CN114034437A - Bury gas tightness detection device of lamp - Google Patents

Abstract

The invention relates to an air tightness detection device of an underground lamp, which comprises a frame body, an operation table and a control display device which are sequentially matched and connected, wherein the frame body is also provided with a carrier placing cavity, a driving mechanism, a safety grating, a monitoring device and an air injection module; the carrier placing cavity is also fixedly provided with a carrier body, and the carrier body comprises an upper sealing carrier, a lower sealing carrier and an appliance to be detected. The invention has strong practicability, can effectively solve the problem that the water leakage yield cannot be accurately monitored, and simultaneously effectively solves the problem of material loss caused by water leakage during detection.

Description

Bury gas tightness detection device of lamp

Technical Field

The invention relates to the field of air tightness detection devices, in particular to an air tightness detection device of an underground lamp.

Background

Bury the lamp, it inlays in subaerial or wall to indicate, or the position of settling is very low, be close the light on ground, bury the lamp and be the outdoor illumination lamps and lanterns of wide application in leisure places such as square, outdoor park, have better decorative effect, bury lamp equipment now and often have certain protective capacities on structural design, the concrete embodiment is for carrying out the dust confinement, bury lamp equipment with tiny dust can't get into, the shell space is less than dust body diameter, can prevent to soak for a short time simultaneously, under normal atmospheric temperature and normal pressure, the shell soaks will not be influenced in the liquid of a meter depth.

With reference to a water leakage detection device described in patent document CN201810102206.3, the above apparatus has the following problems: the detection mode that the place used now of production is for every 100 lamps and lanterns use liquid turnover case to pour into the clear water and soak certain period of time and carry out the detection of leaking, still need operating personnel to observe the record if the situation that produces leaks, simultaneously, bury the lamp mainboard and scrap if the condition that leaks takes place, this will improve the material loss that the intaking leads to, need higher human cost simultaneously.

Disclosure of Invention

The invention aims to solve the defects and provides the air tightness detection device of the underground lamp, the structural design of the device is reasonable, the problem that the water leakage yield cannot be accurately monitored can be effectively solved, and the problem of material loss caused by water leakage during detection can be effectively solved.

The above object of the present invention is achieved by the following technical means:

the air tightness detection device of the underground lamp comprises a frame body, an operation table and a control display device which are sequentially matched and connected, wherein a carrier placing cavity, a driving mechanism, a safety grating, a monitoring device and an air injection module are further arranged on the frame body, the carrier placing cavity penetrates through the frame body, the driving mechanism is movably mounted on the frame body and is positioned above the carrier placing cavity, the monitoring device and the air injection module are mounted inside a shell of the frame body, the safety grating is arranged on two sides of the frame body and is connected with the monitoring device, and the control display device is connected with the monitoring device, the air injection module and the safety grating and displays the operation state of the frame body; the carrier placing cavity is further fixedly provided with a carrier body, the carrier body comprises an upper sealing carrier, a lower sealing carrier and a to-be-detected appliance, the upper sealing carrier is arranged on the lower end face of the driving mechanism, the lower sealing carrier is positioned below the upper sealing carrier and matched with the upper sealing carrier, the to-be-detected appliance is positioned between the upper sealing carrier and the lower sealing carrier and connected with the gas injection module and the monitoring device, the driving mechanism drives the upper sealing carrier to do radial reciprocating motion along the longitudinal central axis of the frame body, the upper sealing carrier is pressed down to the lower sealing carrier by the driving mechanism and is completely matched with the lower sealing carrier, and the upper sealing carrier and the lower sealing carrier are mutually wound to form the detection cavity.

Further, in the above technical solution, a matching insert layer is further disposed between the upper sealing carrier and the lower sealing carrier, the matching insert layer is installed on the detection cavity and located above the lower sealing carrier, and the appliance to be detected is installed on the matching insert layer and is matched with the matching insert layer.

Further, in the above technical solution, the specific shape of the mating insert layer includes one or a combination of several of a rectangle, an ellipse and a cylinder.

Further, in the above technical solution, the longitudinal central axes of the upper sealing carrier, the tool to be detected, the matching insert layer and the lower sealing carrier are kept consistent.

Furthermore, in the above technical solution, the carrier body further includes an upper seal ring layer and a lower seal ring layer, one side of the upper seal ring layer and one side of the lower seal ring layer are further provided with fixing protrusions, the upper seal ring layer and the lower seal ring layer are mutually connected in a matching manner, and the upper seal ring layer and the lower seal ring layer are mixed rubber ring layers.

Further, in the above technical scheme, the upper sealing carrier and the lower sealing carrier are further provided with matching grooves, the upper sealing ring layer and the lower sealing ring layer are mounted on the matching grooves, a pipe body is further arranged between the to-be-detected device and the gas injection module, and the pipe body penetrates through the upper sealing ring layer and the lower sealing ring layer.

Further, in the above technical solution, a highest horizontal plane of the lower seal ring layer is higher than a highest horizontal plane of the lower seal carrier, and a predetermined distance exists between the seal ring layer and the to-be-detected tool in a horizontal direction.

Further, among the above-mentioned technical scheme, still be provided with monitoring lid and monitoring door on the frame body, the monitoring lid is located actuating mechanism's top, the monitoring door is located one side that the cavity was placed to the carrier.

The invention has the beneficial effects that:

adopt gas tightness equipment can monitor and bury lamp equipment and whether have gas leakage problem thereby monitoring, buried lamp mainboard equipment can not influence and be put into use again after can checking the maintenance to the product of monitoring NG, and the surface does not have water stain after the monitoring, does not need to handle separately, blows and wipes away surface 1pcs/40s manually to reduce operation process and required operating personnel, and the monitoring accuracy reaches ninety nine percent.

Drawings

In order to more clearly illustrate the embodiments of the present invention, the drawings that need to be used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is another schematic structural diagram of the present invention.

Fig. 4 is a schematic diagram of an explosive structure of the present invention.

Fig. 5 is a schematic view of the structure of the device to be tested of the present invention.

The names of the components corresponding to the numerical identifiers in fig. 1 to 5 are as follows:

a frame body-1; a carrier placing cavity-11; a drive mechanism-12; a safety grating-13; a gas injection module-131; a carrier body-14; an upper seal ring layer-141; a lower seal ring layer-142; a fixing protrusion-143; an upper sealing carrier-15; a lower seal carrier-16; tool-17 to be tested; an operation table-2; controlling the display device-3; matching with the insert layer-4.

Detailed Description

The technical solution of the present invention will be clearly and completely described below with reference to the accompanying drawings, and in the description of the present invention, it should be noted that:

the term "connected" is to be understood broadly, and may be mechanical or electrical; they may be connected directly or indirectly through intervening media, or may be interconnected between two elements.

The terms "front", "rear", "side", "upper" and "lower" are used as terms of orientation or positional relationship based on the drawings, and are only for convenience of description of the present invention.

For those skilled in the art, the technical solutions in the embodiments may be combined with each other, but must be based on the realization of the technical solutions by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not be within the protection scope of the present invention.

The present invention is further described with reference to the following specific examples, but it should be noted that the present invention is implemented on the premise of the technical solution of the present invention, and the detailed embodiments and specific operation procedures are given, but the scope of the present invention is not limited to the following examples.

First embodiment, as shown in fig. 1 to 5, the best embodiment of this embodiment is:

the air tightness detection device of the underground lamp comprises a frame body 1, an operation table 2 and a control display device 3 which are sequentially matched and connected, wherein a carrier placing cavity 11, a driving mechanism 12, a safety grating 13, a monitoring device and an air injection module 131 are further arranged on the frame body 1, the carrier placing cavity 11 penetrates through the frame body 1, the driving mechanism 12 is movably mounted on the frame body 1 and is positioned above the carrier placing cavity 11, the monitoring device and the air injection module 131 are mounted inside a shell of the frame body 1, the safety grating 13 is arranged on two sides of the frame body 1 and is connected with the monitoring device, and the control display device 3 is connected with the monitoring device, the air injection module 131 and the safety grating 13 and displays the running state of the frame body 1; the carrier placing cavity 11 is further fixedly provided with a carrier 14, the carrier 14 comprises an upper sealing carrier 15, a lower sealing carrier 16 and an instrument 17 to be detected, the upper sealing carrier 15 is arranged on the lower end face of the driving mechanism 12, the lower sealing carrier 16 is arranged below the upper sealing carrier 15 and matched with the upper sealing carrier 15, the instrument 17 to be detected is arranged between the upper sealing carrier 15 and the lower sealing carrier 16 and connected with the gas injection module 131 and the monitoring device, the driving mechanism 12 drives the upper sealing carrier 15 to do radial reciprocating motion along the longitudinal central axis of the frame body 1, the upper sealing carrier 15 is pressed down to the lower sealing carrier 16 by the driving mechanism 12 and is completely matched with the lower sealing carrier 16, and the upper sealing carrier 15 and the lower sealing carrier 16 are mutually wound to form a detection cavity.

In this embodiment, the gas-tight device is used to monitor whether there is gas leakage in the underground lamp device, so as to monitor whether there is water leakage problem, the NG monitoring product does not affect the underground lamp main board device, and the underground lamp main board device can be reused after being checked and maintained, and the surface is free of water stain after monitoring, and no additional treatment is needed, and the surface is manually blown and wiped for 1pcs/40s, so that the operation procedures and the required operators are reduced, and the monitoring accuracy reaches ninety-nine percent.

As shown in fig. 4 to 5, a matching insert layer 4 is further disposed between the upper sealing carrier 15 and the lower sealing carrier 16, the matching insert layer 4 is mounted on the detection cavity and located above the lower sealing carrier 16, and the tool to be detected 17 is mounted on the matching insert layer 4 and is matched with the matching insert layer 4.

As shown in fig. 4 to 5, the specific shape of the mating insert layer 4 includes one or a combination of rectangular, oval and cylindrical shapes. The longitudinal central axes of the upper sealing carrier 15, the tool to be detected 17, the mating insert layer 4 and the lower sealing carrier 16 are kept consistent.

Example two, as shown in fig. 1 to 5, the best embodiment of this example is: the air tightness detection device of the underground lamp comprises a frame body 1, an operation table 2 and a control display device 3 which are sequentially matched and connected, wherein a carrier placing cavity 11, a driving mechanism 12, a safety grating 13, a monitoring device and an air injection module 131 are further arranged on the frame body 1, the carrier placing cavity 11 penetrates through the frame body 1, the driving mechanism 12 is movably mounted on the frame body 1 and is positioned above the carrier placing cavity 11, the monitoring device and the air injection module 131 are mounted inside a shell of the frame body 1, the safety grating 13 is arranged on two sides of the frame body 1 and is connected with the monitoring device, and the control display device 3 is connected with the monitoring device, the air injection module 131 and the safety grating 13 and displays the running state of the frame body 1; the carrier placing cavity 11 is further fixedly provided with a carrier 14, the carrier 14 comprises an upper sealing carrier 15, a lower sealing carrier 16 and an instrument 17 to be detected, the upper sealing carrier 15 is arranged on the lower end face of the driving mechanism 12, the lower sealing carrier 16 is arranged below the upper sealing carrier 15 and matched with the upper sealing carrier 15, the instrument 17 to be detected is arranged between the upper sealing carrier 15 and the lower sealing carrier 16 and connected with the gas injection module 131 and the monitoring device, the driving mechanism 12 drives the upper sealing carrier 15 to do radial reciprocating motion along the longitudinal central axis of the frame body 1, the upper sealing carrier 15 is pressed down to the lower sealing carrier 16 by the driving mechanism 12 and is completely matched with the lower sealing carrier 16, and the upper sealing carrier 15 and the lower sealing carrier 16 are mutually wound to form a detection cavity.

As shown in fig. 1 and 4, the carrier body 14 further includes an upper seal ring layer 141 and a lower seal ring layer 142, one side of the upper seal ring layer 141 and one side of the lower seal ring layer 142 are further provided with a fixing protrusion 143, the upper seal ring layer 141 and the lower seal ring layer 142 are connected in a matching manner, and the upper seal ring layer 141 and the lower seal ring layer 142 are mixed rubber ring layers.

In this embodiment, the sealing ring layer is used to seal the gas injection portion, so as to improve the detection accuracy.

As shown in fig. 1 to 4, the upper seal carrier 15 and the lower seal carrier 16 are further provided with a matching groove, the upper seal ring layer 141 and the lower seal ring layer 142 are mounted on the matching groove, and a tube is further disposed between the device to be detected 17 and the gas injection module 131, and the tube penetrates through the upper seal ring layer 141 and the lower seal ring layer 142.

As shown in fig. 3 to 5, the highest level of the lower seal ring layer 142 is higher than the highest level of the lower seal carrier 16, and the seal ring layer has a predetermined distance from the tool 17 to be tested in the horizontal direction. Still be provided with monitoring lid and monitoring door on the frame body 1, the monitoring lid is located actuating mechanism 12's top, the monitoring door is located one side that cavity 11 was placed to the carrier.

The above description is intended to illustrate the preferred embodiments of the present invention, and not to limit the scope of the present invention, and all modifications and equivalents of the structures described in the specification and drawings, or any other technical fields related thereto, which are directly or indirectly applicable to the present invention, are intended to be included within the scope of the present invention.

Claims (8)

1. The utility model provides an air tightness detection device of underground lamp which characterized in that: comprises a frame body (1), an operating platform (2) and a control display device (3) which are matched and connected in sequence, the frame body (1) is also provided with a carrier placing cavity (11), a driving mechanism (12), a safety grating (13), a monitoring device and a gas injection module (131), the carrier placing cavity (11) penetrates through the frame body (1), the driving mechanism (12) is movably arranged on the frame body (1) and is positioned in the carrier placing cavity (11), the monitoring device and the gas injection module (131) are arranged inside the shell of the frame body (1), the safety gratings (13) are arranged on two sides of the frame body (1) and connected with the monitoring device, the control display device (3) is connected with the monitoring device, the gas injection module (131) and the safety grating (13) and displays the running state of the frame body (1);

the carrier placing cavity (11) is also fixedly provided with a carrier body (14), the carrier body (14) comprises an upper sealing carrier (15), a lower sealing carrier (16) and an appliance (17) to be detected, the upper sealing carrier (15) is arranged on the lower end surface of the driving mechanism (12), the lower sealing carrier (16) is positioned below the upper sealing carrier (15) and is matched with the upper sealing carrier (15), the appliance (17) to be detected is positioned between the upper sealing carrier (15) and the lower sealing carrier (16) and is connected with the gas injection module (131) and the monitoring device, the driving mechanism (12) drives the upper sealing carrier (15) to do radial reciprocating motion along the longitudinal central axis of the frame body (1), and the upper sealing carrier (15) is pressed down to the lower sealing carrier (16) by the driving mechanism (12) and is completely matched, the upper sealing carrier (15) and the lower sealing carrier (16) are mutually wound to form a detection cavity.

2. The airtightness detection apparatus for an underground lamp according to claim 1, wherein: go up and still be provided with cooperation mold insert layer (4) between sealed carrier (15) and the lower sealed carrier (16), cooperation mold insert layer (4) are installed detect on the cavity and be located the top of sealed carrier (16) down, it installs to detect utensil (17) on cooperation mold insert layer (4) and with cooperation mold insert layer (4) are mutually supported.

3. The airtightness detection apparatus for an underground lamp according to claim 2, wherein: the specific shape of the matching insert layer (4) comprises one or a combination of a plurality of rectangular shapes, oval shapes and cylindrical shapes.

4. The airtightness detection apparatus for an underground lamp according to claim 2, wherein: the longitudinal central axes of the upper sealing carrier (15), the tool to be detected (17), the matching insert layer (4) and the lower sealing carrier (16) are kept consistent.

5. The airtightness detection apparatus for an underground lamp according to claim 2, wherein: the carrier body (14) further comprises an upper sealing ring layer (141) and a lower sealing ring layer (142), one side of the upper sealing ring layer (141) and one side of the lower sealing ring layer (142) are further provided with fixing protrusions (143), the upper sealing ring layer (141) and the lower sealing ring layer (142) are mutually matched and connected, and the upper sealing ring layer (141) and the lower sealing ring layer (142) are mixed rubber ring layers.

6. The airtightness detection apparatus for an underground lamp according to claim 5, wherein: the upper sealing carrier (15) and the lower sealing carrier (16) are further provided with matching grooves, the upper sealing ring layer (141) and the lower sealing ring layer (142) are mounted on the matching grooves, a pipe body is further arranged between the to-be-detected device (17) and the gas injection module (131), and the pipe body penetrates through the upper sealing ring layer (141) and the lower sealing ring layer (142).

7. The airtightness detection apparatus for an underground lamp according to claim 6, wherein: the highest horizontal plane of the lower sealing ring layer (142) is higher than that of the lower sealing carrier (16), and a predetermined distance exists between the sealing ring layer and the tool (17) to be detected in the horizontal direction.

8. The airtightness detection apparatus for an underground lamp according to claim 1, wherein: still be provided with monitoring lid and monitoring door on frame body (1), the monitoring lid is located the top of actuating mechanism (12), the monitoring door is located one side that cavity (11) were placed to the carrier.

Images