CN214277946U - Explosion-proof lamp inspection machine - Google Patents

Abstract

The utility model discloses a machine is examined to explosion-proof lamp belongs to the machine field is examined to the lamp, provides a machine is examined to explosion-proof lamp that can be effectively explosion-proof, including mounting platform, be provided with feed arrangement, main carousel detection device and discharging device on mounting platform in proper order continuously, main carousel detection device includes a plurality of detection stations, and every detection station is provided with camera and light source, the camera adopts the camera explosion-proof structure to install, the light source adopts the light source explosion-proof structure to install. The utility model discloses last in the use to corresponding installation intracavity feed malleation gas through corresponding inlet port, make the installation intracavity keep pressure to be greater than external environment's atmospheric pressure, can avoid inside gas admission camera installation casing and the light source installation casing among the external environment effectively like this to this reaches the direct contact of flammable explosive gas and camera or light source isoelectronic device in avoiding the environment and causes the incident, can satisfy the operation is examined to the lamp of special product.

Description

Explosion-proof lamp inspection machine

Technical Field

The utility model relates to a machine field is examined to the lamp, especially relates to a machine is examined to explosion-proof lamp.

Background

The light inspection machine is generally used for performing light inspection operation on products, and is generally used for inspecting bottle-type products, such as infusion bottles, ampoules, and the like. However, for some special products, such as flammable and explosive products, for example, when a light inspection operation is performed on a filled wine bottle, some electric devices in the light inspection machine, such as a camera, a light source, a motor and/or a driver, need to be isolated from an external special environment, otherwise, a safety accident is easily caused during the use of the camera.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem provide an explosion-proof lamp inspection machine that can be effectively explosion-proof.

The utility model provides a technical scheme that its technical problem adopted is: the explosion-proof lamp inspection machine comprises an installation platform, wherein a feeding device, a main rotary disc detection device and a discharging device are sequentially arranged on the installation platform in a connected mode, the main rotary disc detection device comprises a plurality of detection stations, each detection station is provided with a camera and a light source, the cameras are installed by adopting a camera explosion-proof structure, the camera explosion-proof structure comprises a camera installation shell, a closed installation cavity is formed in the camera installation shell, and a transparent cover plate, a camera air inlet port and a camera inlet and outlet port are arranged on the camera installation shell; the camera is arranged in the camera mounting shell, a lens of the camera is opposite to the transparent cover plate, the camera air inlet port is used for being connected with positive pressure air supply equipment through a pipeline, and the camera is connected with external equipment through a cable which penetrates through the port of the camera air inlet and outlet; the light source adopts light source explosion-proof structure to install, and light source explosion-proof structure includes light source installation casing, forms confined installation cavity in light source installation casing, is provided with transparent play light panel, light source inlet port and light source business turn over line port on light source installation casing, the light source is installed in light source installation casing, light source inlet port is used for linking to each other with malleation air feeder through the pipeline, the light source links to each other with external equipment through the cable that passes light source business turn over line port setting.

Further, the method comprises the following steps: a camera exhaust port is arranged on the camera mounting shell and is used for discharging gas in a mounting cavity of the camera mounting shell outwards through a pipeline; the light source mounting shell is provided with a light source exhaust port, and the light source exhaust port discharges gas in a mounting cavity of the light source mounting shell through a pipeline.

Further, the method comprises the following steps: the camera mounting shell comprises a first mounting cover, a second mounting cover, a first cover ring and a second cover ring; the first mounting cover and the second mounting cover are both in a cylindrical structure, one end of the first mounting cover is in threaded connection with the first cover ring, the other end of the first mounting cover is in threaded connection with one end of the second mounting cover, and the other end of the second mounting cover is in threaded connection with the second cover ring; the transparent cover plate is arranged on the first cover ring, the camera wire inlet and outlet port is arranged on the second cover ring, and the camera air inlet port is arranged on the cylindrical wall of the first mounting cover or the second mounting cover.

Further, the method comprises the following steps: the camera mounting shell further comprises a camera mounting plate, the camera mounting plate comprises a mounting portion connected with a camera and a buckling portion formed after the camera mounting plate is bent relative to the mounting portion, a circle of mounting steps are arranged at one end, close to the first mounting cover, in the second mounting cover, and the buckling portion is in lap joint with the mounting steps.

Further, the method comprises the following steps: the camera is connected with the mounting part through a screw; the buckling part and the mounting step are in compression fit through threaded connection between the first mounting cover and the second mounting cover or the buckling part and the mounting step are connected through a screw.

Further, the method comprises the following steps: the light source mounting shell is formed by enclosing a transparent light-emitting panel, a back plate and a frame, the transparent light-emitting panel and the back plate are arranged at intervals in parallel, and the frame is arranged around the transparent light-emitting panel and the back plate for sealing connection so as to form a closed mounting cavity in the transparent light-emitting panel, the back plate and the frame around; the light source comprises a lamp panel, a light-emitting lamp bead is arranged on the lamp panel, and the lamp panel is arranged on a back plate in the light source mounting shell; the light source air inlet port and the light source wire inlet and outlet port are arranged on the frame.

Further, the method comprises the following steps: still be provided with the lamp and examine quick-witted driver on mounting platform, the lamp is examined quick-witted driver and is adopted driver explosion-proof structure to install, and driver explosion-proof structure includes driver installation casing, forms confined installation cavity in driver installation casing, is provided with driver inlet port and driver business turn over line port on driver installation casing, the lamp is examined quick-witted driver and is installed in driver installation casing, driver inlet port is used for linking to each other with malleation air feeder through the pipeline, the lamp is examined quick-witted driver and is linked to each other with external equipment through the cable that passes driver business turn over line port setting.

Further, the method comprises the following steps: the driver installation shell is provided with a driver exhaust port, and the driver exhaust port discharges gas in an installation cavity of the driver installation shell through a pipeline.

Further, the method comprises the following steps: the spinning motor is in transmission connection with the rotating seat and used for driving the rotating seat to spin, and the spinning motor is an explosion-proof motor.

Further, the method comprises the following steps: the device further comprises a main motor used for driving a main rotating disc in the main rotating disc detection device, wherein the main motor is an explosion-proof motor.

The utility model has the advantages that: the utility model discloses an adopt the camera explosion-proof structure that has explosion-proof effect to install the camera, and install the light source through adopting light source explosion-proof structure, last in the use to supply malleation gas to corresponding installation intracavity through corresponding inlet port, make the installation intracavity keep pressure to be greater than external environment's atmospheric pressure, gas in can avoiding external environment effectively like this gets into inside camera installation casing and the light source installation casing, reach the direct contact of flammable explosive gas in avoiding the environment and devices such as camera or light source and cause the incident with this, can satisfy the operation is examined to the lamp of special products. Similarly, the driver is installed by further arranging a corresponding driver explosion-proof structure, so that the explosion-proof effect on the driver can be achieved; and for the corresponding motor in the lamp inspection machine, the explosion-proof motor is adopted, so that the corresponding motor has an explosion-proof effect. And then machine is examined to explosion-proof lamp, better explosion-proof effect has on the whole, can avoid effectively having the condition of potential safety hazard when examining the operation to the lamp of some inflammable and explosive interior material.

Drawings

Fig. 1 is a schematic perspective view of an explosion-proof lamp inspection machine according to the present invention;

FIG. 2 is a front view of FIG. 1;

FIG. 3 is a top view of FIG. 1;

FIG. 4 is an enlarged view of detail A of FIG. 1;

FIG. 5 is a schematic view of an explosion-proof configuration of the camera;

FIG. 6 is a schematic half-section view of FIG. 5;

FIG. 7 is a side view of FIG. 5;

FIG. 8 is a schematic view of an explosion-proof configuration of the light source;

FIG. 9 is a front view of FIG. 8;

FIG. 10 is a cross-sectional view of section B-B of FIG. 9;

FIG. 11 is a schematic view of an explosion proof configuration of the actuator;

FIG. 12 is a front view of FIG. 11;

FIG. 13 is an internal partial cross-sectional view of FIG. 11;

FIG. 14 is a schematic view of a rotary base;

FIG. 15 is a view of a spin motor;

labeled as: the device comprises an installation platform 1, a feeding device 2, a main rotating disc detection device 3, a discharging device 4, a camera 5, a light source 6, a camera installation shell 7, a transparent cover plate 8, a camera air inlet port 9, a camera wire inlet/outlet port 10, a lens 11, a light source installation shell 12, a transparent light-emitting panel 13, a light source air inlet port 14, a first adjusting knob 15, a camera exhaust port 16, a light source exhaust port 17, a first installation cover 18, a second installation cover 19 and a first cover ring 20, the lamp inspection device comprises a second cover ring 21, a camera mounting plate 22, a mounting portion 23, a buckling portion 24, a mounting step 25, a back plate 26, a frame 27, a lamp panel 28, a light-emitting lamp bead 29, a lamp inspection device driver 30, a driver mounting shell 31, a driver air inlet port 32, a second adjusting knob 33, a driver exhaust port 34, a rotary seat 35, a synchronizing wheel 351, a spin motor 36, a synchronizing belt 361, a main rotary disc 37 and a main motor 38.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

It should be noted that, if the present invention relates to directional indication terms, such as the terms of direction and orientation, above, below, left, right, front and back, for facilitating the description of the relative position relationship between the components, the absolute position that is not the relative position relationship between the related components and the components is specifically referred to, and is only used for explaining the relative position relationship and the motion condition between the components in a certain specific attitude, and if the specific attitude changes, the directional indication changes accordingly. In the present invention, the terms "a" and "an" refer to a plurality of items, such as "a plurality of items" and "a plurality of items".

As shown in fig. 1 to 15, explosion-proof lamp inspection machine, including mounting platform 1, be provided with feed arrangement 2, main capstan detection device 3 and discharging device 4 on mounting platform 1 in proper order consecutively, main capstan detection device 3 includes a plurality of detection station, and every detection station is provided with camera 5 and light source 6.

The feeding device 2 is a structure for feeding materials to the main rotating disc detection device 3, and generally comprises a feeding conveying line, a feeding screw, a feeding star wheel and the like; the main rotating disc detection device 3 is suitable for clamping a detected product, then rotating the product along the rotating main rotating disc 37, and detecting the product through a corresponding detection station arranged in the main rotating disc detection device 3 in the rotating process; when in detection, the camera 5 needs to collect images, and then the collected images are transmitted to a processing system for image processing so as to judge whether the product is qualified or not; the light source 6 is used for lighting in the process of collecting image information by the camera 5 so as to ensure the quality of the collected image; in addition, the discharging device 4 is used for outputting the detected product, and generally comprises a discharging star wheel, a discharging conveying line and other structures.

The camera 5 and the light source 6 are both electric products, so that power is not needed in the use process; in the process of lamp inspection for flammable and explosive products, gas generated by flammable and explosive substances is distributed in the surrounding environment of the lamp inspection machine, so that safety accidents occur after the gas is electrically triggered inside a camera or a light source. Therefore, the utility model discloses in adopt as follows to camera 5 and light source 6's special mounting structure: the camera 5 is installed by adopting a camera explosion-proof structure, the camera explosion-proof structure comprises a camera installation shell 7, a closed installation cavity is formed in the camera installation shell 7, and a transparent cover plate 8, a camera air inlet port 9 and a camera wire inlet and outlet port 10 are arranged on the camera installation shell 7; the camera 5 is arranged in the camera mounting shell 7, a lens 11 of the camera 5 is opposite to the transparent cover plate 8, the camera air inlet port 9 is used for being connected with positive pressure air supply equipment through a pipeline, and the camera 5 is connected with external equipment through a cable which penetrates through the camera wire inlet/outlet port 10; the light source 6 adopts the light source explosion-proof structure to install, and the light source explosion-proof structure includes light source installation casing 12, forms confined installation cavity in light source installation casing 12, is provided with transparent light-emitting panel 13, light source inlet port 14 and light source business turn over line port (not marked in the figure) on light source installation casing 12, light source 6 is installed in light source installation casing 12, light source inlet port 14 is used for linking to each other with malleation air feeder through the pipeline, light source 6 links to each other with external equipment through the cable that passes light source business turn over line port and set up. The lens 11 captures images through the transparent cover 8, and the transparent cover 8 may be made of transparent glass or transparent plastic material. And to facilitate control of the amount of intake air flow at the light source intake port 14, a first adjustment knob 15 may also be provided at the light source intake port 14.

Like this, through setting up camera 5 wholly in the inside installation intracavity of camera installation casing 7, accessible air supply line and camera inlet port 9 intercommunication back when using, can last to be supplied with to the installation intracavity and have a pressure gas, and then make the installation intracavity keep pressure to be greater than external environment's atmospheric pressure, can avoid the gas among the external environment to enter into inside camera installation casing 7 effectively like this, reach the flammable explosive gas of avoiding in the environment and contact with camera 5 and cause the incident with this, can satisfy the light of special products and examine the operation. Similarly, by disposing the light source 6 integrally in the mounting cavity inside the light source mounting housing 12, it is possible to avoid safety accidents caused by the contact of flammable and explosive gases in the environment with the light source 6.

More specifically, the present invention further provides a camera exhaust port 16 on the camera mounting housing 7, wherein the camera exhaust port 16 discharges the gas in the mounting cavity of the camera mounting housing 7 through a pipeline; a light source exhaust port 17 is arranged on the light source mounting shell 12, and the light source exhaust port 17 discharges gas in the mounting cavity of the light source mounting shell 12 through a pipeline. Thus, under the condition that the air pressure in the corresponding installation cavity is higher than that of the external environment, the corresponding camera exhaust port 16 and the corresponding light source exhaust port 17 are further arranged for exhausting, the gas circulation effect in the installation cavity can be improved, and meanwhile, the condition that the gas in the installation cavity is directly exhausted to the surrounding environment is reduced.

More specifically, as for the specific structure of the camera mounting case 7, it may be provided that it includes a first mounting cover 18, a second mounting cover 19, a first cover ring 20, and a second cover ring 21; the first mounting cover 18 and the second mounting cover 19 are both in a cylindrical structure, one end of the first mounting cover 18 is in threaded connection with the first cover ring 20, the other end of the first mounting cover 18 is in threaded connection with one end of the second mounting cover 19, and the other end of the second mounting cover 19 is in threaded connection with the second cover ring 21; the transparent cover plate 8 is provided on the first cover ring 20, the line inlet/outlet port 10 is provided on the second cover ring 21, and the camera air inlet port 9 is provided on the cylindrical wall of the first mounting cover 18 or the second mounting cover 19. In this way, the entire camera mounting case 7 can be attached and detached very easily by providing the combined structure of the first mounting cover 18, the second mounting cover 19, the first cover ring 20, and the second cover ring 21. Moreover, the camera 5 can be conveniently installed or removed by opening the first mounting cover 18 and the second mounting cover 19. Of course, when the camera mounting case 7 is composed of the above-described plurality of components, the respective camera intake port 9 and camera exhaust port 16 may be provided on the cylindrical wall of the first mounting cover 18 or the second mounting cover 19; as shown in the drawing, the camera intake port 9 and the camera exhaust port 16 are both provided on the second mounting cover 19.

More specifically, for the installation and the fixed of camera 5, the utility model discloses in further set up camera installation casing 7 still includes camera mounting panel 22, and camera mounting panel 22 includes the installation department 23 that links to each other with camera 5 and the buckling part 24 that forms after bending for installation department 23, and camera mounting panel 22 roughly is L shape structure promptly, and the one end that is close to first installation cover 18 in second installation cover 19 simultaneously is provided with round installation step 25, buckling part 24 overlap joint is in install on the step 25. Since the mounting portion 23 of the camera mounting plate 22 extends substantially in the axial direction of the second mounting cover 19, the camera 5 may be directly fixed to the mounting portion 23. More specifically, the camera 5 may be mounted to the mounting portion 23 by screws. In addition, for the positioning and installation of the buckling part 24, at least one of the following two methods can be adopted: in the first mode, the buckling part 24 and the mounting step 25 are in press fit through threaded connection between the first mounting cover 18 and the second mounting cover 19; in the second mode, the fastening part 24 and the mounting step 25 are connected by screws.

More specifically, for the specific structure of the light source installation casing 12, it may be configured to be enclosed by the transparent light-emitting panel 13, the back plate 26 and the frame 27, the transparent light-emitting panel 13 and the back plate 26 are arranged in parallel at intervals, the frame 27 is arranged around the transparent light-emitting panel 13 and the back plate 26 for sealing connection to form a closed installation cavity in the transparent light-emitting panel 13, the back plate 26 and the frame 27 around, that is, the whole light source installation casing 12 is substantially in a flat plate-shaped structure as shown in fig. 8 or 9; of course, the transparent light-emitting panel 13 and the back plate 26 can also be configured to have a certain arched structure, so that the light source mounting case 12 is formed to have a curved arched structure. In addition, the light source 6 may specifically include a lamp panel 28, a light-emitting lamp bead 29 is disposed on the lamp panel 28, and the lamp panel 28 is mounted on a back plate 26 in the light source mounting casing 12; the light source air inlet port 14 and the light source wire inlet and outlet port are arranged on the frame 27; the lamp panel 28 is connected to a power supply line passing through the light source inlet/outlet ports to supply power to the light-emitting lamp beads 29 and control the on/off of the light-emitting lamp beads. The light-emitting lamp beads 29 can be uniformly distributed and provided with a plurality of light-emitting lamp beads, so that the light emitted by each light-emitting lamp bead 29 is more uniform and dispersed, and the light projected from the transparent light-emitting panel 13 is more uniform in effect. Of course, a layer of light-diffusing and light-transmitting plate may be disposed inside the transparent light-emitting panel 13, or the transparent light-emitting panel 13 itself may be directly disposed to have a certain light-diffusing and light-transmitting effect, so that the light passing through the light-diffusing and light-transmitting plate or through the transparent light-emitting panel 13 is more uniformly dispersed.

In addition, a lamp inspection machine driver 30 is usually provided on the mounting platform 1 of the lamp inspection machine, the lamp inspection machine driver 30 is a device for driving the corresponding electrical appliance unit, since these lamp inspection machine drivers 30 also need to be powered, in order to achieve the explosion-proof effect on the lamp inspection machine drivers 30, the lamp inspection machine drivers 30 are further installed in a driver explosion-proof structure, the driver explosion-proof structure includes a driver installation shell 31, a closed mounting cavity is formed in the drive mounting housing 31, a drive inlet port 32 and a drive inlet and outlet line port (not labeled in the figure) are provided on the drive mounting housing 31, the light inspection machine driver 30 is installed in a driver installation shell 31, the driver air inlet port 32 is used for being connected with positive pressure air supply equipment through a pipeline, the light inspection machine driver 30 is connected with external equipment through a cable arranged through an inlet and outlet port of the driver; and to facilitate control of the amount of intake air flow at the actuator inlet port 32, a second adjustment knob 33 may also be provided at the actuator inlet port 32. The explosion-proof principle of driver explosion-proof construction is similar with camera explosion-proof construction and light source explosion-proof construction's principle, for after communicating with driver inlet port 32 through air supply line, can last to be supplied with to the installation intracavity and press gas, and then make the installation intracavity keep pressure to be greater than the atmospheric pressure of external environment, can avoid the gas in the external environment to enter into inside driver installation casing 31 effectively like this to this reaches inflammable and explosive gas and driver contact in avoiding the environment and causes the incident.

In addition, similar to the camera exhaust port 16 provided on the camera mounting housing 7, the present invention can further provide a driver exhaust port 34 on the driver mounting housing 31, wherein the driver exhaust port 34 is arranged outside the gas in the mounting cavity of the driver mounting housing 31 through a pipeline.

In addition, during the process of performing light inspection on the product, it may be necessary that the product to be inspected also needs to rotate in a spinning manner during the revolution of the product to be inspected along with the main rotating disk 37; under this condition, a mechanism such as bottle seat or bottle clamp for centre gripping product is carried can adopt and can be driven the back to produce spin pivoted structure, for this reason the utility model provides a can be provided with roating seat 35 and the spin motor 36 that corresponds on the capstan detection device 3, spin motor 36 is connected in order to be used for driving roating seat 35 spin with roating seat 35 transmission. The rotating seat 35 is mounted on the main rotating disk 37 and rotates along with the main rotating disk 37, meanwhile, the rotating seat 35 is also provided with a synchronizing wheel 351 and can rotate in a self-rotating manner, the synchronizing wheel 351 is driven to rotate by a self-rotating motor 36 which is also mounted on the main rotating disk 37, and then the rotating seat 35 is driven to rotate in a self-rotating manner; in this way, the spin motor 36 can rotate by the corresponding synchronous belt 361 and the corresponding synchronous wheel 351 on the rotary base 35. Of course, in order to make the corresponding spin motor 36 have an explosion-proof effect, the present invention further preferably provides that the spin motor 36 is an explosion-proof motor

In addition, without loss of generality, the driving capstan detection device 3 is provided with a corresponding capstan 37, and also comprises a main motor 38 for driving the capstan 37 in the capstan detection device 3, and in order to make the main motor 38 have an explosion-proof effect, the utility model discloses in further preferably set up the main motor 38 as an explosion-proof motor.

For the explosion-proof motor, it is the existing product itself, in the utility model, it is only the equipment that it is used as spinning motor 36 in the lamp inspection machine and as main motor 37 in the lamp inspection machine. Therefore, the explosion-proof principle of the explosion-proof motor is not described in detail.

Claims (10)

1. Explosion-proof lamp inspection machine, including mounting platform (1), be provided with feed arrangement (2), main carousel detection device (3) and discharging device (4) on mounting platform (1) in proper order consecutively, main carousel detection device (3) include a plurality of detection station, and every detection station is provided with camera (5) and light source (6), its characterized in that: the camera (5) is installed by adopting a camera explosion-proof structure, the camera explosion-proof structure comprises a camera installation shell (7), a closed installation cavity is formed in the camera installation shell (7), and a transparent cover plate (8), a camera air inlet port (9) and a camera wire inlet and outlet port (10) are arranged on the camera installation shell (7); the camera (5) is installed in the camera installation shell (7), a lens (11) of the camera (5) is opposite to the transparent cover plate (8), the camera air inlet port (9) is used for being connected with positive pressure air supply equipment through a pipeline, and the camera (5) is connected with external equipment through a cable which penetrates through the camera air inlet and outlet port (10); light source (6) adopt light source explosion-proof structure to install, and light source explosion-proof structure includes light source installation casing (12), forms confined installation cavity in light source installation casing (12), is provided with transparent play light panel (13), light source inlet port (14) and light source access line port on light source installation casing (12), install in light source installation casing (12) light source (6), light source inlet port (14) are used for linking to each other with malleation air feeder through the pipeline, light source (6) link to each other with external equipment through the cable that passes light source access line port and set up.

2. An explosion-proof lamp detector as defined in claim 1, wherein: a camera exhaust port (16) is arranged on the camera mounting shell (7), and the camera exhaust port (16) discharges gas in a mounting cavity of the camera mounting shell (7) through a pipeline; the light source mounting shell (12) is provided with a light source exhaust port (17), and the light source exhaust port (17) discharges gas in a mounting cavity of the light source mounting shell (12) through a pipeline.

3. An explosion-proof lamp detector as defined in claim 1, wherein: the camera mounting shell (7) comprises a first mounting cover (18), a second mounting cover (19), a first cover ring (20) and a second cover ring (21); the first mounting cover (18) and the second mounting cover (19) are both of a cylindrical structure, one end of the first mounting cover (18) is in threaded connection with the first cover ring (20), the other end of the first mounting cover (18) is in threaded connection with one end of the second mounting cover (19), and the other end of the second mounting cover (19) is in threaded connection with the second cover ring (21); the transparent cover plate (8) is arranged on the first cover ring (20), the camera inlet and outlet port (10) is arranged on the second cover ring (21), and the camera inlet port (9) is arranged on the cylindrical wall of the first mounting cover (18) or the second mounting cover (19).

4. An explosion-proof lamp detector as defined in claim 3, wherein: camera installation casing (7) still include camera mounting panel (22), camera mounting panel (22) include installation department (23) that link to each other with camera (5) and buckle portion (24) that form after bending for installation department (23), and the one end that is close to first installation cover (18) in second installation cover (19) is provided with round installation step (25), buckle portion (24) overlap joint is in install on the step (25).

5. An explosion-proof lamp detector as defined in claim 4, wherein: the camera (5) is connected with the mounting part (23) through a screw; the buckling part (24) and the mounting step (25) are in compression fit through threaded connection between the first mounting cover (18) and the second mounting cover (19) or the buckling part (24) and the mounting step (25) are connected through a screw.

6. An explosion-proof lamp detector as defined in claim 1, wherein: the light source mounting shell (12) is formed by enclosing a transparent light-emitting panel (13), a back plate (26) and a frame (27), the transparent light-emitting panel (13) and the back plate (26) are arranged at intervals in parallel, and the frame (27) is arranged around the transparent light-emitting panel (13) and the back plate (26) and is in sealing connection with each other to form a closed mounting cavity in the transparent light-emitting panel (13), the back plate (26) and the frame (27) around the transparent light-emitting panel (13); the light source (6) comprises a lamp panel (28), a light-emitting lamp bead (29) is arranged on the lamp panel (28), and the lamp panel (28) is installed on a back plate (26) in the light source installation shell (12); the light source air inlet port (14) and the light source wire inlet and outlet port are arranged on the frame (27).

7. An explosion-proof lamp detector as defined in claim 1, wherein: still be provided with lamp inspection machine driver (30) on mounting platform (1), lamp inspection machine driver (30) adopt driver explosion-proof structure to install, and driver explosion-proof structure includes driver installation casing (31), forms confined installation cavity in driver installation casing (31), is provided with driver inlet port (32) and driver business turn over line port on driver installation casing (31), install in driver installation casing (31) lamp inspection machine driver (30), driver inlet port (32) are used for linking to each other with malleation air feeder through the pipeline, lamp inspection machine driver (30) link to each other with external equipment through the cable that passes driver business turn over line port and set up.

8. An explosion-proof lamp detector as defined in claim 7, wherein: an actuator exhaust port (34) is arranged on the actuator mounting shell (31), and the actuator exhaust port (34) discharges gas in a mounting cavity of the actuator mounting shell (31) through a pipeline.

9. An explosion-proof lamp detector as defined in claim 1, wherein: the spinning disc detection device (3) further comprises a rotating seat (35) and a spinning motor (36), the spinning motor (36) is in transmission connection with the rotating seat (35) and is used for driving the rotating seat (35) to spin, and the spinning motor is an explosion-proof motor.

10. An explosion-proof lamp inspection machine according to any one of claims 1 to 9, wherein: the device is characterized by further comprising a main motor (38) used for driving a main rotating disc (37) in the main rotating disc detection device (3), wherein the main motor (38) is an explosion-proof motor.

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