CN108195241A - A kind of electric detonator detection device and detection method - Google Patents
A kind of electric detonator detection device and detection method Download PDFInfo
- Publication number
- CN108195241A CN108195241A CN201810127847.4A CN201810127847A CN108195241A CN 108195241 A CN108195241 A CN 108195241A CN 201810127847 A CN201810127847 A CN 201810127847A CN 108195241 A CN108195241 A CN 108195241A
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- Prior art keywords
- plate
- electric detonator
- workbench
- supporting plate
- supporting
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F42—AMMUNITION; BLASTING
- F42C—AMMUNITION FUZES; ARMING OR SAFETY MEANS THEREFOR
- F42C21/00—Checking fuzes; Testing fuzes
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F42—AMMUNITION; BLASTING
- F42C—AMMUNITION FUZES; ARMING OR SAFETY MEANS THEREFOR
- F42C19/00—Details of fuzes
- F42C19/08—Primers; Detonators
- F42C19/12—Primers; Detonators electric
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- General Engineering & Computer Science (AREA)
- Tests Of Electronic Circuits (AREA)
Abstract
The invention discloses a kind of electric detonator detection device and detection method, the detection device includes workbench, the horicontal motion mechanism for driving workbench horizontal movement and hold-down mechanism moving up and down;The workbench includes supporting plate, the bottom needle plate component and two telescopic supporting tables that are provided with several probes;Described two supporting tables are located at the both sides of the bottom needle plate component respectively, and the supporting plate is supported by two supporting tables and is suspended in above the needle plate of bottom;The supporting plate is equipped with several locating slots, and the positioning trench bottom is provided with and the corresponding probe aperture of probe;When hold-down mechanism squeezes supporting plate, supporting plate squeezes supporting table so that it is moved to bottom needle plate component direction so that probe couples with the chip of electric detonator.The present invention compresses supporting plate by pressing plate so that the chip close-coupled of probe and electric detonator ensures the accuracy of electric detonator detection.
Description
Technical field
The present invention relates to detonator inspecting technical field, more particularly to a kind of electric detonator detection device and detection method.
Background technology
As the continuous development of electric detonator technology is with perfect, technological merit has obtained increasingly in global the Blow
Extensive understanding, it can realize high-precision detonation timing control, be accurate explosion design, demolition effect control, blast mechanism
With process simulation research, new technical support is provided.But existing detonator inspecting equipment is based on manual test, and
It is only capable of one product of test every time.But putting into production and using with a large amount of electric detonator, it is necessary to have high degree of automation
Test machine come adapt to production demand.Meanwhile manual test easily causes accidentally to survey due to misoperation, because influencing product matter
Amount.
Thus the prior art could be improved and improve.
Invention content
In view of the deficiencies in the prior art, the invention aims to provide a kind of electric detonator detection device and detection side
Method fast and accurately detects electric detonator to realize.
In order to solve the above-mentioned technical problem, the technical solution adopted in the present invention is as follows:
A kind of electric detonator detection device, including workbench, drive workbench horizontal movement horicontal motion mechanism and can
The hold-down mechanism moved up and down;The workbench includes supporting plate, is provided with the bottom needle plate component of several probes and two and can stretch
The supporting table of contracting;Described two supporting tables are located at the both sides of the bottom needle plate component respectively, and the supporting plate passes through two supporting tables
It supports and is suspended in above the needle plate of bottom;The supporting plate is equipped with several locating slots, and the positioning trench bottom is provided with and probe phase
Corresponding probe aperture;When hold-down mechanism squeezes supporting plate, supporting plate squeezes supporting table so that it is moved to bottom needle plate component direction, makes
Probe is obtained with the chip of electric detonator to couple.
The electric detonator detection device, wherein, the supporting table includes fixing support rack and movable supporting frame, described solid
Determining setting between supporting rack and the movable supporting frame, there are two tension guide component and supporting plate stroke pull rods;Described two drawings
It stretches guidance set to be symmetrical arranged, the supporting plate stroke pull rod is located between two tension guide components, described two tension guides
Component is slidably connected with the support element.
The electric detonator detection device, wherein, the tension guide component includes tension guide bar and tension guide set,
The tension guide set is set in the fixing support rack, and the tension guide bar is arranged in the tension guide and puts on, and
It is slidably connected with the tension guide set.
The electric detonator detection device, wherein, the movable supporting frame is the U-shaped structure being open with horizontal direction,
One U-shaped arm of the movable supporting frame is connected with the supporting plate being positioned above, another U-shaped arm passes through tension guide component
It is connected with supporting plate stroke pull rod with the fixing support rack being disposed below.
The electric detonator detection device, wherein, at least one positioning column is provided on the bottom needle plate component, it is described fixed
Position column is vertically set, and when supporting plate comes downwards to range, and the positioning column is in contact with the supporting plate.
The electric detonator detection device, wherein, the horicontal motion mechanism includes symmetrically arranged two guide rails, branch
Frame, the conveyor being rotationally connected on stent and the driving motor for conveyor to be driven to rotate;The guide rail and workbench
It is slidably connected, fixed plate is provided in the conveyor, the fixed plate is connected with the workbench;When conveyor drives admittedly
When fixed board moves, the fixed plate pushes the workbench to move along the rail.
The electric detonator detection device, wherein, the hold-down mechanism include vertically spaced support plate and
Pressing plate is provided with transmission nut between the support plate and pressing plate;The support plate is equipped with drive motor, the drive motor and institute
It states transmission nut to be connected, and drives the transmission nut band dynamic pressure plate vertically moving, so that the pressing plate squeezes
The supporting plate.
The electric detonator detection device, wherein, the hold-down mechanism further includes lead;Described lead one end is fixed
In on support plate, the other end passes through the pressing plate and is slidably connected with the pressing plate.
A kind of electric detonator detection method, including:
Several electric detonators are respectively placed in the locating slot of workbench, by horizontal drive mechanism drive workbench run to
Detection station;
Working table movement in place after, hold-down mechanism moves downward extruding supporting plate;
Supporting plate moves downwardly to predeterminated position, and the chip of probe and electric detonator is connected, with the internal circuit to electric detonator
Process detection.
The electric detonator detection method, wherein, the locating slot that several electric detonators are respectively placed in workbench
It is interior, workbench is driven to include before running to detection station by horizontal drive mechanism:
Test parameter input by user is received, and the fortune of horicontal motion mechanism and hold-down mechanism is adjusted according to the test parameter
Dynamic stroke;
The reset instruction of user is received, horizontal drive mechanism drives workbench to be resetted according to service order.
Advantageous effect:Compared with prior art, the present invention provides a kind of electric detonator detection device and detection method, institutes
It states detection device and includes workbench, the horicontal motion mechanism for driving workbench horizontal movement and compacting machine moving up and down
Structure;The workbench includes supporting plate, the bottom needle plate component and two telescopic supporting tables that are provided with several probes;Described two
A supporting table is located at the both sides of the bottom needle plate component respectively, and the supporting plate is supported by two supporting tables and is suspended in bottom needle plate
Top;The supporting plate is equipped with several locating slots, and the positioning trench bottom is provided with and the corresponding probe aperture of probe;Work as compression
When mechanism squeezes supporting plate, supporting plate squeezes supporting table so that it is moved to bottom needle plate component direction so that probe and electric detonator
Chip couples.The present invention compresses supporting plate by pressing plate so that the chip close-coupled of probe and electric detonator ensures electric detonator
The accuracy of detection.Meanwhile the detection device can simultaneously be detected multiple electric detonators, ensure that large-scale production is steady
Fixed and standardization, and improve the problem of existing production line efficiency is low.
Description of the drawings
Fig. 1 is the structure diagram that electric detonator detection device provided by the invention is preferably implemented.
Fig. 2 is that electric detonator detection device provided by the invention is preferably implemented to remove the structure diagram of housing.
Fig. 3 is the sectional view of Fig. 1.
Fig. 4 is the structure diagram of workbench during electric detonator detection device provided by the invention is preferably implemented.
Fig. 5 is the explosive view of workbench during electric detonator detection device provided by the invention is preferably implemented.
Fig. 6 is the structure diagram of horicontal motion mechanism during electric detonator detection device provided by the invention is preferably implemented.
Fig. 7 is the structure diagram of hold-down mechanism during electric detonator detection device provided by the invention is preferably implemented.
Fig. 8 is the flow chart of the electric detonator detection device course of work provided by the invention.
Fig. 9 provides the flow chart of electric detonator detection method intersecting set embodiment for the present invention.
Specific embodiment
The present invention provides a kind of electric detonator detection device and detection method, for make the purpose of the present invention, technical solution and
Effect is clearer, clear and definite, and the present invention is described in more detail for the embodiment that develops simultaneously referring to the drawings.It should be appreciated that herein
Described specific embodiment only to explain the present invention, is not intended to limit the present invention.
Below in conjunction with the accompanying drawings, by the description of the embodiment, being described further to invention content.
Present embodiments provide a kind of electric detonator detection device, as shown in Figs. 1-3, including housing, workbench 200,
Horicontal motion mechanism 300 and hold-down mechanism 100, the housing include upper shell 1 and lower housing 2, and the upper shell 1 is located at institute
It states 2 top of lower housing and is vertically arranged with the lower housing 2, the upper shell 1 is provided with feeding port 3 with 2 intersection of lower housing.
The workbench 200, horicontal motion mechanism 300 and hold-down mechanism 100 may be contained in the housing, the horizontal motion machine
Structure 300 is connected with the workbench 200, and the workbench 200 is driven to move back and forth in the horizontal direction;The hold-down mechanism
100 are connected, and vertically moving relative to workbench 200 with the workbench 200.In the present embodiment, compacting machine
Structure 100 is located in upper shell 1, and the horicontal motion mechanism 300 is located in lower housing 2, the workbench 200 and the feeding port
3 is corresponding, and can move to hull outside by the feeding port 3 under horizontal movement structures drive, in order to which user will treat
It detects several electric detonators to be positioned on the workbench 200, workbench 200 is compressed by hold-down mechanism 100, realization is positioned over
Several electric detonators on workbench 200 synchronize detection.
As shown in Figures 4 and 5, the workbench 200 includes supporting plate 201, bottom needle plate component 202 and two supporting tables 205,
The bottom needle plate component 202 includes two support plates 2021 and bottom needle plate 2022, and described two support plates 2021 are vertically
It is arranged in parallel, and there is the first gap between two support plates 2021, the bottom needle plate 2022 is located at two support plates 2021
Top, and be connected respectively with two support plates 2021, to form " Jiong " font bottom needle plate component 202.The bottom needle plate
2022 are supported by two support plates 2021 and are suspended in above the first gap between two support plates 2021.Described two
Support platform 205 is parallel with two support plates 2021, and is located at the both sides of two support plates 2021 respectively;The supporting plate 201
Above the supporting table 205, supported by two supporting tables 205 and be suspended in 2022 top of bottom needle plate.The support
205 height of platform is higher than the height of support plate 2021, so that supporting plate 201 and bottom needle plate 2022 are mutually parallel and supporting plate 201 and bottom
There is the second gap between needle plate 2022.
As shown in Figures 4 and 5, several probes 2023 vertically extended are deployed on the bottom needle plate 2022, it is described
Several locating slots 203 are provided on supporting plate 201, several detonators are provided in the locating slot 203 and place position;The detonator is placed
Position is provided with several probe apertures.Several probes 2023 place bit distribution, and place below position positioned at detonator according to detonator
Number of probes and detonator place setting probe aperture quantity it is identical and correspond, i.e., several probes 2023 are both passed through between second
Gap and be partially disposed in its corresponding probe aperture.When hold-down mechanism 100 squeezes supporting plate 201, supporting plate 201 squeezes supporting table 205
So that it is moved to 2022 direction of bottom needle plate so that probe 2023 couples with the chip of electric detonator.In the present embodiment, it is described
Probe 2023 includes probe rod and probe, and described probe rod one end is fixed on the needle plate of bottom and passes through conducting wire to be connected with master control borad
It connects, to be detected by master control borad to detonator;The probe rod other end is connected with probe, described to pop one's head in across probe aperture
It is in contact with placing with the detonator on supporting plate 201, wherein, the probe 2023 is elastic probe, is held in the palm when hold-down mechanism 100 pushes
During plate 201, spring probe is in close contact by compression with detonator.For example, spring etc. is provided in the probe.
Further, the locating slot 203 is downwardly projecting groove, and the depth of the locating slot 203 is with being positioned over positioning
The thickness of detonator to be detected in slot 203 is adapted, when hold-down mechanism 100 compress supporting plate 201 when, hold-down mechanism 100 with it is described
Locating slot 203 forms accommodation space, and the detonator to be detected is placed in the accommodation space, does not connect with hold-down mechanism 100
It touches, extruding is generated to detonator so as to avoid hold-down mechanism 100, and cause damages to detonator.In practical applications, the compression
Mechanism can also be in contact with detonator, and when hold-down mechanism contacts with detonator and supporting plate is pressed to predeterminated position, pressing plate is to detonator
It generates down thrust and pushes detonator chip to probe, wherein, the pressing plate is to the thrust of detonator chip and the elastic force phase of probe
Mutually balance, and will not be to damaging chip.
In addition, the detonator, which places position, can be provided with gag lever post, after detonator, which is placed as detonator, places position, gag lever post is solid
The fixed detonator avoids the detonator from placing position movement relative to detonator, so as to be further ensured that detonator is contacted with probe
Compactness.In the present embodiment, the locating slot 203 is 4 groups, and 10 detonators are provided in each locating slot 203 and place position,
So that detection device once can detect 40 electric detonators, the batch detection of electric detonator is realized.In addition, the locating slot
203 with the supporting plate 201 can be to be detachably connected, and be placed in this way convenient for electric detonator.
As shown in Figures 4 and 5, the supporting table 205 includes 2052, two fixing support rack 2051, movable supporting frame stretchings
Guidance set 2054 and supporting plate stroke pull rod 2053;The fixing support rack 2051 and the movable supporting frame 2052 are along vertical
Direction is arranged at intervals, so that there is third space between the fixing support rack 2051 and movable supporting frame 2052, described two
A tension guide component 2054 and supporting plate stroke pull rod 2053 are respectively positioned in third space.Wherein, the tension guide component
2054 one end are fixedly connected with movable supporting frame 2052, and the other end is slidably connected with the fixing support rack 2051;The supporting plate
2053 one end of stroke pull rod is fixedly connected with fixing support rack 2051, and the other end is slidably connected with the movable supporting frame 2052.
Spring is arranged on the supporting plate stroke pull rod, the spring is between the movable supporting frame and fixing support rack.Work as support
When plate 201 is compacted the extruding of mechanism 100, supporting plate 201 pushes movable supporting frame 2052, and movable supporting frame 2052 gives supporting plate stroke to draw
Bar 2053 and the downward power of tension guide component 2054, tension guide component 2054 are slided relative to fixed support plate 2021,
Movable supporting frame is moved downward relative to supporting plate stroke pull rod to squeeze the spring, so that spring deforms upon;The shifting
Dynamic supporting rack 2052 drives supporting plate 201 disposed thereon to be moved to bottom needle plate 2022, to reduce the height in the second gap, so as to make
It obtains detonator and compresses probe;When hold-down mechanism 100 is detached from supporting plate 201, the spring on supporting plate stroke pull rod 2053 restores deformation, right
Movable supporting frame 2052 generates upward effect, and movable supporting frame 2052 drives tension guide component 2054 to run up, and extensive
The height in multiple second gap so that probe is detached with the detonator on supporting plate 201.In the present embodiment, described two stretchings
Guidance set 2054 is symmetrical arranged, and supporting plate stroke pull rod 2053 is located between two tension guide components 2054, is led by stretching
Guiding role is played to pumping for movable supporting frame 2052 to component 2054.
As shown in Figures 4 and 5, the fixing support rack 2051 includes horizontally disposed first at 511 and second
512 and the third that vertically sets at 513 and the 4th 514;Described first at 511, second 512, third side
513 and the 4th side 514 formed quadrilateral frame, the tension guide component 2054 is fixed on the first side 511, and its extension line
Between third is at 513 and the 4th 514.In addition, along 201 extending direction of supporting plate above described two fixing support racks 2051
Baffle 207 is provided with, described 207 one end of baffle is located above the first side 511 of a fixing support rack 2051 and coupled
It connects, the other end is located at the top of the first side 511 of another fixing support rack 2051 and coupled, and the baffle 207 is located at
Between movable supporting frame 2052 and fixing support rack 2051, and it is connected with horicontal motion mechanism 300, the horizontal motion machine
Structure 300 pushes the workbench 200 by pushing the baffle 207.In the present embodiment, for the ease of 200 water of workbench
Flat movement, described second while 512 far from first while 511 side be provided with and be symmetrical arranged that there are two sliding block, the sliding block and water
Flat motion 300 is slidably connected.
As shown in Figures 4 and 5, the tension guide component 2054 includes tension guide bar 541 and tension guide set 542;Institute
It states tension guide set 542 to be placed in the first side 511, and the tension guide bar 541 passes through tension guide set 542, and
It is slidably connected with tension guide set 542, i.e., tension guide bar 541 can cover 542 along the tension guide and slide.In this implementation
In example, positioning plate is provided on the tension guide bar 541, the positioning plate is circle, and has a diameter larger than tension guide
The internal diameter of set 542 is detached from tension guide set 542 to limit tension guide bar 541.
As shown in Figures 4 and 5, the movable supporting frame 2052 has the U-shaped structure of horizontal direction opening, including the first U
Arm 521,522 and second U-shaped arm 523 of linking arm;The first U-shaped arm 521 is connected with the supporting plate 201 being positioned above
It connects, the second U-shaped arm 523 passes through tension guide component 2054 and supporting plate stroke pull rod and the fixing support rack 2051 being disposed below
It is connected.The linking arm 522 is far from fixed plate, and fixed plate and side of the second U-shaped arm 523 far from the first U-shaped arm 521
It flushes.
As shown in figure 5, be provided at least one positioning column 206 on the bottom needle plate 2022, the positioning column 206 is along vertical
Direction is set, and when supporting plate 201 comes downwards to range, the positioning column 206 is in contact with the supporting plate 201.In this reality
It applies in example, the positioning column 206 is 4, and 4 positioning columns 206 are located at the quadrangle of bottom needle plate 2022 respectively, to open supporting plate 201
It is dynamic to hold effect and the now range of supporting plate 201, it avoids 201 stroke of supporting plate excessive and probe is damaged, so as to carry
The high safety of probe.Certainly, in the variant embodiment of the present embodiment, the number of the positioning column 206 and setting position
Putting can be different, for example, positioning column 206 is 8,8 positioning columns 206 surround quadrangle, and probe is located at four side
In shape etc..
As shown in fig. 6, the horicontal motion mechanism 300 includes symmetrically arranged two guide rails 305, stent 301, rotation company
The conveyor 302 being connected on stent 301 and the driving motor 303 for conveyor 302 to be driven to rotate;The workbench 200
The sliding block of upper setting is located in the guide rail 305, and is slidably connected with the guide rail 305;It is provided in the conveyor 302 solid
Fixed board 304, the fixed plate 304 are connected with the baffle, the baffle are pushed to push the work forward by the fixed plate 304
Platform 200 is moved back and forth along the guide rail 305.The driving motor 303 is set on the bottom plate of the housing, and with the biography
Defeated band 302 is connected with the conveyor 302 is driven to move.Wherein, the fixed plate 304 is located at the upper of the conveyor 302
Side, the baffle are located at 302 top of conveyor and are not in contact with the conveyor 302.When conveyor 302 rotates forward
When, fixed plate 304 pushes baffle to be moved to far from 3 direction of feeding port;When conveyor 302 rotates backward, fixed plate 304 pulls
Baffle is want to run close to 3 direction of feeding port, so that workbench 200 is moved back and forth along 3 opening direction of feeding port, workbench 200
It export and puts in storage.In the present embodiment, sensor is provided on the guide rail 305, the sensor is located at the guide rail 305 and leans on
Nearly discharge port side detects the range of 200 export of workbench by the inductor.
Shown in Fig. 7, the hold-down mechanism 100 includes vertically spaced support plate 101 and pressing plate 102, described
Transmission nut is provided between support plate 101 and pressing plate 102;The support plate 101 is equipped with drive motor 107, the drive motor
107 are connected with the transmission nut by belt 105, and the transmission nut band dynamic pressure plate 102 is driven vertically to transport
It is dynamic, so that the pressing plate 102 squeezes the supporting plate 201.In the present embodiment, the hold-down mechanism 100 further includes lead
106 and sensor;Described 106 one end of lead is fixed on support plate 101, the other end pass through the pressing plate 102 and with lower housing 2
It is connected, the lead 106 is slidably connected with the pressing plate 102.The transmission nut includes screw rod 104 and nut 103, institute
State 104 one end of screw rod and be set to pressing plate 102 far from 201 side of supporting plate, one end of the other end and nut 103 by thread fitting,
The other end of the screw rod 104 passes through support plate 101 and passes through belt 105 to be connected with drive motor 107, passes through drive motor
107 drive screw rods 103 rotate, and the position of adjusting nut 103 and screw rod 104 is to drive nut 103 vertically moving.
In the present embodiment, the hold-down mechanism 100 further includes the first guide plate 108 vertically set and is set to the first guiding
The first limiting plate 109 on plate 108;First guide plate 108 is fixed on upper shell 1 and positioned at the rear of support plate 101, institute
It states the first limiting plate 109 relative to first guide plate 108 to extend forward, pump process in hold-down mechanism 100
In, the support plate 101 is in contact with first guide plate 108, and passes through 108 plate of the first guiding and be oriented to;And when pressure
When tight mechanism 100 goes upward to range, support plate 101 is in contact with the first limiting plate 109 and under the first limiting plate 109
Side, to be limited by the first limiting plate 109.In addition, the second guide plate 110 is slidably connected on the pressing plate 102, it is described
Second guide plate 110 is vertically set, and second guide plate 110 is parallel with the first guide plate 108 and positioned at support plate 101
The same side;Second guide plate 110 is fixed on housing, and the pressing plate 102 can be slided along second guide plate 110
It is dynamic.The upper and lower ends of second guide plate 110 are respectively arranged with the second limiting plate 111, and the pressing plate 102 is located at two second
Between limiting plate 111, and pass through the stroke of two the second limiting plate 111 limitation pressing plates 102.
Further, start button, reset key as shown in Figure 1, being provided on the lower housing 2 and stop key, institute
It states and starts button, reset key and stop key with the master control borad being set in housing to be connected, the master control borad receives
Start button, reset key and the control instruction for the generation that stops key, and hold-down mechanism 100 is controlled according to the control instruction
And horicontal motion mechanism 300 is operated accordingly.In addition, the top of the upper shell 1 is above-mentioned touch control screen 4, lead to
Crossing the touch control screen 4 can be with the detection parameters of input detection device, and master control borad is joined according to detection input by user
Number is configured, wherein, the detection parameters include the stroke of hold-down mechanism 100 and the compression time of hold-down mechanism 100 etc..
Meanwhile display screen 5 and indicator light are provided on the upper shell 1, the display screen is connected with master control borad, and passes through described
Display screen shows detonator test result;The indicator light is used to indicate the working condition residing for the detection device.It is in addition, described
Detection device further includes PCL control systems and is set to the master control borad of housing, and the PCL control systems are connected with master control borad
It connects, and is connected respectively with driving motor 303 and drive motor 107, hold-down mechanism is controlled by the PCL control systems
100 and horicontal motion mechanism 300.The master control borad is connected by conducting wire with probe tail end, has acquired electric detonator to be measured
Data, and then electric detonator is tested.
The course of work of electric detonator detection device provided by the invention can be:Electric detonator detection device starts and connects
Bit instruction is recovered, horicontal motion mechanism 300 drives 200 export of workbench, and export is horizontal in place and after the first preset time of holding
The platform 200 that pushes the work forward of motion 300 puts in storage;Export instruction is received, horizontal movement structures drive 200 export of workbench, detection
The flickers such as indicator light;Detection instruction is received, horizontal movement structures drive workbench 200 to put in storage, and after the second preset time of putting in storage, drive
Dynamic motor 107 drives transmission nut band dynamic pressure plate 102 to move downward, and supporting plate is positioned over by 102 times pressing palettes of pressing plate 201
Electric detonator to be measured on 201 is in close contact with probe, and to test electric detonator to be measured, indicator light is always on;Compacting machine
After 100 downlink third preset time of structure, indicator light extinguishes, and drive motor 107 drives transmission nut uplink, pressing plate 102 and supporting plate
201 separation;Supporting plate 201 goes upward to initial position under the effect of stroke limit pull rod;Horizontal movement structures drive workbench 200 to go out
Electric detonator detection is completed in storehouse.Wherein, first preset time, the second preset time and the second preset time can be
User pre-sets, for example, the first preset time is 1s, the second preset time is 0.35s;Third preset time is 0.5s etc..
The course of work of electric detonator detection device provided in order to further illustrate the present invention is specific with reference to one
Example is illustrated.In this example, it is assumed that A, B and E button are provided on the housing, and A, B and E button is certainly
Tape light.Wherein, the E keys are reset key, A the and B buttons are start key.When E buttons are pressed, detection device is in
Emergency stop state simultaneously enters reset mode when being released.That is, when E buttons are pressed, detection device stops at once
Current location, detection device resets during release.Correspondingly, as shown in figure 8, the course of work of the electric detonator detection device can
Think:A buttons and/or B buttons are pressed and held within 1s, the indicator light flicker of A buttons and/or B buttons, workbench warehouse entry;Into
Storehouse 0.35s rear fenders start to move downward under the drive of drive motor, and pressing plate is in place after 0.35, A buttons and/or B buttons
Indicator light is always on;PLC gives master control partitioned signal, signal to disappear after continuing 0.5s, and blackout 0.2s rear fenders are in drive motor
It is moved upwards under drive, when pressing plate rises to the half of stroke, workbench export is simultaneously adjoint, the finger of A buttons and/or B buttons
Show that lamp flickers;Export in place after, the indicator light of A buttons and/or B buttons stops flicker, and waits for next group electric detonator warehouse entry.
Based on above-mentioned electric detonator detection device, the present invention also provides a kind of electric detonator detection method, such as Fig. 9 institutes
Show, including:
S10, several electric detonators are respectively placed in the locating slot of workbench, workbench are driven to transport by horizontal drive mechanism
It goes to detection station;
S20, working table movement in place after, hold-down mechanism moves downward extruding supporting plate;
S30, supporting plate move downwardly to predeterminated position, and the chip of probe and electric detonator is connected, with the inside to electric detonator
Circuit process detection.
In the electric detonator detection method, the locating slot that several electric detonators are respectively placed in workbench
It is interior, workbench is driven to include before running to detection station by horizontal drive mechanism:
Test parameter input by user is received, and the fortune of horicontal motion mechanism and hold-down mechanism is adjusted according to the test parameter
Dynamic stroke;
The reset instruction of user is received, horizontal drive mechanism drives workbench to be resetted according to service order.
Finally it should be noted that:The above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations;Although
The present invention is described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that:It still may be used
To modify to the technical solution recorded in foregoing embodiments or carry out equivalent replacement to which part technical characteristic;
And these modification or replace, various embodiments of the present invention technical solution that it does not separate the essence of the corresponding technical solution spirit and
Range.
Claims (10)
1. a kind of electric detonator detection device, which is characterized in that it includes workbench, the horizontal of driving workbench horizontal movement is transported
Motivation structure and hold-down mechanism moving up and down;The workbench includes supporting plate, the bottom needle plate component for being provided with several probes
And two telescopic supporting tables;Described two supporting tables are located at the both sides of the bottom needle plate component respectively, and the supporting plate leads to
Two supporting tables are crossed to support and be suspended in above the needle plate of bottom;The supporting plate is equipped with several locating slots, and the positioning trench bottom is set
It is equipped with and the corresponding probe aperture of probe;When hold-down mechanism squeezes supporting plate, supporting plate squeezes supporting table so that it is to bottom needle plate group
Part direction moves so that probe couples with the chip of electric detonator.
2. electric detonator detection device according to claim 1, which is characterized in that the supporting table include fixing support rack and
Movable supporting frame, there are two tension guide component and supporting plate rows for setting between the fixing support rack and the movable supporting frame
Journey pull rod;Described two tension guide components are symmetrical arranged, and the supporting plate stroke pull rod is located between two tension guide components,
Described two tension guide components are slidably connected with the support element.
3. electric detonator detection device according to claim 2, which is characterized in that the tension guide component, which includes stretching, leads
To bar and tension guide set, the tension guide set is set in the fixing support rack, and the tension guide bar is arranged in institute
It states tension guide to put on, and is slidably connected with the tension guide set.
4. electric detonator detection device according to claim 2, which is characterized in that the movable supporting frame is with level side
To the U-shaped structure of opening, a U-shaped arm of the movable supporting frame is connected with the supporting plate being positioned above, another U-shaped arm
It is connected by tension guide component and supporting plate stroke pull rod with the fixing support rack being disposed below.
5. electric detonator detection device according to claim 1, which is characterized in that be provided at least on the bottom needle plate component
One positioning column, the positioning column are vertically set, and when supporting plate comes downwards to range, the positioning column with it is described
Supporting plate is in contact.
6. electric detonator detection device according to claim 1, which is characterized in that the horicontal motion mechanism includes symmetrically setting
Two guide rails, stent, the conveyor being rotationally connected on stent and the driving motor for conveyor to be driven to rotate put;Institute
It states guide rail to be slidably connected with workbench, fixed plate is provided in the conveyor, the fixed plate is connected with the workbench;
When conveyor drives fixed plate movement, the fixed plate pushes the workbench to move along the rail.
7. electric detonator detection device according to claim 1, which is characterized in that the hold-down mechanism is included vertically
Spaced support plate and pressing plate are provided with transmission nut between the support plate and pressing plate;The support plate is equipped with drive motor,
The drive motor is connected with the transmission nut, and drives the transmission nut band dynamic pressure plate vertically moving, with
So that the pressing plate squeezes the supporting plate.
8. electric detonator detection device according to claim 7, which is characterized in that the hold-down mechanism further includes lead;
Described lead one end is fixed on support plate, and the other end passes through the pressing plate and is slidably connected with the pressing plate.
9. a kind of electric detonator detection method, which is characterized in that it includes:
Several electric detonators are respectively placed in the locating slot of workbench, by horizontal drive mechanism drive workbench run to
Detection station;
Working table movement in place after, hold-down mechanism moves downward extruding supporting plate;
Supporting plate moves downwardly to predeterminated position, so that the chip of probe and electric detonator is connected;
The chip of probe and electric detonator is connected, to the internal circuit process detection of electric detonator.
10. electric detonator detection method according to claim 9, which is characterized in that described to put several electric detonators respectively
It is placed in the locating slot of workbench, workbench is driven to include before running to detection station by horizontal drive mechanism:
Test parameter input by user is received, and the fortune of horicontal motion mechanism and hold-down mechanism is adjusted according to the test parameter
Dynamic stroke;
The reset instruction of user is received, horizontal drive mechanism drives workbench to be resetted according to service order.
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CN201810127847.4A CN108195241A (en) | 2018-02-08 | 2018-02-08 | A kind of electric detonator detection device and detection method |
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CN110132076A (en) * | 2019-05-07 | 2019-08-16 | 南京理工大学 | Fuse outer trajectory angular movement environmental simulation test device |
CN111089517A (en) * | 2019-12-24 | 2020-05-01 | 杭州晋旗电子科技有限公司 | Batch detection positioning die for electronic detonator chips and processing method |
CN111112098A (en) * | 2019-12-24 | 2020-05-08 | 杭州晋旗电子科技有限公司 | Automatic waste product removing device for defective electronic detonator chip |
CN111238319A (en) * | 2019-12-24 | 2020-06-05 | 杭州晋旗电子科技有限公司 | Batch automatic detection device and detection method for electronic detonator chips |
CN113310369A (en) * | 2021-06-16 | 2021-08-27 | 贵州全安密灵科技有限公司 | Detection equipment and detection method |
CN117490769A (en) * | 2023-11-08 | 2024-02-02 | 湖北城市建设职业技术学院 | Warmhouse booth environmental monitoring device |
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Application publication date: 20180622 |