CN105381964A - Detection system for fuses - Google Patents

Abstract

The invention relates to a detection system for fuses. The detection system is used for detecting the fuses and comprises a feeding device, a pushing device arranged at the rear end of the feeding device, a homocentric-squares-shaped pushing device arranged opposite to the pushing device, a detection table located between the pushing device and the homocentric-squares-shaped pushing device, a first detection device for detecting whether the fuses exist on the detection table or not and detecting whether the fuses are qualified or not, a first diversion device located at the rear end of the detection table, a second diversion device located at the rear end of the first diversion device, and a second detection device for detecting whether the fuses on the second diversion device are qualified or not. The homocentric-squares-shaped pushing device comprises a first rail assembly, a second rail assembly arranged on the first rail assembly, and a push plate arranged on the second rail assembly. The detection table is lower than the push plate. According to the detection system for the fuses, the fuses can be intelligently detected, working efficiency can be easily improved, defective products are reduced, the fuses can be prevented from falling, and the problem of detection omission is avoided.

Description

Fuse detection system

Technical field

The present invention relates to a kind of fuse detection system.

Background technology

Fuse (fuse) is also referred to as current insurance silk, and it is defined as by IEC127 standard " fuse-link (fuse-link) ", and it mainly plays overload protective function.When circuit malfunctions or abnormal time, constantly raise along with electric current, and the electric current raised likely damages some important devices in circuit or valuable device, also likely burns circuit and even causes fire.If correctly settled fuse in circuit, so, fuse will when current anomaly be elevated to certain height and temperature, and electric current is cut off in self fusing, thus plays the effect of protection circuit safe operation.

At present in fuse production process, need to detect fuse before dispatching from the factory, but generally pass through manually to detect, so error rate is higher to the detection of fuse at present, and efficiency is low, in addition, when pushing fuse and detecting, gripper of manipulator is usually adopted to get fuse at present, but by the mode that manipulator captures, due to fuse small volume, so, easily drop in the process of crawl.

Summary of the invention

The object of this invention is to provide a kind of fuse detection system, it can realize intellectualized detection fuse, contributes to the fuse detection system increasing work efficiency and reduce defective products, and can prevent fuse from dropping, and prevents from detecting the problem of omitting.

To achieve these goals, the present invention adopts following technical scheme: a kind of fuse detection system, in order to detect fuse, comprise feed arrangement, be arranged on the material-pulling device of described feed arrangement rear end, the three-back-shaped pusher that relatively described material-pulling device is arranged, monitor station between described material-pulling device and three-back-shaped pusher, detect and whether described monitor station have fuse and detects the first whether qualified checkout gear of fuse, be positioned at the first part flow arrangement of described monitor station rear end, be positioned at the second part flow arrangement of described first part flow arrangement rear end and detect the whether qualified second detection device of fuse on the second part flow arrangement, described fuse is delivered on described material-pulling device by described feed arrangement, fuse is pushed to monitor station by described material-pulling device, described first checkout gear detects that whether the fuse on monitor station is qualified, then by described three-back-shaped pusher, fuse is pushed on described first part flow arrangement, qualified fuse is delivered to described second part flow arrangement according to the testing result of the first checkout gear by described first part flow arrangement, described second part flow arrangement is according to the testing result shunting certified products of second detection device and defective work, described three-back-shaped pusher comprises the first rail assembly, the push pedal being arranged on the second rail assembly on described first rail assembly and being arranged on described second rail assembly, described monitor station is lower than described push pedal.

Further, described first rail assembly comprise extend transversely cross slide way, be fixed on described cross slide way and can movement on described cross slide way cross slide and drive the horizontal actuator of described cross slide movement on cross slide way, described second rail assembly comprise vertically extend vertical guide, be fixed in described vertical guide and can movement in described vertical guide vertical slide and make the vertical actuator of described vertical slide movement in described vertical guide, described push pedal is fixed on vertical slide, and moves with vertical slide.

Further, described material-pulling device comprises the scraping wings promoting fuse movement and the power source driving described scraping wings movement, the longitudinally that described scraping wings has along scraping wings extends and the first side be oppositely arranged and the second side, the end face be oppositely arranged and bottom surface, described scraping wings offers the fixing slot of fuse-positioning, described fixing slot runs through described first side, and described fixing slot runs through described bottom surface, described monitor station is lower than described scraping wings.

Further, described material-pulling device also comprises the detent mechanism of locating described fixing slot position.

Further, described detent mechanism comprises the claw of fixing scraping wings, the keeper fixing described claw and the rotary drive driving described claw relative positioning part to rotate.

Further, described scraping wings offers locating slot, the claw of described detent mechanism can fix in described locating slot.

Further, described locating slot formed to lower recess from the end face of described scraping wings, and described locating slot runs through described first side.

Further, described locating slot is positioned at the inner side of described fixing slot.

Further, described scraping wings is provided with to detect the inductor whether having fuse in fixing slot.

Further, described monitor station comprises holder and is arranged on the running roller on described holder, described running roller extends along the bearing of trend of pay-off, the rotation direction of described running roller is rotate towards the direction of three-back-shaped pusher from material-pulling device, described running roller is two that be arranged in parallel, is formed with the holding tank of locating described fuse between two described running rollers.

By such scheme, the present invention at least has the following advantages: fuse detection system of the present invention can realize intellectualized detection fuse, contribute to the fuse detection system increasing work efficiency and reduce defective products, and can prevent fuse from dropping, prevent from detecting the problem of omitting.

Above-mentioned explanation is only the general introduction of technical solution of the present invention, in order to better understand technological means of the present invention, and can be implemented according to the content of description, coordinates accompanying drawing to be described in detail as follows below with preferred embodiment of the present invention.

Accompanying drawing explanation

Fig. 1 is the part-structure schematic diagram of fuse detection system of the present invention;

Fig. 2 is the part-structure schematic diagram in Fig. 1;

Fig. 3 is the part-structure schematic diagram in Fig. 2;

Fig. 4 is the structural representation of scraping wings in Fig. 3;

Fig. 5 is the structural representation of detent mechanism in Fig. 3;

Fig. 6 is the structural representation shunting base in Fig. 3;

Fig. 7 is the part-structure schematic diagram in Fig. 2;

Fig. 8 is the structural representation of the second part flow arrangement in Fig. 7;

Fig. 9 is the structural representation shunting pedestal in Fig. 8.

Detailed description of the invention

Below in conjunction with drawings and Examples, the specific embodiment of the present invention is described in further detail.Following examples for illustration of the present invention, but are not used for limiting the scope of the invention.

See Fig. 1 to Fig. 9, whether a kind of fuse detection system described in a preferred embodiment of the present invention is qualified in order to detect fuse (not shown), and shunts qualified fuse and underproof fuse.This fuse detection system comprises feed arrangement 10, be arranged on the material-pulling device 20 of described feed arrangement 10 rear end, the three-back-shaped pusher 30 that relatively described material-pulling device 20 is arranged, monitor station 40 between described material-pulling device 20 and three-back-shaped pusher 30, whether detection monitor station 40 there is fuse and detects the first whether qualified checkout gear 50 of fuse, be positioned at the first part flow arrangement 60 of described monitor station 40 rear end, be positioned at the second part flow arrangement 70 of described first part flow arrangement 60 rear end and detect the whether qualified second detection device 80 of fuse on the second part flow arrangement 70.Described fuse is delivered on described material-pulling device 20 by described feed arrangement 10, fuse is pushed to monitor station 40 by described material-pulling device 20, described first checkout gear 50 detects that whether the fuse on monitor station 40 is qualified, then by described three-back-shaped pusher 30, fuse is pushed on described first part flow arrangement 60, qualified fuse is delivered to described second part flow arrangement 70 according to the testing result of the first checkout gear 50 by the first part flow arrangement 60, described second part flow arrangement 70 is according to the testing result shunting certified products of second detection device 80 and defective work.

Described feed arrangement 10 involving vibrations dish 11 and the feeding belt 12 being connected described vibrating disk 11 and material-pulling device 20.Described vibrating disk 11 comprises disk body 111 and is enclosed the rewinding chamber 112 formed by described disk body 111, madial wall from bottom upwards along disk body 111 in described disk body 111 is formed with spiral helicine helicla flute 113, described disk body 111 offers the vibration material mouth 114 be communicated with the end of described helicla flute 113, described vibration material mouth 114 is connected with feeding belt 12.In the present embodiment, described vibrating disk 11 also comprises and stretches out with the extension band 115 of docking with described feeding belt 12 from described disk body 111, one end of described extension band 115 is connected with vibration material mouth 114, the other end docks with feeding belt 12, described feeding belt 12 is provided with the inductor 91 detecting and whether feeding belt 12 has fuse near the side of extension band 115, fixed between described feeding belt 12 and extension band 115 by connection cover 116.In described extension band 115, indent is formed with the first chute feeder 117 docked with described vibration material mouth 114, and on described feeding belt 12, indent is formed with the second chute feeder 121 docked with described first chute feeder 117.

Described material-pulling device 20 comprises the scraping wings 21 promoting fuse movement and the power source 22 driving the movement of described scraping wings 21.The longitudinally that described scraping wings 21 has along scraping wings 21 extends and the first side 211 be oppositely arranged and the second side 212, the end face 213 be oppositely arranged and bottom surface 214, described scraping wings 21 offers the fixing slot 215 of fuse-positioning, described fixing slot 215 runs through described first side 211, and described fixing slot 215 runs through described bottom surface 214, in the present embodiment, described fixing slot 215 also runs through described end face 213.Described monitor station 40 is lower than described scraping wings 21.In the present embodiment, described material-pulling device 20 also comprises the detent mechanism 23 of locating described fixing slot 215 position, the rotary drive 233 that described detent mechanism 23 comprises the claw 231 fixing scraping wings 21, the keeper 232 fixing described claw 231 and drives described claw 231 relative positioning part 232 to rotate.Described scraping wings 21 offers locating slot 216, and the claw 231 of described detent mechanism 23 can fix in described locating slot 216.Described locating slot 216 formed to downward-extension from the end face 213 of described scraping wings 21, and described locating slot 216 runs through described first side 211 and bottom surface 214, and described locating slot 216 is positioned at the inner side of described fixing slot 215.Described claw 231 is positioned at above described scraping wings 21.Described scraping wings 21 is provided with to detect the inductor 91 whether having fuse in fixing slot 215.

The running roller 42 that described monitor station 40 comprises holder 41 and is arranged on described holder 41, the rotation direction of described running roller 42 is rotate towards the direction of three-back-shaped pusher 30 from material-pulling device 20.In the present embodiment, described running roller 42 is two of be arrangeding in parallel, the holding tank 43 of locating described fuse is formed between two running rollers 42, described holder 41 has the front shoe 411 and rear fixed plate 412 that are positioned at both sides before and after running roller 42, described rear fixed plate 412 compares front shoe 411 near the first part flow arrangement 60, described front shoe 411 offers escape groove (non-label), the extension line of described holding tank 43 is positioned at escape groove.

The push pedal 33 that described three-back-shaped pusher 30 comprises the first rail assembly 31, is arranged on the second rail assembly 32 on described first rail assembly 31 and is arranged on described second rail assembly 32, described monitor station 40 is lower than described push pedal 33.Described first rail assembly 31 comprises the cross slide way 311 extended transversely, to be fixed on described cross slide way 311 and can movement on described cross slide way 311 cross slide 312 and drive the horizontal actuator 313 of described cross slide 312 movement on cross slide way 311, described second rail assembly 32 comprises the vertical guide 321 vertically extended, to be fixed in described vertical guide 321 and can movement in described vertical guide 321 vertical slide 322 and make the vertical actuator 323 of described vertical slide 322 movement in described vertical guide 321, described push pedal 33 is fixed on vertical slide 322, and move with vertical slide 322.

Described first part flow arrangement 60 comprises shunting base 61, is arranged on the flow distribution plate 62 on described shunting base 61 and is positioned at the shunting drive unit 63 of described shunting base 61 both sides.Splitter box 611 is provided with in described shunting base 61, described flow distribution plate 62 can move and be pushed in splitter box 611 by the fuse on described shunting base 61 on described shunting base 61, and described flow distribution plate 62 drives it to move on shunting base 61 by shunting drive unit 63.Described flow distribution plate 62 is provided with the inductor 91 of induction fuse.Described splitter box 611 comprises the first splitter box 612 and the second splitter box 613, travelling carriage 614 is provided with between described first splitter box 612 and the second splitter box 613, described first splitter box 612 has the vertical component effect 615 and from described vertical component effect 615 outwards and to the rake 616 of downward-extension, described second splitter box 613 and the first splitter box 612 are arranged in mirror image of the upper surface running through shunting base 61.Described flow distribution plate 62 comprises the first flow distribution plate (non-label) and the second flow distribution plate (non-label), described first flow distribution plate is contrary with the second flow distribution plate shift position, the bottom surface indent of described first flow distribution plate is formed with first of storage fuse and promotes groove (not shown), and the bottom surface indent of described second flow distribution plate is formed with second of storage fuse and promotes groove (not shown).Described shunting drive unit 63 comprises the first shunting drive unit (non-label) and the second shunting drive unit (non-label) that are positioned at shunting base both sides, this the first shunting drive unit drives the first flow distribution plate to move, and described second shunting drive unit drives the second flow distribution plate to move.Described first part flow arrangement 60 also comprises the boss 616 upwards protruding out formation from the rear end of described shunting base 61, is formed with the opening 617 of corresponding described travelling carriage 614 in described boss 616, and this opening 617 docks with travelling carriage 614.Described boss 616 is covered with cover body 617, described cover body 617 is provided with the inductor 91 whether having fuse in induction opening 617.Be connected with tube connector 92 between described first monitor station 40 and the second part flow arrangement 70, described tube connector 92 is hollow type, and one end of described tube connector 92 is docked with opening 617.Described monitor station 40 is positioned at same level with travelling carriage 614, and described travelling carriage 614 docks with monitor station 40.The corresponding holding tank 43 of described monitor station 40 is arranged, and this monitor station 40 docks with holding tank 43.

Described second part flow arrangement 70 comprises shunting pedestal 71, to be arranged on above described shunting pedestal 71 and can movement on described shunting pedestal 71 isocon 72, drive the driven in translation part 73 of described isocon 72 movement and the detection be positioned on described isocon 72 to treat locking member 74.Described shunting pedestal 71 is through with the first tap hole 711 and the second tap hole 712, described detection is treated locking member 74 is through with and is detected hole 741 undetermined, described first tap hole 711, second tap hole 712, detect hole 741 undetermined and isocon 72 all be arranged in parallel, described isocon 72 is promoted optionally to dock with detection hole 741 undetermined or described first tap hole 711 or the second tap hole 712 by described driven in translation part 73, and described second detection device 80 is towards detection hole 741 undetermined and whether the fuse detected in described detection hole undetermined 741 is qualified.The opening 617 that described tube connector 92 connects the first part flow arrangement 60 treats locking member 74 with described detection, and described tube connector 92 docks with described detection hole 741 undetermined.Described detection treats that the side of locking member 74 is provided with concentrated plate 75, described concentrated plate 75 has the arcwall face 751 towards described detection hole 741 undetermined, described second detection device 80 has two of mirror image setting, and two described second detection devices 80 are towards arcwall face 751 and detection hole 741 undetermined.Described second detection device 80 has the arm-tie 76 of fixing described isocon 72, described arm-tie 76 is connected with described driven in translation part 73 and is promoted by described driven in translation part 73, described shunting pedestal 71 is also through with locating hole 713, described locating hole 713 is between described first tap hole 711 and the second tap hole 712, and the center line of described locating hole 713 overlaps with the center line detecting hole 741 undetermined.

Described fuse detection system also comprises material collecting device 100, first workbench 200, second workbench 300, the 3rd workbench 400 and controller 500.Described material collecting device 100 is positioned at below described second tap hole 712.Described material collecting device 100 comprises rewinding pipe (not shown) and rewinding band 101, and one end of described rewinding pipe is docked with the second tap hole 712, and the other end is towards the band mouth of rewinding band 101.Described material collecting device 100 is positioned at the below of described 3rd workbench 400, described second part flow arrangement 70 and second detection device 80 are fixed on the top of described 3rd workbench 400, and through hole (not shown) is offered on described 3rd workbench 400, this through hole docks the second tap hole 712 and rewinding pipe.Vibrating disk 11 fixed by described first workbench 200, described second workbench 300 is between the first workbench 200 and the 3rd workbench 400, and higher than the first workbench 200 and the 3rd workbench 400, described second workbench 300 fixes material-pulling device 20, three-back-shaped pusher 30, monitor station 40, first part flow arrangement 60, second detection device 80 and controller 500.Described second workbench 300 is also fixed with fixing first positioning seat 93 of described concentrated plate 75 and the second positioning seat 94 of fixing feeding belt 12.

Above-mentioned fuse detection system working method is as follows: first put into vibrating disk 11 by all fuses, then starts this fuse detection system, after fuse detection system starts, the disk body 111 of vibrating disk 11 starts to vibrate makes the fuse in disk body 111 be arranged in helicla flute 113 successively, and the fuse be positioned at above in helicla flute 113 is pushed by fuse below and is moved forward, enter to the second chute feeder 121 again to enter to the first chute feeder 117 in vibration material mouth 114, finally arrive material-pulling device 20, now, fuse is fixed by the fixing slot 215 of material-pulling device 20, the power source 22 of material-pulling device 20 drives scraping wings 21 to move, and is pushed to by the fuse in fixing slot 215 on monitor station 40, when fuse is pushed on monitor station 40, the claw 231 of detent mechanism 23 fixes locating slot 216 to locate scraping wings, in case fuse transition is released by thrust flitch 21, when location is terminated, the claw 231 of detent mechanism 23 is withdrawn from locating slot 216, power source 22 starts again, and scraping wings 21 resets, when fuse enters to monitor station 40, whether the first checkout gear 50 detects to analyze this fuse to this fuse qualified, simultaneously, because the running roller 42 bottom fuse is ceaselessly rotating, thus fuse to be moved between two running rollers 42 (namely entering in holding tank 43), after the first checkout gear 50 has judged, the vertical actuator 323 of three-back-shaped pusher 30 starts, promote push pedal 33 to move to fuse, position is pushed to arrive, and then start horizontal actuator 313, cross slide 312 moves on cross slide way 311, move to drive the second rail assembly 32, and then make push pedal 33 promote fuse to enter the first part flow arrangement 60 through escape groove, after having pushed, again start vertical actuator 323, push pedal 33 resets, then horizontal actuator 313 is again started, cross slide 312 resets, this three-back-shaped pusher 30 is when pusher is with reset, form a three-back-shaped movement locus, after fuse enters to the first part flow arrangement 60, defective work is shunted according to the detection architecture of the first checkout gear 50 by the first part flow arrangement 60, its motion mode is as follows: if judge, this fuse is defective work, then start shunting drive unit 63, pull flow distribution plate 62, the fuse in flow distribution plate 62 is made to enter in splitter box 611, in the present embodiment, the object arranging two flow distribution plates 62 is: can accelerate a point Flow Velocity, if judge, this fuse is certified products, then flow distribution plate 62 is not taken exercises, tube connector 92 is entered to from opening 617 under the pushing of fuse fuse below, fuse detects in hole 741 undetermined because Action of Gravity Field enters to from tube connector 92, whether the fuse then detected in this detection hole undetermined 741 by second detection device 80 is qualified, if qualified, then first docked with detection hole 741 undetermined by isocon 72, the fuse in detection hole 741 undetermined is made to enter in isocon 72, then, isocon 72 docks with the second tap hole 712, fuse is made to enter to the second tap hole 712 to enter in rewinding band 101 finally by rewinding pipe, if detect defective, then first docked with detection hole 741 undetermined by isocon 72, the fuse in detection hole 741 undetermined is made to enter in isocon 72, then, isocon 72 docks with the first tap hole 711, and then shunt away.In the present embodiment, described first checkout gear 50 and second detection device 80 are in order to detect different characteristics.

In sum, above-mentioned fuse detection system can realize intellectualized detection fuse, and contributes to increasing work efficiency and reducing defective products.In this fuse detection system, can not cause damage to fuse when pushing fuse by this material-pulling device 20, and avoiding the stacking phenomenon of fuse; Can prevent fuse from dropping by this three-back-shaped pusher 30, prevent from detecting the problem of omitting; Automatic shunt certified products and defective work can be realized by this first part flow arrangement 60 and the second part flow arrangement 70, prevent classification error.

The above is only the preferred embodiment of the present invention; be not limited to the present invention; should be understood that; for those skilled in the art; under the prerequisite not departing from the technology of the present invention principle; can also make some improvement and modification, these improve and modification also should be considered as protection scope of the present invention.

Claims (10)

1. a fuse detection system, in order to detect fuse, it is characterized in that: comprise feed arrangement, be arranged on the material-pulling device of described feed arrangement rear end, the three-back-shaped pusher that relatively described material-pulling device is arranged, monitor station between described material-pulling device and three-back-shaped pusher, detect and whether described monitor station have fuse and detects the first whether qualified checkout gear of fuse, be positioned at the first part flow arrangement of described monitor station rear end, be positioned at the second part flow arrangement of described first part flow arrangement rear end and detect the whether qualified second detection device of fuse on the second part flow arrangement, described fuse is delivered on described material-pulling device by described feed arrangement, fuse is pushed to monitor station by described material-pulling device, described first checkout gear detects that whether the fuse on monitor station is qualified, then by described three-back-shaped pusher, fuse is pushed on described first part flow arrangement, qualified fuse is delivered to described second part flow arrangement according to the testing result of the first checkout gear by described first part flow arrangement, described second part flow arrangement is according to the testing result shunting certified products of second detection device and defective work, described three-back-shaped pusher comprises the first rail assembly, the push pedal being arranged on the second rail assembly on described first rail assembly and being arranged on described second rail assembly, described monitor station is lower than described push pedal.

2. fuse detection system according to claim 1, it is characterized in that: described first rail assembly comprises the cross slide way extended transversely, to be fixed on described cross slide way and can movement on described cross slide way cross slide and drive the horizontal actuator of described cross slide movement on cross slide way, described second rail assembly comprises the vertical guide vertically extended, to be fixed in described vertical guide and can movement in described vertical guide vertical slide and make the vertical actuator of described vertical slide movement in described vertical guide, described push pedal is fixed on vertical slide, and move with vertical slide.

3. fuse detection system according to claim 2, it is characterized in that: described material-pulling device comprises the scraping wings promoting fuse movement and the power source driving described scraping wings movement, the longitudinally that described scraping wings has along scraping wings extends and the first side be oppositely arranged and the second side, the end face be oppositely arranged and bottom surface, described scraping wings offers the fixing slot of fuse-positioning, described fixing slot runs through described first side, and described fixing slot runs through described bottom surface, described monitor station is lower than described scraping wings.

4. fuse detection system according to claim 3, is characterized in that: described material-pulling device also comprises the detent mechanism of locating described fixing slot position.

5. fuse detection system according to claim 4, is characterized in that: the rotary drive that described detent mechanism comprises the claw fixing scraping wings, the keeper fixing described claw and drives described claw relative positioning part to rotate.

6. fuse detection system according to claim 5, is characterized in that: described scraping wings offers locating slot, the claw of described detent mechanism can fix in described locating slot.

7. fuse detection system according to claim 6, is characterized in that: described locating slot formed to lower recess from the end face of described scraping wings, and described locating slot runs through described first side.

8. fuse detection system according to claim 7, is characterized in that: described locating slot is positioned at the inner side of described fixing slot.

9. fuse detection system according to claim 8, is characterized in that: described scraping wings is provided with to detect the inductor whether having fuse in fixing slot.

10. fuse detection system according to claim 1, it is characterized in that: described monitor station comprises holder and is arranged on the running roller on described holder, described running roller extends along the bearing of trend of pay-off, the rotation direction of described running roller is rotate towards the direction of three-back-shaped pusher from material-pulling device, described running roller is two that be arranged in parallel, is formed with the holding tank of locating described fuse between two described running rollers.