CN211013428U - Row discharge leakage detector - Google Patents

Abstract

The utility model discloses a row of leakage detector that discharges of ally oneself with, include conveying mesh belt and the test section that docks in proper order along the transmission direction, be equipped with a plurality of detection stations on the test section, the test section includes transmission device and the multistage supporting platform who arranges in proper order, be equipped with two guardrails that are parallel to each other on the supporting platform, transmission device is located between two guardrails, and each detection station is established respectively on corresponding supporting platform along guardrail length direction; the support platform is hollow and erected on the frame. Mutually independent parts are formed among all detection stations through unit sections, so that mutual influence cannot be generated, and equipment damage during detection can be avoided; the guard rail is hollowed out and erected on the rack, and therefore all parts can be prevented from being damaged by pressure difference in the discharge detection process. The utility model discloses be applied to bottle production detection area.

Description

Row discharge leakage detector

Technical Field

The utility model belongs to bottle production detection area especially relates to a row of antithetical couplet discharges leak hunting machine.

Background

Application number CN201822048933.4 discloses a gang discharge leak detector, which comprises: the detection track comprises a chain wheel transmission device, two sides of the chain wheel transmission device are respectively provided with a first U-shaped groove strip in parallel, and the openings of the two first U-shaped groove strips are opposite; one first U-shaped groove strip is sequentially provided with a bottle top positive electrode detection sheet, a bottle bottom negative electrode detection sheet, a first detection sheet and a second detection sheet; a bottle top negative electrode detection sheet, a bottle bottom positive electrode detection sheet and two third detection sheets are correspondingly inserted on the other first U-shaped groove strip in sequence; the detection end of the bottle top positive electrode detection piece, the bottle top negative electrode detection piece and the bottle bottom negative electrode detection piece are provided with U-shaped openings and are inserted into the corresponding first U-shaped groove strips.

When the tandem discharge machine disclosed in the above patent document detects a medicine bottle, it is easy to damage the first U-shaped groove, the bottle top positive electrode detection piece, the bottle top negative electrode detection piece, the bottle bottom negative electrode detection piece, the bottle top positive electrode detection piece, the bottle bottom negative electrode detection piece, the first detection piece and the second detection piece.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims at providing a row discharge leak detector, which forms mutually independent parts between each detection station through a supporting platform, does not generate mutual influence and can avoid damaging equipment during detection; the supporting platform is hollowed out and erected on the frame, and therefore all parts can be prevented from being damaged by pressure difference in the discharging detection process.

In order to achieve the purpose, the utility model provides a row of discharge leak hunting machine, including conveying mesh belt and the detection section that dock in proper order along the transmission direction, be equipped with a plurality of detection stations on the detection section, the detection section includes transmission device and the supporting platform that the multistage arranges in proper order, be equipped with two guardrails that are parallel to each other on the supporting platform, transmission device is located between two guardrails, and each detection station is established respectively on corresponding supporting platform along guardrail length direction;

the support platform is hollow and erected on the frame.

Further improved, a row of leakage detection machine that discharges still includes first differential guipure, second differential guipure and first handing-over guipure, conveying mesh belt, first differential guipure, second differential guipure, first handing-over guipure and detection section dock along the direction of transmission in proper order, the transmission speed of first differential guipure is less than the transmission speed of second differential guipure. The utility model discloses a when row's leakage detection machine that allies oneself with detects the medicine bottle, the medicine bottle conveys to conveying mesh belt from the upper reaches station, carry the medicine bottle to first differential guipure through conveying mesh belt, convey the medicine bottle to the time of second differential guipure when first differential guipure, the medicine bottle is because of the speed reduction of second differential guipure, interval grow between each medicine bottle, can be with the medicine bottle difference of continuous conveying separately, it is preferred, conveying mesh belt's conveying speed is greater than first differential guipure, can realize twice difference, at first can be through first differential guipure with the medicine bottle difference little interval of opening, then divide the big interval of second differential guipure difference, divide the bottle stable, divide bottle efficient. The medicine bottles on the second differential mesh belt are transitionally conveyed to the detection section through the first cross-connecting mesh belt, and the medicine bottles are detected through the detection stations on the detection section. The utility model discloses a allies oneself with row's leak hunting machine that discharges divides the bottle to be difficult for makeing mistakes, divides the bottle more stable, and is more reliable.

In a further improvement, the transmission device is a first transmission belt, the first transmission belt is positioned between two guardrails, the upstream of the first transmission belt is in butt joint with a first cross mesh belt, push rods are equidistantly arranged on the first transmission belt, and the push rods are driven by the first transmission belt to move along the length direction of the guardrails; the first conveying belt is a chain wheel conveying mechanism, and the push rod is used for conveying the medicine bottles on the first cross connecting net belt to the guardrail and the first conveying belt.

First handing-over guipure includes two second transmission belts that are parallel to each other, has the clearance between two second transmission belts, the push rod is movable under the drive of first transmission belt and is extended to clearance department, the upper reaches and the butt joint of second differential guipure of second transmission belt, the low reaches and first transmission belt, the guardrail of second transmission belt dock respectively. When the medicine bottle is erected on the two first conveying belts, the push rod moves to the gap under the action of the first conveying belts, and the medicine bottle is poked to the two guardrails from the gap, so that perfect transition is realized.

Further improved, be equipped with the inductive switch who is used for responding to the medicine bottle on the guardrail, inductive switch is located the butt joint department of guardrail and second transmission band, inductive switch and second transmission band, conveying mesh belt, first differential guipure, second differential guipure electric property link to each other respectively. Inductive switch is optic fibre, is used for counting the medicine bottle on the one hand, and on the other hand senses the pay-off that the medicine bottle can control second transmission mesh belt through optic fibre, and after inductive switch sensed the medicine bottle, the pay-off of control second transmission mesh belt did not detect the medicine bottle, then the pay-off is not carried to control second transmission mesh belt. The optical fiber directly controls feeding for the second transmission mesh belt, and the transmission mesh belt, the first differential mesh belt and the second differential mesh belt can realize synchronous control according to the control of the second transmission mesh belt.

Further improved, detect the station and detect station, bottleneck including establishing bottle top detection station, the detection station of first bottle end, first bottle end detection station and the detection station of second bottle end on each supporting platform respectively, be equipped with bellied first sand grip and second sand grip along the inboard of a guardrail, first bottle end detection station is close to first sand grip department and sets up, second bottle end detection station is close to second sand grip department and sets up, when the medicine bottle transmits on first transmission band, the top of medicine bottle is along first sand grip and the transmission of second sand grip, the bottom downward sloping of medicine bottle, the sense terminal that detects the station at the bottom of the first bottle is relative with the lower part of slope medicine bottle, the sense terminal that detects the station at the bottom of the second bottle is relative with the upper portion of slope medicine bottle. The bottle top detection station, the bottle neck detection station, the first bottle bottom detection station and the second bottle bottom detection station are used for detecting the medicine bottle through detection respectively, as shown in the figures, one of the two detection needles is a high-voltage end, the other detection needle is a low-voltage end, as shown in the figures, S is the high-voltage end, S is the low-voltage end, R is a resistor, V is a voltmeter, the high-voltage end discharges electricity, the low-voltage end receives electricity, and when the detection is carried out, if the detection is carried out, the medicine bottle does not leak, and is a qualified medicine bottle; if the detected current is larger, the leakage of the medicine bottle is indicated, and the medicine bottle is unqualified.

When the medicine bottle is transported on first transmission band, can be with the top tilt up of medicine bottle through first sand grip and second sand grip. The detection end that makes first bottle end detection station can detect the lower part of slope medicine bottle, and the detection end that the second bottle end detected the station can detect the upper portion of slope medicine bottle.

The detection section comprises a detection section, a slide rail is arranged on the support seat, the length direction of the slide rail is consistent with the width direction of the guardrail, a slide block is arranged on the guardrail, and the two guardrails are arranged on the slide rail in a sliding mode through the slide block. The supporting seat is used for supporting the sliding rail, and the width between the two guardrails can be adjusted along the direction of the sliding rail through the sliding block, so that the guardrails can adapt to medicine bottles of different specifications.

Further improved, be equipped with the retaining member that is used for locking slider and slide rail on the slider, be equipped with the scale along slide rail length direction. The retaining member is the bolt, still is equipped with the handle on the bolt, passes through slider and slide rail regulation back when the guardrail, with retaining member locking, makes the rigidity of guardrail, and the scale that sets up on the slide rail can regard as the reference of adjusting the guardrail.

In a further improvement, the supporting seat is higher than the rack, and the supporting platform is erected on the rack through the hollow supporting seat to prevent the complete machine from contacting too closely, so that pressure difference is prevented from damaging each part in the discharge detection process.

In a further improvement, a vibration station is arranged on the detection section and is positioned at the upstream of the detection station; the downstream of the detection section is also butted with a waste removing device, and the detection section and the waste removing device are butted through a second cross-over mesh belt; the upstream of the conveying mesh belt is also butted with a turning mesh belt. The structure of the waste rejecting device can refer to a waste rejecting bottle track in a combined discharge leakage detecting machine disclosed in the application number of CN201822048933.4, and unqualified medicine bottle rejection can be detected. The vibrating structure of the vibrating station can refer to a vibrating structure of a bottle body used on a leak detection machine disclosed in application No. CN 201821739814.7. The medicine bottle can vibrate the liquid medicine in the medicine bottle to the bottle head at the vibration station vibration, makes the liquid medicine distribution even, can improve the rate of accuracy that detects the medicine bottle.

By butting the turnover mesh belt with the conveying mesh belt, when a detection section has a problem, the turnover mesh belt can be turned over, so that the turnover mesh belt is not butted with the conveying mesh belt, the turnover mesh belt can be turned downwards, a medicine bottle produced at an upstream station of the turnover mesh belt falls from the turnover mesh belt, the production of the upstream station cannot be influenced, and the upstream station can be normally produced; after the detection section is repaired, the overturning mesh belt can be butted with the conveying mesh belt again. The overturning mesh belt is a mesh belt capable of overturning, and the structure of the overturning mesh belt can refer to a waste bottle rejecting track in a combined discharge leak detector disclosed in the application number of CN 201822048933.4.

The improved bottle opener is characterized in that the improved bottle opener is further improved, a plurality of fixing seats are arranged on the guardrail, supporting arms are arranged on the fixing seats, and the detection end of the bottle top detection station, the detection end of the bottle neck detection station, the detection end of the first bottle bottom detection station and the detection end of the second bottle bottom detection station are respectively arranged on the guardrail in a hanging mode through the corresponding supporting arms. The fixing base is fixed on the guardrail, and the support arm rotates to be established on the guardrail, and the sense end of bottle top detection station, the sense end of bottleneck detection station, the sense end of first bottle end detection station and the sense end of second bottle end detection station are respectively for detecting the needle, should detect the needle dress at the tip of support arm, detect the needle and pass through the unsettled setting of support arm on the guardrail. The unsettled setting of detection needle, detection needle and guardrail contactless can break detection needle isotructure when avoiding high-voltage discharge.

Compared with the prior art, the utility model discloses technical scheme's beneficial effect:

the utility model discloses a when row's leakage detection machine that allies oneself with detects the medicine bottle, the medicine bottle conveys to conveying mesh belt from the upper reaches station, carries the medicine bottle to the detection zone through conveying mesh belt, and when the medicine bottle was conveyed to the detection zone, the medicine bottle erects on two guardrails, and transmission device provides power for the conveying of medicine bottle, and the in-process of conveying on the guardrail detects the medicine bottle through the detection station on the detection zone.

The utility model discloses a guardrail of row's leak detector that discharges has fallen into a plurality of supporting platforms, and each detection station sets up alone through each supporting platform, consequently, can not produce the interact between each detection station, can avoid each detection station to damage equipment such as guardrail and detection station at the in-process that discharges and detect.

The utility model discloses a supporting platform of row's leak detector that ally oneself with still fretwork erects in the frame, prevents that the complete machine contact is too close, prevents to damage each part at the poor hitting of discharge testing in-process middling pressure.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a perspective view of a gang discharge leak detector;

FIG. 2 is a top view of a gang discharge leak detector;

FIG. 3 is a front view of a gang discharge leak detector;

FIG. 4 is a perspective view of the detection segment;

FIG. 5 is a perspective view of the waste removing device;

FIG. 6 is a schematic view of a vial top inspection station inspecting a vial;

FIG. 7 is a schematic view of a bottle neck inspection station inspecting a vial;

FIG. 8 is a schematic view of the second bottom detection station detecting a vial;

FIG. 9 is a schematic view of a first bottom inspection station inspecting a vial;

fig. 10 is a schematic diagram of discharge detection.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, descriptions in the present application as to "first", "second", and the like are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit to the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two or more, for example, three or the like, unless specifically defined otherwise.

In the present application, unless expressly stated or limited otherwise, the terms "connected" and "fixed" are to be construed broadly, e.g., "fixed" may be fixedly connected or detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In addition, the technical solutions between the embodiments of the present invention can be combined with each other, but it is necessary to be able to be realized by a person having ordinary skill in the art as a basis, and when the technical solutions are contradictory or cannot be realized, the combination of such technical solutions should be considered to be absent, and is not within the protection scope of the present invention.

As shown in fig. 1 to 10, a tandem discharge leak detector includes a conveying mesh belt 1 and a detection section 5 which are sequentially butted along a transmission direction, the detection section 5 is provided with a plurality of detection stations 6, the detection section 5 includes a transmission device 51 and a plurality of sequentially arranged support platforms 5121, the support platforms 5121 are provided with two parallel guardrails 512, the transmission device 51 is located between the two guardrails 512, and each detection station 6 is respectively arranged on the corresponding support platform 5121 along the length direction of the guardrail 512;

the support platform 5121 is hollow and erected on the frame 65.

When the inline discharge leak detection machine of this embodiment detects medicine bottle 101, medicine bottle 101 conveys to conveying mesh belt 1 from the upper reaches station, conveys medicine bottle 101 to detection section 5 through conveying mesh belt 1, and when medicine bottle 101 was conveyed to the detection section, medicine bottle 101 erect on two guardrails 512, and transmission device 51 provides power for the conveying of medicine bottle 101, and the in-process of conveying on guardrail 512 detects medicine bottle 101 through detection station 6 on detection section 5.

The guardrail 512 of the row discharge leak detector of the embodiment is divided into a plurality of supporting platforms 5121, and each detection station 6 is independently arranged through each supporting platform 5121, so that mutual influence cannot be generated between each detection station 6, and the condition that the guardrail 512 and the detection station 6 and other equipment are damaged by each detection station 6 in the discharge detection process can be avoided.

The supporting platform 5121 of the gang discharge leak detector of the embodiment is also hollow and erected on the frame 65, so that the contact of the whole machine is prevented from being too close, and the pressure difference is prevented from damaging all parts in the discharge detection process.

In this embodiment, as a further step of the above technical solution, a row of leakage detecting machines that discharges in line still includes first differential guipure 2, second differential guipure 3 and first handing-over guipure 4, conveying guipure 1, first differential guipure 2, second differential guipure 3, first handing-over guipure 4 and detection segment 5 dock along the direction of transmission in proper order, the transmission speed of first differential guipure 2 is less than the transmission speed of second differential guipure 3. When the inline discharge leak detection machine of this embodiment detects medicine bottle 101, medicine bottle 101 conveys to conveying mesh belt 1 from the upper reaches station, convey medicine bottle 101 to first differential guipure 2 through conveying mesh belt 1, when first differential guipure 2 conveys medicine bottle 101 to second differential guipure 3, medicine bottle 101 is because of the speed reduction of second differential guipure 3, the interval between each medicine bottle 101 becomes, can open the medicine bottle 101 difference of continuous conveying, preferably, conveying mesh belt 1's conveying speed is greater than first differential guipure 2, can realize twice difference, can open the little interval with medicine bottle 101 difference through first differential guipure 2 at first, then open big interval with second differential 3 difference, divide the bottle stably, it is efficient to divide the bottle. The medicine bottles 101 on the second differential mesh belt 3 are transitionally conveyed to the detection section 5 through the first cross-connecting mesh belt 4, and the medicine bottles 101 are detected through the detection station 6 on the detection section 5. The row of ally oneself with of this embodiment discharges the leak hunting machine and divides the bottle difficult mistake, divides the bottle more stable, and is more reliable.

In this embodiment, as a further aspect of the above technical solution, the transmission device 51 is a first transmission belt 511, the first transmission belt 511 is located between two guardrails 512, an upstream of the first transmission belt 511 is in butt joint with the first cross mesh belt 4, push rods 513 are equidistantly arranged on the first transmission belt 511, and the push rods 513 are driven by the first transmission belt 511 to move along the length direction of the guardrails 512; the first conveyor 511 is a sprocket conveyor, and the push rod 513 is used to transfer the vials 101 from the first cross web 4 to the guard rail 512 and the first conveyor 511.

First handing-over guipure 4 includes two second transmission bands 41 that are parallel to each other, has the clearance between two second transmission bands 41, push rod 513 is the activity under the drive of first transmission band 511 and is extended to clearance department, the butt joint of the upper reaches and the second differential guipure 3 of second transmission band 41, the lower reaches and first transmission band 511 of second transmission band 41, guardrail 512 dock respectively. When the medicine bottle 101 is erected on the two first conveyor belts 511, the push rod 513 moves to the gap under the action of the first conveyor belts 511, and the medicine bottle 101 is pushed to the two guardrails 512 from the gap, so that a perfect transition is realized.

In this embodiment, as a further aspect of the above technical solution, the guardrail 512 is provided with an inductive switch 52 for sensing the medicine bottles 101, the inductive switch 52 is located at a butt joint of the guardrail 512 and the second conveyor belt 41, and the inductive switch 52 and the second conveyor belt 41, the conveying mesh belt 1, the first differential mesh belt 2, and the second differential mesh belt 3 are respectively and electrically connected. The sensing switch 52 is an optical fiber, on one hand, used for counting the vials 101, on the other hand, sensing the vials 101 through the optical fiber can control the feeding of the second conveying mesh belt 41, when the sensing switch 52 senses the vials 101, the second conveying mesh belt 41 is controlled to feed, and if the vials 101 are not detected, the second conveying mesh belt 41 is controlled not to feed. The optical fiber is directly controlled to feed the second conveying mesh belt 41, and the conveying mesh belt 1, the first differential mesh belt 2 and the second differential mesh belt 3 can be synchronously controlled according to the control of the second conveying mesh belt 41.

In this embodiment, as a further aspect of the above technical solution, the detection station 6 includes a bottle top detection station 61, a bottle neck detection station 62, a first bottle bottom detection station 63, and a second bottle bottom detection station 64 respectively disposed on each support platform 5121, wherein a first protrusion 53 and a second protrusion 54 protruding from the inner side of a guardrail 512 are disposed along the guardrail, the first bottle bottom detection station 63 is disposed near the first protrusion 53, the second bottle bottom detection station 64 is disposed near the second protrusion 54, when the medicine bottle 101 is transported on the first transport belt 511, the top of the medicine bottle 101 is transported along the first protrusion 53 and the second protrusion 54, the bottom of the medicine bottle 101 is tilted downward, the detection end of the first bottle bottom detection station 63 is opposite to the lower portion of the tilted medicine bottle 101, and the detection end of the second bottle bottom detection station 64 is opposite to the upper portion of the tilted medicine bottle 101. The bottle top detection station 61, the bottle neck detection station 62, the first bottle bottom detection station 63 and the second bottle bottom detection station 64 respectively detect the medicine bottle 101 through detection, as shown in fig. 5 to 10, one of the two detection needles is a high-voltage end, the other detection needle is a low-voltage end, as shown in fig. 10, S1 is the high-voltage end, S2 is the low-voltage end, R is a resistor, V is a voltmeter, the high-voltage end discharges electricity, the low-voltage end receives electricity, and when detection is performed, if a current is detected to be small, the medicine bottle 101 is not leaked, and is the qualified medicine bottle 101; if a large current is detected, it indicates that there is a leak in the vial 101, and the vial 101 is rejected.

The top of the vial 101 can be tilted upward by the first and second ribs 53 and 54 while the vial 101 is conveyed on the first conveyor belt 511. The detection end of the first bottom detection station 63 is enabled to detect the lower portion of the tilted medicine bottle 101, and the detection end of the second bottom detection station 64 is enabled to detect the upper portion of the tilted medicine bottle 101.

In this embodiment, as a further step of the above technical solution, the detection section 5 further includes a support seat 55, a slide rail 56 is disposed on the support seat 55, a length direction of the slide rail 56 is identical to a width direction of the guard rail 512, a slide block 57 is disposed on the guard rail 512, and the two guard rails 512 are slidably disposed on the slide rail 56 through the slide block 57. The supporting seat 55 is used for supporting the sliding rail 56, and the width between the two guardrails 512 can be adjusted along the direction of the sliding rail 56 through the sliding block 57, so that the guardrails 512 can adapt to the medicine bottles 101 with different specifications.

In this embodiment, as a further aspect of the above technical solution, a locking member 58 for locking the sliding block 57 and the sliding rail 56 is disposed on the sliding block 57, and a scale 59 is disposed along the length direction of the sliding rail 56. The locking member 58 is a bolt, a handle is further arranged on the bolt, after the guardrail 512 is adjusted through the sliding block 57 and the sliding rail 56, the locking member 58 is locked, the position of the guardrail 512 is fixed, and the scale 59 arranged on the sliding rail 56 can be used as a reference for adjusting the guardrail 512.

In this embodiment, as a further aspect of the above technical solution, the height of the supporting seat 55 is higher than that of the frame 65, and the supporting platform 5121 is erected on the frame 65 through the supporting seat 55 in a hollow manner to prevent the complete machine from contacting too closely, so as to prevent each component from being damaged by differential pressure in the discharge detection process.

In this embodiment, as a further aspect of the above technical solution, a vibration station 7 is disposed on the detection section 5, and the vibration station 7 is located at an upstream of the detection station 6; a waste rejecting device 8 is further arranged at the downstream of the detection section 5, and the detection section 5 is in butt joint with the waste rejecting device 8 through a second cross mesh belt 81; the upstream of the conveying mesh belt 1 is also butted with a turning mesh belt 9. The reject device 8 can refer to a reject bottle track in a combined discharge leak detector disclosed in the application number CN201822048933.4, and can detect reject of unqualified medicine bottles 101. The vibrating structure of the vibrating station 7 can refer to a vibrating structure of a bottle body used in a leak detecting machine disclosed in application No. CN 201821739814.7. Medicine bottle 101 can vibrate the liquid medicine in the medicine bottle 101 to the bottle head at vibration station 7 vibration, makes the liquid medicine distribute evenly, can improve the rate of accuracy that detects medicine bottle 101. The second cross mesh belt 81 has the same structure as the first cross mesh belt 4 and functions similarly. The second web 81 is also used to transfer the vials 101 on the inspection station 5 to the reject device 8.

By butting the turnover mesh belt 9 with the conveying mesh belt 1, when the detection section 5 has a problem, the turnover mesh belt 9 can be turned over, so that the turnover mesh belt 9 is not butted with the conveying mesh belt 1, the turnover mesh belt 9 can be turned over downwards, the medicine bottles 101 produced on the upstream station of the turnover mesh belt 9 fall from the turnover mesh belt 9, the production of the upstream station cannot be influenced, and the upstream station can be normally produced; when the detection section 5 is repaired, the overturning mesh belt 9 can be butted with the conveying mesh belt 1 again. The overturning mesh belt 9 is a mesh belt capable of overturning, and the structure of the overturning mesh belt 9 can refer to a waste bottle rejecting track in a combined discharge leak detector disclosed in application number CN 201822048933.4.

In this embodiment, as a further of above-mentioned technical scheme, be equipped with a plurality of fixing bases 514 on guardrail 512, be equipped with support arm 515 on the fixing base 514, the sense terminal of bottle top detection station 61, the sense terminal of bottleneck detection station 62, the sense terminal of first bottle end detection station 63 and the sense terminal of second bottle end detection station 64 are unsettled to be established on guardrail 512 through corresponding support arm 515 respectively. Fixing base 514 is fixed on guardrail 512, and support arm 515 rotates and establishes on the guardrail, and the sense terminal of bottle top detection station 61, the sense terminal of bottleneck detection station 62, the sense terminal of first bottle end detection station 63 and the sense terminal of second bottle end detection station 64 are the detection needle respectively, and this detection needle dress is at the tip of support arm 515, and the setting that the detection needle passes through support arm 515 unsettled is on the guardrail. The unsettled setting of detection needle, detection needle and guardrail 512 contactless can avoid hitting when high-voltage discharge and detect needle isotructure.

The above only is the preferred embodiment of the present invention, not so limiting the patent scope of the present invention, all under the concept of the present invention, the equivalent structure transformation made by the contents of the specification and the drawings is utilized, or the direct/indirect application is included in other related technical fields in the patent protection scope of the present invention.

Claims (10)

1. The row-in-row discharge leak detector is characterized by comprising a conveying mesh belt (1) and a detection section (5) which are sequentially butted along a transmission direction, wherein a plurality of detection stations (6) are arranged on the detection section (5), the detection section (5) comprises a transmission device (51) and a plurality of sections of supporting platforms (5121) which are sequentially arranged, two parallel guardrails (512) are arranged on each supporting platform (5121), the transmission device (51) is positioned between the two guardrails (512), and each detection station (6) is respectively arranged on the corresponding supporting platform (5121) along the length direction of the guardrail (512);

still include frame (65), supporting platform (5121) fretwork erects on frame (65).

2. The inline discharge leak detector according to claim 1, further comprising a first differential mesh belt (2), a second differential mesh belt (3), and a first cross mesh belt (4), wherein the conveying mesh belt (1), the first differential mesh belt (2), the second differential mesh belt (3), the first cross mesh belt (4), and the detection section (5) are sequentially butted along a conveying direction, and a conveying speed of the first differential mesh belt (2) is less than a conveying speed of the second differential mesh belt (3).

3. The inline discharge leak detector according to claim 2, wherein the transmission device (51) is a first transmission belt (511), the first transmission belt (511) is located between two guardrails (512), the upstream of the first transmission belt (511) is butted with a first cross mesh belt (4), push rods (513) are equidistantly arranged on the first transmission belt (511), and the push rods (513) are driven by the first transmission belt (511) to move along the length direction of the guardrails (512);

first handing-over guipure (4) include two second transmission bands (41) that are parallel to each other, have the clearance between two second transmission bands (41), push rod (513) are the activity under the drive of first transmission band (511) and are extended to clearance department, the upper reaches and the butt joint of second differential guipure (3) of second transmission band (41), the low reaches and first transmission band (511), guardrail (512) of second transmission band (41) dock respectively.

4. The inline discharge leak detector according to claim 3, wherein an inductive switch (52) for sensing the medicine bottles (101) is disposed on the guardrail (512), the inductive switch (52) is located at a butt joint of the guardrail (512) and the second conveyor belt (41), and the inductive switch (52) and the second conveyor belt (41), the conveying mesh belt (1), the first differential mesh belt (2), and the second differential mesh belt (3) are electrically connected to each other.

5. The inline discharge leak detector according to claim 4, wherein the detection station (6) comprises a bottle top detection station (61), a bottle neck detection station (62), a first bottle bottom detection station (63) and a second bottle bottom detection station (64) respectively provided on each support platform (5121), wherein a first rib (53) and a second rib (54) are provided along an inner side of one of the guardrails (512), the first bottle bottom detection station (63) is provided near the first rib (53), the second bottle bottom detection station (64) is provided near the second rib (54), the top of the medicine bottle (101) is conveyed along the first rib (53) and the second rib (54) while the medicine bottle (101) is conveyed on the first conveyor belt (511), the bottom of the medicine bottle (101) is inclined downward, the detection end of the first bottle bottom detection station (63) is opposite to the lower portion of the inclined medicine bottle (101), the detection end of the second bottle bottom detection station (64) is opposite to the upper part of the inclined medicine bottle (101).

6. The inline discharge leak detector according to claim 3, wherein the detection section (5) further comprises a support base (55), a slide rail (56) is arranged on the support base (55), the length direction of the slide rail (56) is consistent with the width direction of the guard rail (512), a slide block (57) is arranged on the guard rail (512), and the two guard rails (512) are slidably arranged on the slide rail (56) through the slide block (57).

7. The inline discharge leak detector according to claim 6, wherein the slide block (57) is provided with a locking member (58) for locking the slide block (57) and the slide rail (56), and a scale (59) is provided along the length direction of the slide rail (56).

8. The inline discharge leak detector according to claim 6, wherein the supporting seat (55) is higher than the frame (65), and the supporting platform (5121) is erected on the frame (65) through the hollow of the supporting seat (55).

9. The inline discharge leak detector according to claim 1, wherein a vibration station (7) is provided on the detection section (5), and the vibration station (7) is located upstream of the detection station (6); a waste rejecting device (8) is further arranged at the downstream of the detection section (5), and the detection section (5) is butted with the waste rejecting device (8) through a second cross mesh belt (81); the upstream of the conveying mesh belt (1) is also butted with a turning mesh belt (9).

10. The in-line discharge leak detector according to claim 5, wherein a plurality of fixing seats (514) are provided on the guardrail (512), support arms (515) are provided on the fixing seats (514), and the detection end of the bottle top detection station (61), the detection end of the bottle neck detection station (62), the detection end of the first bottle bottom detection station (63), and the detection end of the second bottle bottom detection station (64) are respectively provided on the guardrail (512) in a suspended manner through the corresponding support arms (515).

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