helical teeth (teeth directional of rack towards the right side), the first rack 611a First gear 622a is driven, first gear 622a driving second gear 622b motions, second gear 622b driving driving wheels work as master After driving wheel is driven by second gear 622b, the first driven pulley 622e-1 is also moved therewith, because the first driven pulley 622e-1 and the Two driven pulley 622e-2 are intermeshed, so the second driven pulley 622e-2 is also moved therewith, the material in the second receiving space N is past It is lower to push the position for replacing first receiving space M.And continue to push the first scraping wings 611, it is necessary to explanation, now the first tooth Bar 611a is no longer intermeshed with first gear 622a, therefore when pushing the first scraping wings 611, is simply pushed material, do not realized thing Expect the function of declining.After material is pushed out from the second receiving space N, then by the first scraping wings 611 toward away from object storage component 621 Direction is moved, and still will not now be engaged between the first rack 611a and first gear 622a and not produced linkage, the first pusher Plate 611 returns to original state position.If the first rack 611a is backslash tooth (teeth directional of rack towards a left side), the first scraping wings 611 is past During preceding push, the first rack 611a and first gear 622a are not engaged, therefore in this motion, only do the action for releasing material. When first scraping wings 611 is toward post-tensioning, the first rack 611a driving first gear 622a, first gear 622a driving second gears 622b is moved, second gear 622b driving driving wheels, after driving wheel is driven by second gear 622b, the first driven pulley 622e-1 Also move therewith, because the first driven pulley 622e-1 and the second driven pulley 622e-2 intermeshings, the second driven pulley 622e- 2 also move therewith, and the material in the second receiving space N down pushes the position instead of first receiving space M, realizes under material Move.

Reference picture 25, blanking component 700 includes the first hole 704, and material is pushed to blanking component by the first scraping wings 611 At 700 the first hole 704, material drops at the first hole 704.But if when material is pushed at the first hole 704, directly allowing If material falls, the unstable of whereabouts, or material can be caused to be stuck at the first hole 704.

Preferably, blanking component 700 also includes moving member 701, moving member 701 includes the first movable plate 701a and second and moved Dynamic plate 701b, and blanking component 700 is provided with the 4th groove 702 and the 5th groove 703, the 4th groove 702 and the 5th groove 703 are arranged at On blanking component 700, and the 4th groove 702 ensures the first movable plate 701a in the top opening and closing back and forth of the first hole 704, the 5th groove 703 Ensure the second movable plate 701b in the top opening and closing back and forth of the first hole 704.

Preferably, the first movable plate 701a end is provided with the 4th gear 701a-1, the second movable plate 701b end is set There are the 5th gear 701b-1, and the 4th gear 701a-1 and the 5th gear 701b-1 intermeshings.4th gear 701a-1's is upper Side second drives 701a-1 ', drives the 4th gear 701a-1 rotations by the second driving 701a-1 ', and drive the 5th gear 701b-1。

It is preferred that, assembling device also includes the first revolving part 800, and the first revolving part 800 is provided with multiple stations, Mei Gegong Conveying assembly 600 is placed on position, the first revolving part 800 is removed by rotation successively transmission conveying assembly 600 so as to save workman The time of fortune, only illustrate 5 stations in fig. 26, but be not limited only to 5, it differs one for example, but existing with quantity In protection scope of the present invention.

Reference picture 28, one embodiment that device is provided is assembled for bonnet of the present invention, and the main body of the device includes the 3rd The push unit 1000 of vibration unit 900 and second, wherein, the 3rd vibration unit 900 includes the 3rd vibrating member 901 and the 3rd extension Guide rod 902, the 3rd vibrating member 901 (vibrating disk) can produce whirling vibration power so that bonnet is orderly successively on material road 901a Motion.Principle is：The bottom cavity of 3rd vibrating member 901 (vibrating disk) is the accommodating chamber for including certain closing space, accommodating chamber Main electromagnet and main vibration spring are inside provided with, in one embodiment, main vibration spring can be flat spring, and main vibration spring is tilted The bottom and top of accommodating chamber are connected, enables to the 3rd vibrating member 901 (vibrating disk) to produce whirling vibration power, thus simultaneously Generate a twisting vibration and a vertical linearity vibration on the vertical axis.In this embodiment, it is main when switching on power Electromagnet produces suction therewith, in the presence of electromagnetic attraction, the 3rd vibrating member 901 (vibrating disk) deviate equipoise and Movement, then makees synchronous torsion around central axis, while main vibration spring produces elastic deformation, when electromagnetic attraction change is small, the 3rd Vibrating member 901 (vibrating disk) starts the change direction of motion drastically, and surmounts initial equipoise and reach a certain upper limit, Because main vibration spring there are enough elastic deformation energy, so it is repeated up and down, is formed high frequency micro breadth oscillation. The result of high frequency micro breadth oscillation produced by 3rd vibrating member 901 (vibrating disk), makes and the close phase of the 3rd vibrating member 901 (vibrating disk) The each points of material road 901a even in addition to central axis in itself carry out high all along respective a bit of spatially spiral line tracking Frequency micro breadth oscillation.During bonnet is conveyed along material road 901a, the unification mechanism on material road 901a makes part zero Part forms unified posture, due to decrease speed quickly, so bonnet can be floated in the air, under gravity, falls into material Road 901a bottoms are delivered up along material road 901a spirals again, automatic orientation arrangement are carried out, finally one by one by being arranged at thing Material road 901a end discharge, and it is delivered to the 3rd extension guide rod 902.3rd extension one end of guide rod 902 and the 3rd vibrating member 901 The end of material road 901a in (vibrating disk) is connected, and material by the 3rd vibrating member 901 and extends guide rod 902 along the 3rd Outwards conveying.Second push unit 1000 includes the second pushing piece 1010, and the second pushing piece 1010 is arranged on the 3rd extension guide rod 902 side, the position where it is vertical with the position where the 3rd extension guide rod 902.

Preferably, the 3rd extension guide rod 902 includes the first breach m, the first breach m causes the second pushing piece 1010 and the 3rd Extension guide rod 902 is connected, and when the 3rd extension guide rod 902 promotes material to travel forward, material is along the second pushing piece 1010 Direction motion (changing the motion path of material script, be changed to move with orthogonal path before).It is preferred that, second Pushing piece 1010 includes the second scraping wings 1011 and the 3rd actuator 1012, and the second scraping wings is driven by the 3rd actuator 1012 1011 motions.3rd actuator 1012 can be electrically driven, can make electromagnetic drive or driven by power, pass through Three actuators 1012 drive the second scraping wings 1011 to move, and realize integrated automation, save substantial amounts of labour and work work The time cost of people.

Reference picture 29, second embodiment that device is provided is assembled for bonnet of the present invention, and the embodiment is different from first Embodiment is：Second push unit 1000 also includes lower materials and parts 1020, and lower materials and parts 1020 are connected with the 3rd extension guide rod 902 Connect, it includes the second hole 1021, and the second hole 1021 is arranged on the center of lower materials and parts 1020, make lower materials and parts 1020 hollow and make thing Material is fallen by the second hole 1021.Specific embodiment：3rd extension guide rod 902 also includes the second breach n, and the second breach n makes Materials and parts 1020 must be descended to extend guide rod 902 with the 3rd to be connected, material falls into material road 901a after the vibration of the 3rd vibrating member 901, Bottom is delivered up along material road 901a spirals again, automatic orientation arrangement is carried out, finally one by one by being arranged at material road 901a end discharge, and it is delivered to the 3rd extension guide rod 902.At the first breach m of the material by the 3rd extension guide rod 902, 3rd actuator 1012 drives the second scraping wings 1011 to travel forward, it is necessary to illustrate, the 3rd actuator 1012 is pushed away with second The direction where direction and the 3rd extension guide rod 902 where flitch 1011 is mutually perpendicular to, and the second scraping wings 1011 pushes away material At the second breach n for delivering to the 3rd extension guide rod 902, and because the second breach n makes the 3rd extension guide rod 902 and lower materials and parts 1020 It is connected, so material can move to lower materials and parts 1020 along the direction of the second pushing piece 1010.When material delivers to lower materials and parts After 1020, material position to be assembled is dropped to by the second hole 1021, bonnet assembling is completed.

Reference picture 30, the 3rd embodiment that device is provided is assembled for bonnet of the present invention, and the embodiment is different from second Embodiment is：Lower materials and parts 1020 also include the second groove 1022 and the 3rd groove 1023.Second groove 1022 and the 3rd groove 1023 are set On lower materials and parts 1020, and both are separately positioned in the opposite of lower materials and parts 1020, and in the same plane.Second groove 1022 With the 3rd groove 1023 equivalent to the face that the top surfaces of one and lower materials and parts 1020 is parallel to each other, and lower materials and parts 1020 are intersecting, shape Into two grooves.

Specifically, the main body of the device includes the 3rd vibration unit 900 and the second push unit 1000, wherein, the 3rd shakes Moving cell 900 includes the 3rd vibrating member 901 and the 3rd extension guide rod 902, and the 3rd vibrating member 901 (vibrating disk) can produce rotation Vibration force causes bonnet ordered movement successively on material road 901a.3rd extension one end of guide rod 902 and the 3rd vibrating member 901 The end of material road 901a in (vibrating disk) is connected, and material by the 3rd vibrating member 901 and extends guide rod 902 along the 3rd Outwards conveying.Second push unit 1000 includes the second pushing piece 1010, and the second pushing piece 1010 is arranged on the 3rd extension guide rod 902 side, the position where it is vertical with the position where the 3rd extension guide rod 902.

It is preferred that, the 3rd extension guide rod 902 includes the first breach m and the second breach n, and the first breach m causes the second push Part 1010 is connected with the 3rd extension guide rod 902, when the 3rd extension guide rod 902 promotes material to travel forward, and material is along the The direction motion of two pushing pieces 1010 (changes the motion path of material script, is changed to transport with orthogonal path before It is dynamic).Second breach n causes lower materials and parts 1020 to extend guide rod 902 with the 3rd and be connected.

Material falls into material road 901a after the vibration of the 3rd vibrating member 901, bottom by again along material road 901a spirals to Upper conveying, carries out automatic orientation arrangement, is finally discharged one by one from material road 901a end, and is delivered to the 3rd extension guide rod 902.At the first breach m of the material by the 3rd extension guide rod 902, the 3rd actuator 1012 drives the second scraping wings 1011 forward Motion is, it is necessary to which direction and the 3rd where explanation, the 3rd actuator 1012 and the second scraping wings 1011 extend the institute of guide rod 902 Direction be mutually perpendicular to, the second scraping wings 1011 by material push to the 3rd extension guide rod 902 the second breach n at, and because The 3rd extension guide rod 902 is set to be connected with lower materials and parts 1020 for the second breach n, so material can be along the second pushing piece 1010 Direction moves to lower materials and parts 1020.After material delivers to lower materials and parts 1020, material is dropped to by the second hole 1021 to be assembled Position, completes bonnet assembling.

Lower materials and parts 1020 also include the second groove 1022 and the 3rd groove 1023.Second groove 1022 and the 3rd groove 1023 are arranged on down On materials and parts 1020, and both are separately positioned in the opposite of lower materials and parts 1020, and in the same plane.Second push unit 1000 also include third baffle 1030, and third baffle 1030 is by the second groove 1022 and the 3rd groove 1023, with the lower phase of materials and parts 1020 Hand over, and block the second hole 1021, material is pushed to after lower materials and parts 1020, is shelved in third baffle 1030, when confirmation material falls After in third baffle 1030, third baffle 1030 is pulled, material is stuck in shape between the hole 1021 of third baffle 1030 and second Into groove in, third baffle 1030 extracts the second groove 1022 out and during three grooves 1023, loses support force below material, and under Fall, fall into region to be assembled, realize that bonnet is assembled.

Figure 27 is the overall applicability structural representation that technical solution of the present invention is applied to the automatic package system of each part of instrument Figure.In one embodiment, described instrument (being described in detail by taking explosion-proof thermometer as an example) is first passed through before assembling instrument The station of canning, front casing supply unit 100 that reference picture includes, front casing screening unit 200, by instrument front casing It is assembled on explosion-proof temperature meter, sheet glass supply unit 300 that reference picture includes, sheet glass detection unit 400, sheet glass sieve Menu member 500, after the assembling for completing apparatus glass piece, at rotary working platform to assembling device station, the conveying in reference picture Component 600, the revolving part 800 of blanking component 700 and first, load after electronic component, again rotary working platform, and rotation is extremely On other stations, bonnet is assembled, is finally rotated to the station of finished product mounted box sub-device, ready-made finished product instrument is loaded into box In son.

It should be noted that the above embodiments are merely illustrative of the technical solutions of the present invention and it is unrestricted, although with reference to preferable The present invention is described in detail embodiment, it will be understood by those within the art that, can be to technology of the invention Scheme is modified or equivalent substitution, and without departing from the spirit and scope of technical solution of the present invention, it all should cover in this hair Among bright right.

Claims (10)

1. a kind of instrument rotary assembled system, it is characterised in that：Including,

Front casing supply unit (100), including front casing vibration component (101) and front casing conveying mechanism (102), it is described preceding outer Shell vibration component (101) by irregular front casing body (Y) by vibrating transportation into the front casing conveying mechanism (102), The acceleration completed by the front casing conveying mechanism (102) to the front casing body (Y) is conveyed；

Front casing screening unit (200), is connected with the front casing conveying mechanism (102), in addition to chassis (201), the bottom Disk (201) upper surface is provided with the first front casing rotating disk (202), and the first front casing rotating disk (202) is with the chassis (201) central point (S) does central rotation, and the first front casing rotating disk (202) is located at the both sides of the central point (S) The second front casing rotating disk (203) is inside additionally provided with, the second front casing rotating disk (203) rotates in first front casing Disk (202) carries out being provided with detection group above rotation, and the second front casing rotating disk (203) while doing central rotation Part (204), the front casing body (Y) is delivered to the second front casing rotating disk by the front casing conveying mechanism (102) (203) in, the current state of the front casing body (Y) is detected by the detection components (204), the screening to it is realized；

Sheet glass supply unit (300), including sheet glass vibration component (301) and sheet glass conveying mechanism (302), the glass Sheet glass (X) in it is vibrated on the sheet glass conveying mechanism (302) by piece vibration component (301)；

Sheet glass detection unit (400), is connected with the sheet glass conveying mechanism (302), including sheet glass detection components (401) Component (402) is pushed with sheet glass, the sheet glass (X) from the sheet glass conveying mechanism (302) is pushed to described Positive and negative detection is carried out in sheet glass detection components (401)；

Sheet glass screening unit (500), is connected with the sheet glass detection unit (400), in addition to horizontal rotation component (501) component (502), is overturn vertically and component (503) is pushed, and the horizontal rotation component (501) rotates around center of turntable, And the vertical upset component (502) is symmetricly set in the horizontal rotation component (501) centered on the center of turntable Two ends；The sheet glass pushes component (402) and the sheet glass (X) after the completion of detection is pushed into the vertical upset component (502) in, the sheet glass (X) under the state of meeting the requirements is obtained by the upset screening of the vertical upset component (502)； It is described horizontal rotation component (501) rotation will it is described it is vertical upset component (502) band to workbench top, it is described to push group The sheet glass (X) is pushed and fallen on the workbench by part (503)；

Conveying assembly (600), including the first pushing piece (610), in addition to the first scraping wings (611), first scraping wings (611) the first rack (611a) is included, and first rack (611a) is helical teeth；

First transmission parts (620), including object storage component (621) and driving member (622), the driving member (622) include first gear (622a) and second gear (622b), and two gears are mutually perpendicular to and are intermeshed, the first gear (622a) with it is described First rack (611a) is meshed, and the second gear (622b) is connected with the driving wheel of the object storage component (621)；

Wherein, during the first scraping wings (611) motion, first rack (611a) drives first gear (622a) fortune Dynamic, the first gear (622a) drives second gear (622b) motion, and the second gear (622b) drives driving wheel, Realize the transmission of the first transmission parts (620)；

Blanking component (700), is connected with the conveying assembly (600), including moving member (701) and the first hole (704), material The first hole (704) place of blanking component (700) is pushed to by the first scraping wings (611), material falls from the first hole (704) Fall, moving member (701) includes the first movable plate (701a) and the second movable plate (701b), and blanking component (700) is provided with the Four grooves (702) and the 5th groove (703), the 4th groove (702) and the 5th groove (703) are arranged on blanking component (700), and the 4th Groove (702) ensures the first movable plate (701a) opening and closing back and forth above the first hole (704), and the 5th groove (703) ensures that second moves Plate (701b) opening and closing back and forth above the first hole (704)；

First revolving part (800), the first revolving part (800) is provided with multiple stations, each station and places conveying assembly (600), the first revolving part (800) passes through rotation successively transmission conveying assembly (600)；

3rd vibration unit (900), including the 3rd vibrating member (901) and the 3rd extension guide rod (902), the 3rd vibrating member (901) it is connected with the described 3rd extension guide rod (902), material is by the 3rd vibrating member (901) and along the described 3rd Extend guide rod (902) outwards to convey；And,

Second push unit (1000), including the second pushing piece (1010), second pushing piece (1010) are arranged on described The side of three extension guide rods (902).

2. instrument rotary assembled system as claimed in claim 1, it is characterised in that：The front casing body (Y) is a bottom surface opening Circular cylinder, formed accommodate inner chamber, and the annular side of cylinder on be provided with opening, along the edge of opening stretch out consolidate Surely there is penetrating column casing, the column casing is connected by the opening of fitting with the receiving inner chamber.

3. instrument rotary assembled system as claimed in claim 1 or 2, it is characterised in that：The front casing conveying mechanism (102) is also Including the front casing delivery track (102a) being connected with the front casing vibration component (101), the front casing delivery track The track width of (102a) is slightly larger than the diameter of the front casing body (Y), and the top of the front casing delivery track (102a) It is additionally provided with the conveyer belt (102b) parallel with the front casing delivery track (102a), the surface of the conveyer belt (102b) The elastic bumps part (102c) of arrangement is provided with, the elastic bumps part (102c) is interior with the front casing delivery track (102a) The front casing body (Y) it is inconsistent, accelerated to push in the front casing screening unit (200).

4. instrument rotary assembled system as claimed in claim 2, it is characterised in that：The central point on the chassis (201) (S) lower end is provided with the first front casing drive device (201a), and the first front casing drive device (201a) driving is described The rotation of first front casing rotating disk (202), and the first front casing rotating disk (202) on be additionally provided with the second front casing Drive device (202a), the second front casing drive device (202a) Central Symmetry is arranged at the central point (S) both sides, And contacted with the second front casing rotating disk (203), drive the rotation of the second front casing rotating disk (203).

5. instrument rotary assembled system as claimed in claim 2, it is characterised in that：The first front casing rotating disk (202) is closed Penetrating groove (202b), the bottom surface side of the penetrating groove (202b) have been dug out in the central point (S) two ends are centrosymmetric Edge, which extends internally, is provided with extension (202c), and the second front casing rotating disk (203) is arranged at the penetrating groove In (202b), supported by the extension (202c), and the first front casing rotating disk (202) and the central point (S) away from Targeting port (202d) is additionally provided with from farthest one end, the bottom surface of the targeting port (202d) is higher than the penetrating groove (202b) Bottom surface, and the targeting port (202d) A/F be slightly larger than the front casing body (Y) diameter.

6. instrument rotary assembled system as claimed in claim 5, it is characterised in that：The second front casing rotating disk (203) Center position digs out the annular penetrating mouth (203a) corresponding with front casing body (Y) cylinder body shape, and the annular is logical The penetrating mouth of strip (203b) being adapted with the column casing is symmetrically dug out at the two ends of saturating mouth (203a), is formed accommodate therebetween The penetrating mouth of special type (203c) of the front casing body (Y) under different conditions, and the second front casing rotating disk (203) is located at The downward truncated section in one end of the penetrating mouth of special type (203c), constitutes chute (203d), and the bottom surface of the chute (203d) is high Degree is identical with the floor height of the targeting port (202d), and the width of its groove is slightly larger than the diameter of the front casing body (Y).

7. instrument rotary assembled system as claimed in claim 6, it is characterised in that：The detection components (204) are symmetricly set in The both sides of the central point (S), and the top of the penetrating mouth of the strip (203b) positioned at higher end, detect the column casing The presence or absence of in the penetrating mouth of the strip (203b), so as to pass through the central rotation of the first front casing rotating disk (202) And the rotation of the second front casing rotating disk (203) completes the screening to the front casing body (Y).

8. instrument rotary assembled system as claimed in claims 6 or 7, it is characterised in that：Away from before described on the chassis (201) The mouth that drops (201b) is additionally provided with the bottom of shell supply unit (100), the mouth that drops (201b) and the special type are penetrating The size shape of mouth (203c) is identical, when the penetrating mouth of the special type (203c) rotation is extremely corresponding up and down with the mouth that drops (201b) During coincidence, the front casing body (Y) is dropped downwards.

9. instrument rotary assembled system as claimed in claim 8, it is characterised in that：The annular mouth that the extension (202c) is formed Diameter be more than or equal to the most long length of mouth (201b) that drops.

10. instrument rotary assembled system as claimed in claim 8, it is characterised in that：The front casing body (Y) complete after screening by The mouth that drops (201b) is fallen on workbench, so that the workbench is rotated to next station.