CN216637184U - Xenon lamp module, sterilization assembly and food material storage equipment - Google Patents

Abstract

The utility model provides a xenon lamp module, a sterilization assembly and food material storage equipment, wherein the xenon lamp module comprises a glass tube, and the glass tube comprises an installation cavity; the xenon lamp is arranged in the mounting cavity and comprises a lead; the sealing plug is arranged at the end part of the glass tube and used for sealing the glass tube; the sealing plug comprises a first channel, one end of the first channel is communicated with the installation cavity, the other end of the first channel is located on the peripheral side wall of the sealing plug, and the wire penetrates through the first channel. According to the xenon lamp module, the xenon lamp is arranged in the glass tube, the sealing plug is arranged at the end part of the glass tube, and the lead of the xenon lamp is connected with the external circuit through the first channel, so that the technical effect of sealing the xenon lamp is achieved, and the safety of the xenon lamp module is improved; on the other hand, the problem that the operation of sleeving the insulating heat-shrinkable tube is troublesome during packaging is solved.

Description

Xenon lamp module, sterilization assembly and food material storage equipment

Technical Field

The utility model relates to the technical field of household appliances, in particular to a xenon lamp module, a sterilization assembly and food material storage equipment.

Background

In the related art, a xenon lamp is used for sterilization, but since the xenon lamp needs high-voltage triggering for its operation, there are certain problems in safety and convenience in installation and use of the xenon lamp.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to solving at least one of the problems of the prior art or the related art.

To this end, a first aspect of the utility model proposes a xenon lamp module;

a second aspect of the utility model proposes a sterilization assembly;

a third aspect of the utility model proposes a food material storage device.

In view of the above, a first aspect of the present invention provides a xenon lamp module, comprising: the glass tube comprises an installation cavity; the xenon lamp is arranged in the mounting cavity and comprises a lead; the sealing plug is arranged at the end part of the glass tube and used for sealing the glass tube; the sealing plug comprises a first channel, one end of the first channel is communicated with the installation cavity, the other end of the first channel is located on the peripheral side wall of the sealing plug, and the wire penetrates through the first channel.

The xenon lamp module provided by the utility model comprises a glass tube, a xenon lamp and a sealing plug. The xenon lamp is arranged in the glass tube mounting cavity, and the sealing plug is arranged at the end part of the glass tube. Sealing of the xenon lamp is achieved through the glass tube and the sealing plug, using safety is improved, convenience in installation of a xenon lamp module is improved, and meanwhile the problem that the operation of sleeving an insulating heat-shrinkable tube during packaging is troublesome is solved due to the fact that the wire penetrates through the first channel.

Specifically, xenon is filled in the xenon lamp tube, the xenon lamp is provided with a positive electrode end and a negative electrode end, and the conducting wires are respectively connected with the positive electrode and the negative electrode of the xenon lamp. Because the work of the xenon lamp needs high-pressure triggering and has certain danger, the xenon lamp is placed in an installation cavity in a glass tube with a transparent and smooth surface, and meanwhile, two ends of the glass tube are sealed by using sealing plugs, so that the leakage caused by the entrance of external moisture and humidity is avoided. The glass tube can also enable the light generated by the xenon lamp to be transmitted to the maximum extent, thereby realizing the effect of sterilizing and disinfecting to the maximum extent. Further, the sealing plug comprises a first channel, one end of the first channel is communicated with the installation cavity, the other end of the first channel is located on the peripheral side wall of the sealing plug, a lead connected to the two ends of the xenon lamp and connected with the electrode can extend out of the side wall of the sealing plug through the first channel, and the opening of the first channel is filled with silicon rubber, so that the first channel is sealed, sealing of the xenon lamp is further achieved, and meanwhile the problem that the insulating heat-shrinkable tube needs to be sleeved during packaging is solved.

In addition, the xenon lamp module in the technical scheme provided by the utility model can also have the following additional technical characteristics:

in the above technical solution, the sealing plug further includes: the annular groove is arranged at one end of the sealing plug connected with the glass tube, and the end part of the glass tube is inserted into the annular groove.

In the technical scheme, one end of the sealing plug is provided with an annular groove, and the annular groove is positioned at one end of the sealing plug connected with the glass tube. The end part of the glass tube is inserted into the annular groove to fix the glass tube, so that the glass tube is sleeved at one end of the sealing plug connected with the glass tube, and the sealing performance of the xenon lamp module is further improved.

In any of the above technical solutions, the sealing plug further includes: one end of the second channel is communicated with the mounting cavity, and the second channel is communicated with the first channel; the xenon lamp comprises a trigger electric wire, and the trigger electric wire penetrates through the second channel.

In the technical scheme, the sealing plug is also provided with a second channel, wherein one end of the second channel is connected with the installation cavity of the glass tube, and the other end of the second channel is communicated with the first channel. The xenon lamp also comprises a trigger electric wire, wherein the trigger electric wire is wound on the peripheral wall of the xenon lamp tube body and is provided with a leading-out end. The lead-out end of the trigger wire penetrates through the second channel, and the lead of the xenon lamp penetrates through the first channel, so that the electrode lead and the trigger wire are respectively wrapped in the first channel and the second channel, and the danger of short circuit is avoided; on the other hand, the problem of troublesome operation of sleeving the insulating heat-shrinkable tube during packaging is avoided.

In any of the above solutions, the sealing plug further comprises: the mounting hole is formed in one end, connected with the glass tube, of the sealing plug, the mounting hole is communicated with one end of the first channel, and the end portion of the xenon lamp is arranged in the mounting hole.

In the technical scheme, the sealing plug further comprises a mounting hole, and the mounting hole is formed in one end, connected with the glass tube, of the sealing plug. Furthermore, the end parts of the xenon lamp are arranged in the mounting holes, the xenon lamp is fixed by the mounting holes in the sealing plugs at the two ends of the glass tube, and the two ends of the xenon lamp are positioned through the mounting holes, so that the problem that the xenon lamp shakes in the glass tube is solved, and the production and the packaging are facilitated. Meanwhile, the mounting hole is connected with one end of the first channel, so that the wires at two ends of the xenon lamp can be connected with an external circuit through the first channel, and the xenon lamp module can normally work.

In any of the above solutions, the diameter of the mounting hole is larger than the diameter of the first passage.

In the technical scheme, the diameter of the mounting hole is limited to be larger than that of the first channel, the xenon lamp is axially positioned through a step surface formed between the mounting hole and the first channel, and the xenon lamp is radially positioned through the side wall of the radial hole of the mounting hole, so that the xenon lamp can be better fixed in the glass tube through the mounting hole, and the mounting stability of the xenon lamp is improved.

In any of the above technical solutions, the annular groove is located on a peripheral side of the mounting hole.

In the technical scheme, the annular groove is arranged on the periphery of the mounting hole, and on one hand, the annular groove is opposite to the tube body structure of the glass tube, so that the sealing property of the glass tube is improved; on the other hand cooperates with the mounting hole for the xenon lamp is located the mid portion of glass pipe, through the fixed limiting displacement of ring channel and mounting hole promptly, has solved the xenon lamp and has rocked the problem not placed in the middle in the glass pipe.

In any of the above technical solutions, the sealing plug further includes an installation groove, the installation groove is opened in a sidewall of the sealing plug, and extends along a circumferential direction of the sealing plug; wherein, the mounting groove is positioned between the other end of the first channel and the connecting end of the sealing plug and the glass tube.

In the technical scheme, the sealing plug is further provided with an installation groove which is formed in the side wall of the sealing plug and extends along the circumferential direction of the sealing plug. The mounting groove sets up between the opening and the sealing plug of the other end of first passageway and glass manages the link, is favorable to the xenon lamp module to be fixed in the installation of using, utilizes the mounting groove to carry out the screens fixed for xenon lamp module installation is more convenient. Through setting up the mounting groove in open-ended inboard, and then when installation xenon lamp module, can be located the wire and expose in the outside to convenient and external device's connection.

In any one of the above technical solutions, the sealing plug includes a silica gel plug or a rubber plug.

In the technical scheme, the sealing plug for sealing the glass tube in the xenon lamp module can be a silica gel plug or a rubber plug. Specifically, the hardness of the sealing plug is required, the sealing plug is hard to be sleeved into the glass tube, and the sealing plug is hard to shrink and seal and fix due to low hardness. And the silica gel plug or the rubber plug has proper hardness and has the characteristics of good sealing performance, high temperature resistance, good insulativity and the like.

A second aspect of the present invention provides a sterilization assembly comprising: a mounting seat; and a xenon lamp module as provided in any one of the technical solutions of the first aspect, the xenon lamp module being disposed on the mount.

A second aspect of the utility model provides a germicidal assembly including a mount for providing a mounting location for a component on the germicidal assembly and a xenon lamp module.

Furthermore, the xenon lamp module is installed on the installation seat, so that the xenon lamp module is convenient to disassemble and install, and the production efficiency is improved.

Further, the xenon lamp module provided by the application comprises a glass tube, a xenon lamp and a sealing plug. The xenon lamp is arranged in the installation cavity of the glass tube, and the sealing plugs are arranged at two ends of the glass tube. Through setting the xenon lamp module to independent individual, and then in the application installation, can realize whole installation and dismantlement, promoted the installation effectiveness and the safety in utilization of xenon lamp module.

In the above technical solution, the mounting seat includes a mounting through hole; the sterilization assembly further includes: the locating rack is arranged on the mounting seat and located on the periphery of the mounting through hole, and the xenon lamp module is mounted on the locating rack.

In the technical scheme, the mounting base is provided with a mounting through hole for transmitting the light emitted by the xenon lamp module to an article to be sterilized. The locating rack sets up on the mount pad and is located the week side of installation through-hole, and the xenon lamp module is installed on the locating rack, and furtherly has made things convenient for the dismantlement installation, has improved production efficiency.

In any of the above technical schemes, the sterilization assembly further comprises a mounting rack. The mounting bracket is connected with the locating rack, and the xenon lamp module is located between locating rack and the mounting bracket, and the export of first passageway is located the outside of mounting bracket.

In the technical scheme, the xenon lamp module is arranged on the positioning frame, the positioning frame is connected with the mounting frame, the xenon lamp module is fixed on the mounting seat, the dismounting and mounting are convenient, and the production efficiency is improved. The export of first passageway is located the outside of mounting bracket, is convenient for wear to locate the wire of first passageway and trigger the electric wire and link to each other with external circuit to the normal work of subassembly that disinfects has been guaranteed.

In any one of the above technical solutions, the mounting frame includes a first groove, the positioning frame includes a second groove, and the first groove and the second groove enclose a mounting hole; the sealing plug is arranged in the mounting hole in a penetrating way.

In this technical scheme, set up first recess in the relative both sides of mounting bracket, set up the second recess in the relative both sides of locating rack. When mount pad and mounting bracket are connected, synthetic mounting hole can be enclosed to first recess and second recess, and the mounting hole is worn to locate by the sealing plug, and the mounting groove in the sealing plug suits with the mounting hole promptly, and then can realize installing and fixing xenon lamp module better. This technical scheme comes to carry out fixed mounting to the xenon lamp module through the cell body that utilizes the correspondence on locating rack and the mounting bracket simple and convenient, and easy operation, has promoted the installation convenience and the security of subassembly that disinfects.

A third aspect of the utility model provides food material storage apparatus comprising a bin including a storage chamber; and as the subassembly that disinfects that provides in any technical scheme of the second aspect, the subassembly that disinfects sets up on the box, and the xenon lamp module is used for disinfecting to the material in the storage cavity.

The food material storage equipment provided by the utility model comprises a box body and a sterilization assembly, wherein the box body comprises a storage cavity, and the sterilization assembly is arranged on the box body and is used for sterilizing materials in the storage cavity. This application sets the subassembly that disinfects through providing to an independent module, and then when installing the xenon lamp module on the box, can realize the integral erection, it is convenient to install, and further promotes the security in installation and the use.

In the above technical solution, the case includes: a body comprising a cavity; the drawer is arranged in the cavity in a sliding mode and comprises a storage cavity, and the sterilization assembly is arranged on the body.

In the technical scheme, the box body of the food material storage device comprises a body and a drawer, wherein the body comprises a cavity, and the drawer is slidably arranged in the cavity. Further, the drawer includes a storage chamber for storing the material. The cavity is used for providing a mounting position for other devices in the food material storage apparatus. Wherein, the sterilization component is arranged in the body and positioned at the top of the drawer, which is beneficial to protecting the xenon lamp component and avoiding the damage of vulnerable parts such as quartz glass and the like.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 shows a schematic structural view of a xenon lamp module of one embodiment of the present invention;

FIG. 2 shows an axial cross-sectional structural schematic view of the xenon lamp module of the embodiment shown in FIG. 1;

FIG. 3 shows a schematic structural view of a xenon lamp in the embodiment shown in FIG. 1;

FIG. 4 is a schematic sectional view showing a combination of a xenon lamp and a glass tube in the embodiment of FIG. 1;

fig. 5 shows a schematic view of the sealing plug in the embodiment of fig. 1;

fig. 6 shows a schematic view of another angular configuration of the sealing plug in the embodiment of fig. 5;

fig. 7 shows one of the schematic cross-sectional views of the sealing plug in the embodiment of fig. 6;

figure 8 shows a second schematic cross-sectional view of the sealing plug in the embodiment of figure 6;

FIG. 9 shows a schematic structural view of a sterilization assembly in accordance with an embodiment of the present invention;

FIG. 10 is a schematic view of another angle of the sterilization assembly of the embodiment of FIG. 9;

FIG. 11 is a schematic view showing a partial structure of the sterilization assembly of the embodiment shown in FIG. 9;

fig. 12 is a schematic structural view illustrating a combined state of a mounting bracket and a positioning bracket of the sterilization assembly of the embodiment shown in fig. 9;

fig. 13 is a schematic structural view illustrating an exploded state of a mounting bracket and a spacer of the sterilization assembly of the embodiment of fig. 9;

fig. 14 shows a schematic structural diagram of a food material storage device according to an embodiment of the utility model.

Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 14 is:

1 food storage device, 10 sterilization assembly, 100 xenon lamp module, 102 glass tube, 104 xenon lamp, 1042 lead, 1044 trigger wire, 106 sealing plug, 1062 mounting hole, 1064 first channel, 1066 second channel, 1068 annular groove, 1070 mounting groove, 200 mounting seat, 202 mounting through hole, 204 positioning frame, 2042 second groove, 206 mounting frame, 2062 first groove, 208 reflector, 210 cover body, 212 wire passing hole, 20 box body, 220 body, 2202 cavity, 230 drawer and 2302 cavity.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the utility model will be rendered by reference to the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

The xenon lamp module 100, the sterilization assembly 10 and the food material storage apparatus 1 according to some embodiments of the present invention are described below with reference to fig. 1 to 14.

Example 1

As shown in fig. 1 to 8, the embodiment of the first aspect of the present invention proposes a xenon lamp module 100, and the xenon lamp module 100 includes a glass tube 102, a xenon lamp 104 and a sealing plug 106.

Specifically, as shown in fig. 1 to 8, the glass tube 102 includes an installation cavity; xenon lamp 104 is disposed in the mounting cavity, xenon lamp 104 includes wire 1042; a sealing plug 106 is arranged at the end of the glass tube 102 for sealing the glass tube 102; the sealing plug 106 includes a first channel 1064, one end of the first channel 1064 is communicated with the installation cavity, the other end of the first channel 1064 is located on the peripheral sidewall of the sealing plug 106, and the wire 1042 is inserted through the first channel 1064.

The xenon lamp module 100 provided by the utility model comprises a glass tube 102, a xenon lamp 104 and a sealing plug 106. The xenon lamp 104 is disposed within the glass tube 102, and the sealing plug 106 is disposed at an end of the glass tube 102. Sealing of the xenon lamp 104 is achieved through the glass tube 102 and the sealing plug 106, so that the use safety is improved, and the convenience of installation of the xenon lamp module 100 is improved. Meanwhile, the lead 1042 penetrates through the first channel 1064, so that the problem of troublesome operation of sleeving an insulating heat-shrinkable tube during packaging is solved.

Specifically, as shown in fig. 3, the xenon lamp 104 has a tube filled with xenon gas, the xenon lamp has a positive electrode terminal and a negative electrode terminal, and the lead wires 1042 are connected to the positive electrode and the negative electrode of the xenon lamp, respectively. There is a certain risk due to the high voltage triggering required for the operation of the xenon lamp 104. Therefore, as shown in fig. 4, the xenon lamp 104 is placed in the installation cavity in the glass tube 102 with a transparent and smooth surface, and the sealing plugs 106 are used to seal the two ends of the glass tube 102, so as to prevent the external moisture and moisture from entering and causing electric leakage. By using the glass tube 102, the light generated by the xenon lamp 104 can be transmitted to the maximum extent, and the sterilization and disinfection effects can be performed to the maximum extent. Further, the sealing plug 106 includes a first channel 1064, one end of the first channel 1064 is communicated with the installation cavity, the other end is located on the peripheral side wall of the sealing plug 106, the lead 1042 connected to the two ends of the xenon lamp 104 and connected to the electrode can extend out of the side wall of the sealing plug 106 through the first channel 1064, silicone rubber is filled into the opening of the first channel 1064, so as to seal the first channel 1064, further realize the sealing of the xenon lamp, and simultaneously avoid the problem that the operation of sleeving an insulating heat shrink tube during packaging is troublesome.

Further, the opening through the first channel 1064 is arranged on the side wall of the sealing plug 106, after the wire 1042 extends out of the side wall of the sealing plug 106, the sealing plug 106 can be rotated, and then the opening of the first channel 1064 faces upward, and then the silicone rubber is poured into the opening of the first channel 1064, because the opening of the first channel 1064 faces upward, the poured silicone rubber cannot flow out, thereby avoiding the pollution to the workbench and the glass tube 102, realizing the sealing of the first channel 1064, further realizing the sealing of the xenon lamp 104, and avoiding the problem of troublesome operation of sleeving an insulating heat-shrinkable tube during packaging.

Further, the glass tube 102 may be a quartz glass tube. Specifically, the quartz glass tube has excellent spectral characteristics, and can transmit not only visible light but also infrared rays and ultraviolet rays. Therefore, the quartz glass is used, so that the sterilization effect of the xenon lamp module 100 is better.

Example 2

As shown in fig. 1 and 2, an embodiment of the first aspect of the present invention proposes a xenon lamp module 100, and the xenon lamp module 100 includes a glass tube 102, a xenon lamp 104, and a sealing plug 106.

In addition to the above embodiments, as shown in fig. 6, 7 and 8, the sealing plug 106 further includes an annular groove 1068.

Specifically, as shown in fig. 2, 6, 7 and 8, the annular groove 1068 is opened at one end of the sealing plug 106 connected to the glass tube 102, and the end of the glass tube 102 is inserted into the annular groove 1068.

In this embodiment, an annular groove 1068 is formed in one end of the sealing plug 106, and the annular groove 1068 is located at the end of the sealing plug 106 that is connected to the glass tube 102. The end of the glass tube 102 is inserted into the annular groove 1068 to fix the glass tube 102, so that the end of the sealing plug 106 connected to the glass tube 102 is sleeved on the glass tube 102, and further, the sealing performance of the xenon lamp module 100 is improved.

Further, the sealing plug 106 also includes a second passage 1066. One end of the second channel 1066 is communicated with the mounting cavity, and the second channel 1066 is communicated with the first channel 1064; the xenon lamp 104 comprises a trigger wire 1044, and the trigger wire 1044 penetrates through the second channel 1066.

Specifically, as shown in fig. 2, 6, 7 and 8, the sealing plug 106 is further provided with a second channel 1066, wherein one end of the second channel 1066 is connected to the mounting cavity of the glass tube 102, and the other end is connected to one end of the first channel 1064 located on the peripheral side wall of the sealing plug 106. The xenon lamp 104 further includes a trigger wire 1044, wherein the trigger wire 1044 is wound on the outer peripheral wall of the tube body of the xenon lamp 104, and has a leading end. The leading-out end of the trigger wire 1044 penetrates through the second channel 1066, and the lead 1042 of the electrode end of the xenon lamp 104 penetrates through the first channel 1064, so that the lead 1042 connected with the electrode and the trigger wire 1044 are respectively wrapped in the first channel 1064 and the second channel 1066, thereby avoiding the risk of short circuit; on the other hand, the problem of troublesome operation of sleeving the insulating heat-shrinkable tube during packaging is avoided.

Further, as shown in fig. 7 and 8, the second channel 1066 is in communication with one end of the first channel 1064 located on the peripheral side wall of the sealing plug 106, so that the trigger wire 1044 and the conducting wire 1042 both penetrate through the first channel 1064, thereby reducing the possibility of leakage caused by the moisture and humidity from the outside entering the tube.

Further, the sealing plug 106 also includes a mounting hole 1062. The mounting hole 1062 is opened at an end of the sealing plug 106 connected to the glass tube 102, the mounting hole 1062 communicates with an end of the first passage 1064, and an end of the xenon lamp 104 is disposed in the mounting hole 1062.

Specifically, as shown in fig. 2, 6, 7 and 8, the sealing plug 106 further includes a mounting hole 1062, and the mounting hole 1062 opens at one end of the sealing plug 106 connected to the glass tube 102. Further, the end of the xenon lamp 104 is disposed in the mounting hole 1062, the xenon lamp 104 is fixed by the mounting holes 1062 in the sealing plugs 106 at the two ends of the glass tube 102, and the two ends of the xenon lamp 104 are positioned by the mounting holes 1062, so that the xenon lamp 104 is positioned and placed in the glass tube 102, the problem that the xenon lamp 104 shakes in the glass tube 102 is solved, and the management and control design of the production and packaging process is facilitated. Meanwhile, the mounting hole 1062 is connected to one end of the first channel 1064, so that the lead 1042 connected to the electrodes at the two ends of the xenon lamp 104 can be connected to an external circuit through the first channel 1064, so that the xenon lamp module 100 can operate normally.

Further, the diameter of the mounting hole 1062 is larger than the diameter of the first passage 1064.

Specifically, as shown in fig. 7 and 8, by defining the diameter of the mounting hole 1062 to be larger than the diameter of the first channel 1064, the xenon lamp 104 is axially positioned by the step surface formed between the mounting hole 1062 and the first channel 1064, and the xenon lamp 104 is radially positioned by the radial hole side wall of the mounting hole 1062, so that the mounting hole 1062 can better fix the xenon lamp 104 in the glass tube 102, and the stability of the xenon lamp 104 installation is improved.

Further, the annular groove 1068 is located on the circumferential side of the mounting hole 1062.

Specifically, as shown in fig. 2, 6, 7, and 8, the annular groove 1068 is disposed on the periphery of the mounting hole 1062, on one hand, opposite to the body structure of the glass tube 102, so as to improve the sealing performance of the glass tube 102; on the other hand, the xenon lamp 104 is matched with the mounting hole 1062, so that the xenon lamp 104 is positioned in the middle of the glass tube 102, namely, the problem that the xenon lamp 104 shakes not to be centered in the glass tube 102 is solved through the fixing and limiting effects of the annular groove 1068 and the mounting hole 1062.

Further, the sealing plug 106 also includes a mounting recess 1070. The mounting recess 1070 is formed in the sidewall of the sealing plug 106 and extends circumferentially around the sealing plug 106; wherein the mounting recess 1070 is positioned between the other end of the first passageway 1064 and the connection end of the sealing plug 106 and the glass tube 102.

Specifically, as shown in fig. 1, 2, 5, 6, 7, and 8, the sealing plug 106 further defines a mounting groove 1070 on the sidewall of the sealing plug 106 and extending along the circumferential direction of the sealing plug 106. The mounting groove 1070 is disposed between the other end of the first channel 1064 and the connecting end of the sealing plug 106 and the glass tube 102, so as to facilitate the mounting and fixing of the xenon lamp module 100 in application, and the xenon lamp module 100 is more conveniently mounted by using the mounting groove 1070 for clamping and fixing. Further, by providing the mounting groove 1070 at the inner side of the opening, it is possible to locate the lead wire at the outside when the xenon lamp module 100 is mounted, so as to facilitate the connection with an external device.

Further, the sealing plug 106 comprises a silicone plug or a rubber plug.

Specifically, the sealing plug 106 for sealing the glass tube 102 in the xenon lamp module 100 may be a silicone plug or a rubber plug. Specifically, the hardness of the sealing plug 106 is required, which is hard to be inserted into the glass tube 102, and is hard to be shrunk and sealed. And the hardness of silica gel stopper or rubber buffer is suitable and have sealing performance good, high temperature resistant, characteristics such as insulating nature is good.

Example 3

As shown in fig. 1 to 8, the embodiment of the first aspect of the present invention proposes a xenon lamp module 100, and the xenon lamp module 100 includes a glass tube 102, a xenon lamp 104 and a sealing plug 106.

Specifically, as shown in fig. 1 to 8, the xenon lamp module 100 includes a glass tube 102, a xenon lamp 104, and a sealing plug 106. Wherein the glass tube 102 comprises an installation cavity; the xenon lamp 104 includes a lead 1042 and a trigger wire 1044; the sealing plug 106 includes a first channel 1064, an annular groove 1068, a second channel 1066, a mounting hole 1062, and a mounting recess 1070.

Specifically, as shown in fig. 6 to 8, a mounting hole 1062 is opened in the sealing plug 106, and the diameter of the mounting hole 1062 is set to be the same as the diameter of the xenon lamp 104 for mounting the xenon lamp 104.

Further, a first channel 1064 and a second channel 1066 are opened, respectively.

Specifically, as shown in fig. 5 to 8, one end of the first passage 1064 is connected to the mounting hole 1062, and the other end is located on the peripheral sidewall of the sealing plug 106, and the diameter of the first passage 1064 is smaller than the diameter of the mounting hole 1062. The second channel 1066 is disposed on the periphery of the first channel 1064, and is connected to the other end of the first channel 1064.

Specifically, as shown in fig. 7 and 8, the first passage 1064 includes an axial passage extending axially along the sealing plug 106 and a radial passage extending radially along the sealing plug 106, the axial passage and the radial passage are in communication, and the second passage 1066 is in communication with the radial passage, so that the lead 1042 and the trigger wire 1044 extend from the opening of the radial passage.

Further, as shown in fig. 6 to 8, an annular groove 1068 is formed along the circumferential side of the mounting hole 1062 at the end of the sealing plug 106 where the mounting hole 1062 is formed, and the width of the annular groove 1068 may be set to be the same as the thickness of the glass tube 102.

Further, the xenon lamp module 100 according to the present embodiment is assembled as follows:

as shown in fig. 3, a lead 1042 is respectively soldered to the electrode of the xenon lamp 104 and the trigger wire 1044.

Further, as shown in fig. 4, the xenon lamp 104 welded with the lead 1042 is inserted into the glass tube 102, the xenon lamp 104 is disposed in the mounting cavity of the glass tube 102, and the lead 1042 extends out of the glass tube 102.

Further, as shown in fig. 1 and 2, a sealing plug 106 is installed at both ends of the glass tube 102. The wires 1042 at the two ends of the electrode of the xenon lamp 104 pass through the first channel 1064 of the sealing plug 106, and the trigger wire 1044 of the xenon lamp 104 passes through the second channel 1066, wherein the welding heads are respectively wrapped in the first channel 1064 and the second channel 1066. Since the sealing plug 106 itself has insulation, the wire 1042 does not need to be covered with an additional insulation heat-shrinkable tube.

Furthermore, the mounting hole 1062 in the sealing plug 106 is connected with the xenon lamp 104 to sleeve two ends of the electrode of the xenon lamp 104, the annular groove 1068 sleeves the end of the glass tube 102, and the contraction, clasping or extrusion sealing is realized through the elastic action; the xenon lamp 104 can be regularly installed, such as centrally installed, by the co-location of the mounting hole 1062 with the annular groove 1068.

Further, the wire 1042 and the trigger 1044 extend out of the first channel 1064 at the end of the peripheral sidewall of the sealing plug 106. Further, the sealing plugs 106 on the left and right sides of the glass tube 102 are adjusted so that the outlet directions of the first passages 1064 at one ends of the peripheral side walls of the sealing plugs 106 are the same, and further, silicone rubber is poured into the outlet ends for sealing the first passages 1064. Specifically, the outlet end of the first channel 1064 at the peripheral wall of the sealing plug 106 can be adjusted to be horizontal and upward, so that after filling silicone rubber, silicone rubber can be prevented from flowing out, and further, the workbench and the glass tube 102 can be prevented from being polluted.

Further, as shown in fig. 5 to 8, a mounting groove 1070 is formed in a sidewall of the sealing plug 106 and extends circumferentially along the sealing plug 106. The installation on the application is convenient to fix.

Furthermore, the sealing plug 106 may be made of silicon rubber, TPE (Thermoplastic Elastomer), PVC (Polyvinyl chloride), and other softer colloids, and the colloid hardness satisfies 35 degrees to 65 degrees shore, so that in the process of threading the wire 1042, the first channel 1064 may be pressed to deform and give way, which is convenient for the wires in the first channel 1064 and the second channel 1066 extending along the axial direction of the sealing plug 106 to smoothly pass through, thereby improving the convenience of threading.

In summary, in the xenon lamp module 100 provided by the present application, the xenon lamp 104 is disposed in the glass tube 102, the sealing plug 106 is disposed at the end of the glass tube 102, and the conducting wire 1042 of the xenon lamp 104 is connected to the external circuit after penetrating out through the first channel 1064 and the second channel 1066, so that on one hand, the technical effect of sealing the xenon lamp 104 is achieved, and thus the safety of the xenon lamp module 100 is improved; on the other hand, the problem that the operation of sleeving the insulating heat-shrinkable tube is troublesome during packaging is solved.

Example 4

As shown in fig. 9 to 13, a second aspect embodiment of the present invention provides a germicidal assembly 10 including a mounting base 200 and the xenon lamp module 100 of any of the above embodiments. Specifically, the xenon lamp module 100 is disposed on the mount 200.

The sterilization assembly 10 provided by the utility model comprises a mounting seat 200 and a xenon lamp module 100, wherein the mounting seat 200 is used for providing a mounting position for components on the sterilization assembly 10. The xenon lamp module 100 is installed on the installation base 200 as an independent module, so that the xenon lamp module is convenient to disassemble and install, and the production efficiency is improved.

Further, the xenon lamp module 100 provided by the present application includes a glass tube 102, a xenon lamp 104, and a sealing plug 106. By installing the xenon lamp 104 in the installation cavity of the glass tube 102, the sealing plugs 106 are provided at both ends of the glass tube 102. By setting the xenon lamp module 100 to be independent individual, the integral installation and disassembly can be realized in the application and installation process, and the installation efficiency and the use safety of the xenon lamp module 100 are improved.

Specifically, the present application provides a xenon lamp module 100 by providing a first channel 1064 and a second channel 1066 in the sealing plug 106. The first channel 1064 allows the wires 1042 at two ends of the electrode of the xenon lamp 104 to penetrate out of the glass tube 102, the second channel 1066 allows the trigger wire 1044 to penetrate out of the glass tube 102, and the first channel 1064 is connected with the second channel 1066, thereby solving the problem of troublesome operation of sleeving an insulating heat shrink tube during packaging in the prior art. By arranging the mounting hole 1062 and the annular groove 1068, wherein the mounting hole 1062 is used for mounting and fixing one end of the xenon lamp 104, the annular groove 1068 is connected with the glass tube 102 and sleeved with the port of the glass tube 102, and the problem of the xenon lamp 104 shaking in the glass tube 102 is solved by the cooperation between the mounting hole 1062 and the annular groove 1068.

Further, the mount 200 includes a mounting through hole 202; the sterilization assembly 10 also includes a positioning frame 204.

Specifically, as shown in fig. 9 and 11 to 13, the positioning frame 204 is provided on the mount 200 on the periphery side of the mounting through hole 202, and the xenon lamp module 100 is mounted on the positioning frame 204.

In this embodiment, as shown in fig. 10, the mounting seat 200 is opened with a mounting through hole 202 for transmitting the light emitted from the xenon lamp module 100 to the article to be sterilized. The locating rack 204 is arranged on the mounting base 200 and located on the periphery of the mounting through hole 202, and the xenon lamp module 100 is mounted on the locating rack 204, so that the mounting and dismounting are facilitated, and the production efficiency is improved.

Further, the sterilization assembly also includes a mounting bracket 206. The mounting bracket 206 is connected to the positioning bracket 204, the xenon lamp module 100 is located between the positioning bracket 204 and the mounting bracket 206, and the outlet of the first channel 1064 is located outside the mounting bracket 206.

Specifically, as shown in fig. 9 and 11 to 13, the xenon lamp module 100 is disposed on the positioning frame 204, and the positioning frame 204 is connected to the mounting frame 206, so that the xenon lamp module 100 is fixed on the mounting base 200, which is convenient for disassembly and assembly, and improves the production efficiency. The outlet of the first passage 1064 is located at the outer side of the mounting frame 206, so that the wire 1042 and the trigger wire 1044 penetrating through the first passage 1064 are connected to an external circuit, thereby ensuring the normal operation of the sterilization assembly 10.

Further, the connection mode of the mounting frame 206 and the positioning frame 204 can be a buckle installation mode, and the connection structure of the buckle and the clamping groove is simple in structure, easy to operate, convenient to detach and install, and further the convenience in installation of the xenon lamp module 100 is improved, and the material cost is low.

Further, the sterilization assembly 10 further includes a reflector 208. The reflector 208 covers the xenon lamp module 100, and the xenon lamp module 100 is located between the reflector 208 and the mounting frame 206.

Specifically, as shown in fig. 13, the sterilization assembly 10 is further provided with a reflector 208, the reflector 208 is fixed above the xenon lamp module 100 by the mounting frame 206, the reflector 208 is used for reflecting and focusing light of the xenon lamp 104 to the mounting through hole 202 on the mounting base 200, and further, most of the light emitted by the xenon lamp 104 is transmitted to the material to be sterilized through the mounting through hole 202, so that the sterilization effect is further enhanced.

Further, the mounting bracket 206 includes a first recess 2062; the spacer 204 includes a second groove 2042. A mounting hole is defined by the first groove 2062 and the second groove 2042; the sealing plug 106 is disposed through the mounting hole.

In this embodiment, as shown in fig. 12 and 13, first grooves 2062 are provided on opposite sides of the mounting bracket 206 and second grooves 2042 are provided on opposite sides of the positioning bracket 204. When the mounting base 200 is connected to the mounting frame 206, the first recess 2062 and the second recess 2042 can enclose the mounting hole 1062, and the sealing plug 106 is inserted into the mounting hole, i.e., the mounting groove 1070 in the sealing plug 106 is adapted to the mounting hole, so that the xenon lamp module 100 can be mounted and fixed better. In this embodiment, the xenon lamp module 100 is fixed and installed simply and conveniently by using the corresponding groove bodies on the positioning frame 204 and the installation frame 206, and the operation is easy, so that the installation convenience and safety of the sterilization assembly 10 are improved.

Further, as shown in fig. 13, the sterilization assembly further includes a cover 210 and a circuit board, the cover 210 is connected to the mounting base 200 and encloses an electrical cavity, the circuit board is installed in the electrical cavity, and the circuit board is electrically connected to the xenon lamp module 100 to implement power supply and communication of the xenon lamp module 100.

Specifically, as shown in fig. 11, the electric appliance cavity is provided with a line passing hole 212 connected with the outside, and the circuit board is connected with the xenon lamp module 100 through the line passing hole 212 by using a lead wire. Further, the wire passing hole 212 is sealed by a sealing member, specifically, the sealing member is configured to be sleeved on the wire and mounted on the wire passing hole 212, and the sealing member is located between the wire and the wire passing hole 212. And the sealing performance of the electric appliance cavity is further improved, and the problem that the electric leakage is caused and safety accidents are caused because external moisture and humidity enter the electric appliance cavity is avoided.

Example 5

As shown in fig. 14, a food material storage device 1 according to a third aspect of the present invention includes a box 20 and the sterilization assembly 10 of any one of the above embodiments.

Specifically, as shown in FIG. 14, the housing 20 includes a storage chamber 2302; the sterilization assembly 10 is disposed on the box body 20, and the xenon lamp module 100 is used for sterilizing the materials in the storage chamber 2302.

The food material storage device 1 comprises a box body 20 and a sterilization assembly 10, wherein the box body 20 comprises a storage cavity 2302, and the sterilization assembly 10 is arranged on the box body 20 and is used for sterilizing the materials in the storage cavity 2302. This application sets the subassembly 10 that disinfects who provides to an independent module, and then when installing xenon lamp module 100 on the box 20 body, can realize the integral erection, it is convenient to install, and further promotes the security in installation and the use.

Further, the cabinet 20 includes a body 220 and a drawer 230. The body 220 includes a cavity 2202, the drawer 230 slidably disposed within the cavity 2202, the drawer 230 including a storage cavity 2302; the sterilizing module 10 is mounted on the body 220.

In this embodiment, as shown in fig. 14, the case 20 of the food material storage apparatus 1 includes a body 220 and a drawer 230, the body 220 includes a cavity 2202, and the drawer 230 is slidably disposed in the cavity 2202. Further, the drawer 230 includes a storage chamber 2302, the storage chamber 2302 being used to store materials. The cavity 2202 is used to provide a mounting location for other devices in the food storage apparatus 1. The sterilizing assembly 10 is installed in the body 220 and located at the top of the drawer 230, which is beneficial for protecting the xenon lamp module 100 from damage to vulnerable parts including glass.

In particular, the food material storage device 1 may be a refrigerator, a cupboard or the like.

In the present invention, the term "plurality" means two or more unless explicitly defined otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (14)

1. A xenon lamp module, comprising:

a glass tube comprising an installation cavity;

the xenon lamp is arranged in the mounting cavity and comprises a lead;

the sealing plug is arranged at the end part of the glass tube and used for sealing the glass tube; the sealing plug comprises a first channel, one end of the first channel is communicated with the installation cavity, the other end of the first channel is located on the peripheral side wall of the sealing plug, and the wire penetrates through the first channel.

2. The xenon lamp module according to claim 1, wherein the sealing plug further comprises:

and the annular groove is formed in one end, connected with the glass tube, of the sealing plug, and the end part of the glass tube is inserted into the annular groove.

3. The xenon lamp module according to claim 2, wherein the sealing plug further comprises:

one end of the second channel is communicated with the mounting cavity, and the second channel is communicated with the first channel;

the xenon lamp comprises a trigger electric wire, and the trigger electric wire penetrates through the second channel.

4. The xenon lamp module according to claim 2, wherein the sealing plug further comprises:

the mounting hole is formed in one end, connected with the glass tube, of the sealing plug, the mounting hole is communicated with one end of the first channel, and the end portion of the xenon lamp is arranged in the mounting hole.

5. The xenon lamp module according to claim 4,

the diameter of the mounting hole is larger than the diameter of the first channel.

6. The xenon lamp module according to claim 5,

the annular groove is located on the periphery side of the mounting hole.

7. The xenon lamp module according to any one of claims 1 to 6, wherein the sealing plug further comprises a mounting groove, the mounting groove is opened in a side wall of the sealing plug and extends along a circumferential direction of the sealing plug;

wherein the mounting groove is positioned between the other end of the first channel and the connecting end of the sealing plug and the glass tube.

8. The xenon lamp module according to any one of claims 1 to 6, wherein the sealing plug comprises a silicone plug or a rubber plug.

9. A sterilization assembly, comprising:

a mounting seat; and

the xenon lamp module of any one of claims 1 to 8, disposed on the mount.

10. The sterilization assembly of claim 9, wherein the mounting seat includes a mounting through-hole; the sterilization assembly further includes:

the locating rack is arranged on the mounting seat and located on the periphery of the mounting through hole, and the xenon lamp module is mounted on the locating rack.

11. The sterilization assembly of claim 10, further comprising:

the xenon lamp module is located between the positioning frame and the mounting frame, and the outlet of the first channel is located on the outer side of the mounting frame.

12. The sterilization assembly of claim 11,

the mounting frame comprises a first groove, the positioning frame comprises a second groove, and a mounting hole is defined by the first groove and the second groove;

the sealing plug is arranged in the mounting hole in a penetrating mode.

13. A food material storage apparatus, comprising:

a case comprising a storage chamber; the sterilizing assembly according to any one of claims 9 to 12, wherein the sterilizing assembly is disposed on the box body, and the xenon lamp module is used for sterilizing food materials in the storage cavity.

14. The food material storage apparatus of claim 13, wherein the case comprises:

a body comprising a cavity;

a drawer slidably disposed within the cavity, the drawer including the storage chamber, the sterilization assembly mounted on the body.

Images