CN208314127U - Ceramic tube discharging detection device - Google Patents

Abstract

The utility model discloses a kind of ceramic tube discharging detection device, comprising: ignition mechanism, the ignition mechanism include insulating supporting, and the ignition electrode being fixed in insulating supporting, and it is outer and pluggable in ceramic tube that insulating supporting is stretched out in one end of the ignition electrode；Conductive U-lag, the conduction U-type groove are located at the side of ignition mechanism and can accommodate ceramic tube；Dematron mechanism, the dematron mechanism is located at the lower section of conductive U-lag and contacts with the local friction of ceramic tube, to drive ceramic tube to rotate in conductive U-lag；High voltage package, the high voltage package are electrically connected with conductive U-lag and ignition electrode respectively.The technical solution of the utility model replaces artificial detection by electric discharge rotation detection, can save manpower, and can be improved the detection efficiency and reliability of ceramic tube.

Description

Ceramic tube discharging detection device

Technical field

The utility model relates to ceramic tube detection device more particularly to a kind of ceramic tube discharging detection devices.

Background technique

Ceramic tube has the function of preferably being dielectrically separated from, and is widely used in ignition mechanism.The insulation performance of ceramic tube Directly affect the reliability of orientation igniting.In the prior art, the insulation performance of ceramic tube is detected by manually mostly.Due to The environment of artificial detection is dim, and detection workman needs contact arc light, and long-term work arclight will affect the health of worker.

In view of this, it is necessary to which the detection device of current ceramic tube is further improved in proposition.

Utility model content

To solve an above-mentioned at least technical problem, the main purpose of the utility model is to provide a kind of ceramic tube discharge examination Device.

To achieve the above object, the technical solution that the utility model uses are as follows: a kind of ceramic tube discharge examination is provided Device, comprising:

Ignition mechanism, the ignition mechanism include insulating supporting, and the ignition electrode being fixed in insulating supporting, the point It is outer and pluggable in ceramic tube that insulating supporting is stretched out in one end of fiery needle；

Conductive U-lag, the conduction U-type groove are located at the side of ignition mechanism and can accommodate ceramic tube；

Dematron mechanism, the dematron mechanism is located at the lower section of conductive U-lag and contacts with the local friction of ceramic tube, with band Dynamic ceramic tube rotates in conductive U-lag；

High voltage package, the high voltage package are electrically connected with conductive U-lag and ignition electrode respectively.

Wherein, the ignition mechanism further include: the anode steel core being set in insulating supporting, the ignition electrode are steel needle, One end of the steel needle is fixed on anode steel core.

Wherein, the high voltage package includes the first connecting terminal and the second connecting terminal, and the conduction U-lag is far from dynamo exploder One end of structure is perforated equipped with wiring, and the insulating supporting is equipped with wiring through-hole, first wiring far from one end of conductive U-lag Terminal is electrically connected by electric wire with wiring perforation；Second connecting terminal passes through the electric wire and anode steel core across wiring through-hole Electrical connection.

It wherein, further include the insulating base being obliquely installed, the conduction U-lag is installed on insulating base.

Wherein, the quantity of the conductive U-lag has 8, and 8 conductive U-lags are uniformly arranged.

Wherein, the dematron mechanism includes:

Linear guide,

Slide plate, the slide plate are slidably connected in linear guide；

Insulation rubbing, the insulation rubbing are set on slide plate and are obliquely installed with slide plate, one side of the insulation rubbing It can be contacted with the external wall friction of ceramic tube；

Driving mechanism, the driving mechanism are set to the side of linear guide, to drive slide plate reciprocal in linear guide Movement.

Wherein, the dematron mechanism further include: support plate, the support plate are obliquely installed with slide plate, the insulation rubbing It is set in support plate.

Wherein, the width of the conductive U-lag is slightly larger than the diameter of ceramic tube.

The technical solution of the utility model mainly includes ignition mechanism, conductive U-lag and high voltage package, high voltage package respectively with Ignition mechanism and conductive U-lag electrical connection, specifically, ignition mechanism further includes insulating supporting and ignition electrode, which can be inserted Enter in ceramic tube, conductive U-lag can accommodate the ceramic tube for being inserted with ignition electrode, can be with by the electric discharge of ignition electrode and conductive U-lag Ceramic tube is detected；In addition, dematron mechanism can drive ceramic tube to rotate, to pottery when ignition electrode and conductive U-lag discharge Porcelain tube carries out rotating electric-discharging detection, replaces manually, can be improved precision and efficiency of detecting with mechanical detection.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of an embodiment of the present invention ceramic tube discharging detection device；

Fig. 2 is the enlarged structure schematic diagram of Tu1Zhong dematron mechanism.

The embodiments will be further described with reference to the accompanying drawings for the realization, functional characteristics and advantage of the utility model aim.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describing, it is clear that described embodiment is only a part of the embodiment of the utility model, rather than all Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are not making creative work premise Under every other embodiment obtained, fall within the protection scope of the utility model.

It is to be appreciated that the description of " first ", " second " involved in the utility model etc. is used for description purposes only, and cannot manage Solution is its relative importance of indication or suggestion or the quantity for implicitly indicating indicated technical characteristic.Define as a result, " the One ", the feature of " second " can explicitly or implicitly include at least one of the features.In addition, the skill between each embodiment Art scheme can be combined with each other, but must be based on can be realized by those of ordinary skill in the art, when technical solution It will be understood that the combination of this technical solution is not present in conjunction with there is conflicting or cannot achieve when, also not in the utility model It is required that protection scope within.

The ceramic tube of the prior art is completed by artificial detection mostly, and accuracy in detection is not high and detection efficiency is low, A kind of ceramic tube discharging detection device is present embodiments provided, the main ignition electrode by ignition structure is put with conductive U-type groove Electricity and dematron mechanism drive the ceramic tube of conductive U-type groove to rotate to realize the detection to ceramic tube, can be improved detection accuracy With efficiency.

Referring to Fig.1 and 2, Fig. 1 is the structural schematic diagram of an embodiment of the present invention ceramic tube discharging detection device； Fig. 2 is the enlarged structure schematic diagram of Tu1Zhong dematron mechanism.In the utility model embodiment, the ceramic tube discharging detection device, Include:

Ignition mechanism, the ignition mechanism include insulating supporting 12, and the ignition electrode 11 being fixed in insulating supporting 12, It is outer and pluggable in ceramic tube 50 that insulating supporting 12 is stretched out in one end of the ignition electrode 11；

Conductive U-lag 21, the conduction U-type groove 21 are located at the side of ignition mechanism and can accommodate ceramic tube 50；

Dematron mechanism, the dematron mechanism are located at the lower section of conductive U-lag 21 and contact with the local friction of ceramic tube 50, To drive ceramic tube 50 to rotate in conductive U-lag 21；

High voltage package 40, the high voltage package 40 are electrically connected with conductive U-lag 21 and ignition electrode 11 respectively.

In the present embodiment, ignition mechanism mainly includes ignition electrode 11, is specifically as follows metal ignition electrode 11, metal ignition electrode In 11 pluggable ceramic tubes 50, and ceramic tube 50 is moved in conductive U-lag 21.Conductive U-lag 21 is metal U-type groove, point Fiery needle 11 and conductive U-lag 21 can discharge examination ceramic tube 50, conductive U-lag 21 is electrically connected with high voltage package 40 with ignition electrode 11 It connects, when high voltage package 40 is discharged, dematron mechanism drives ceramic tube 50 to rotate, and can be revolved to ceramic tube 50 by above-mentioned structure Relay electro-detection.

The technical solution of the utility model mainly includes ignition mechanism, conductive U-lag 21 and high voltage package 40, high voltage package 40 It is electrically connected respectively with ignition mechanism and conductive U-lag 21, specifically, ignition mechanism further includes insulating supporting 12 and ignition electrode 11, The ignition electrode 11 can be inserted into ceramic tube 50, and conductive U-lag 21 can accommodate the ceramic tube 50 for being inserted with ignition electrode 11, pass through ignition electrode 11 can detect ceramic tube 50 with the electric discharge of conductive U-lag 21；In addition, when ignition electrode 11 and conductive U-lag 21 discharge, Dematron mechanism can drive ceramic tube 50 to rotate, and to carry out rotating electric-discharging detection to ceramic tube 50, be replaced manually with mechanical detection, energy Enough improve precision and efficiency of detecting.

Fig. 1 is please referred to, in a specific embodiment, the ignition mechanism further include: be set in insulating supporting 12 Anode steel core, the ignition electrode 11 be steel needle, one end of the steel needle is fixed on anode steel core.In the present embodiment, insulation Support 12 is cannula-like, and anode steel core is set in insulating supporting 12, and one end of steel needle is fixed on anode steel core, that is, steel Needle is anode.Conductive U-lag 21 is cathode, in this way, the discharge examination to ceramic tube 50 can be formed.

Please continue to refer to Fig. 1, in specific structure, the high voltage package 40 includes the first connecting terminal and the second terminals Son, the conduction U-lag 21 are equipped with wiring perforation 211 far from one end of ignition mechanism, and the insulating supporting 12 is far from conductive U-shaped One end of slot 21 is equipped with wiring through-hole 121, and first connecting terminal is electrically connected by electric wire with wiring perforation 211；Described Two connecting terminals are electrically connected by passing through the electric wire of wiring through-hole 121 with anode steel core.In the present embodiment, wiring perforation 211 In conductive U-lag 21, the first connecting terminal of high voltage package 40 can be perforated by electric wire with the wiring of conductive U-lag 21 211 is direct-connected；Insulating supporting 12 is equipped with wiring through-hole 121, and the electric wire connected on the second connecting terminal passes through after wiring through-hole 121 It may be connected to anode steel core.

It further include the insulating base 22 being obliquely installed in a specific embodiment please continue to refer to Fig. 1, the conduction U Shape slot 21 is installed on insulating base 22.Insulating base 22 is obliquely installed, and can be convenient the detection to ceramic tube 50, ceramic tube 50 Along the conductive U-lag 21 that its insert port direction is upside down in insulating base 22, it is, the insert port of ceramic tube 50 is located at insulation The downside of bottom plate 22.

Further, the quantity of the conductive U-lag 21 has 8, and 8 conductive U-lags 21 are uniformly arranged.Conductive U-lag 21 quantity includes but is not limited to 8, and the quantity of the conductive U-lag 21 more than 8 or less than 8 is also replacing for the present embodiment For scheme, particular number can be designed according to actual requirement.

Referring to figure 2., in a specific embodiment, the dematron mechanism includes:

Linear guide 32,

Slide plate 35, the slide plate 35 are slidably connected in linear guide 32；

Insulation rubbing 31, the insulation rubbing 31 are set on slide plate 35 and are obliquely installed with slide plate 35, and the insulation is rubbed with the hands One side of item 31 can be contacted with the external wall friction of ceramic tube 50；

Driving mechanism 33, the driving mechanism 33 are set to the side of linear guide 32, to drive slide plate 35 to lead in straight line It is moved back and forth on rail 32.

In the present embodiment, in discharge examination, dematron mechanism drives ceramic tube 50 to rotate, and specific structure is rubbed with the hands by insulation Item 31 contacts to realize with the local friction of ceramic tube 50, specifically, driving mechanism 33 can drive slide plate 35 along linear guide 32 direction movement, the insulation rubbing 31 on slide plate 35 drive ceramic tube 50 to rotate by friction, and slide plate 35 is moved to When farthest, ceramic tube 50 is at least rotated one week, is also possible to just one week, at this point, after ceramic tube 50 completes detection, with conduction U-lag 21 separates, at this point, driving mechanism 33 drives slide plate 35 to move to initial position from farthest.Above-mentioned insulation rubbing 31 8 ceramic tubes 50 can be driven while being rotated, it is multiple that no setting is required.Certainly, which can also change corresponding number into Ground abut block.

Please continue to refer to Fig. 2, specifically, the dematron mechanism further include: support plate 34, the support plate 34 and slide plate 35 It is obliquely installed, the insulation rubbing 31 is set in support plate 34.In the present embodiment, the predominantly insulation rubbing 31 of support plate 34 is mentioned For supporting role, to facilitate the CONTACT WITH FRICTION of insulation rubbing 31 and ceramic tube 50.

Wherein, the width of the conductive U-lag 21 is slightly larger than the diameter of ceramic tube 50.The bottom of conductive U-lag 21 is in circle Arc to facilitate the rotation of ceramic tube 50, while can reduce the spacing of ceramic tube 50 and conductive U-lag 21, in this way, can be more Be conducive to the discharge examination of the ignition electrode 11 and conductive U-lag 21 in ceramic tube 50.

The above is only the preferred embodiment of the present invention, and therefore it does not limit the scope of the patent of the utility model, Under all utility models in the utility model are conceived, equivalent structure made based on the specification and figures of the utility model Transformation, or directly/be used in other related technical areas indirectly and be included in the scope of patent protection of the utility model.

Claims (8)

1. a kind of ceramic tube discharging detection device, which is characterized in that the ceramic tube discharging detection device includes:

Ignition mechanism, the ignition mechanism include insulating supporting, and the ignition electrode being fixed in insulating supporting, the ignition electrode To stretch out insulating supporting outer and pluggable in ceramic tube for one end；

Conductive U-lag, the conduction U-type groove are located at the side of ignition mechanism and can accommodate ceramic tube；

Dematron mechanism, the dematron mechanism is located at the lower section of conductive U-lag and contacts with the local friction of ceramic tube, to drive pottery Porcelain tube rotates in conductive U-lag；

High voltage package, the high voltage package are electrically connected with conductive U-lag and ignition electrode respectively.

2. ceramic tube discharging detection device as described in claim 1, which is characterized in that the ignition mechanism further include: setting In the anode steel core in insulating supporting, the ignition electrode is steel needle, and one end of the steel needle is fixed on anode steel core.

3. ceramic tube discharging detection device as claimed in claim 2, which is characterized in that the high voltage package includes the first terminals Son and the second connecting terminal, the described conduction one end of U-lag far from ignition mechanism are perforated equipped with wiring, and the insulating supporting is separate One end of conductive U-lag is equipped with wiring through-hole, and first connecting terminal is electrically connected by electric wire with wiring perforation；Described second Connecting terminal is electrically connected by passing through the electric wire of wiring through-hole with anode steel core.

4. ceramic tube discharging detection device as claimed in claim 3, which is characterized in that further include the insulation bottom being obliquely installed Plate, the conduction U-lag are installed on insulating base.

5. ceramic tube discharging detection device as claimed in claim 4, which is characterized in that the quantity of the conduction U-lag has 8 A, 8 conductive U-lags are uniformly arranged.

6. ceramic tube discharging detection device as described in claim 1, which is characterized in that the dematron mechanism includes:

Linear guide,

Slide plate, the slide plate are slidably connected in linear guide；

It insulate rubbing, the insulation rubbing is set on slide plate and is obliquely installed with slide plate, and one side of the rubbing of insulating can be with The external wall friction of ceramic tube contacts；

Driving mechanism, the driving mechanism are set to the side of linear guide, to drive slide plate to move back and forth in linear guide.

7. ceramic tube discharging detection device as claimed in claim 6, which is characterized in that the dematron mechanism further include: support Plate, the support plate are obliquely installed with slide plate, and the insulation rubbing is set in support plate.

8. ceramic tube discharging detection device as described in any one of claim 1 to 7, which is characterized in that the conduction U-lag Width is slightly larger than the diameter of ceramic tube.