CN111388693A - Device for sterilizing non-moving cultural relics (such as murals) by irradiation technology - Google Patents

Abstract

The invention discloses a device for sterilizing non-moving cultural relics (such as murals) by adopting an irradiation technology, which can not only realize irradiation treatment on the cultural relics without moving the cultural relics such as murals, but also realize omnibearing treatment on different angles and positions of the cultural relics, and is provided with a shielded protective shield to prevent the radiation influence on the outside, when the invention is used for sterilizing the non-moving cultural relics, the protective shield is positioned at the cultural relics to be treated by adjusting a rotary driving disc, a lifting mechanism and a hinged rotating disc, the side of an opening faces to the cultural relics, and the irradiation treatment on different positions of the cultural relics is realized by the transverse and longitudinal sliding of an irradiation component in the protective shield, thereby effectively improving the completeness of the irradiation treatment, simultaneously, the operation is convenient and simple, and the irradiation treatment of different positions such as suspended murals or tiled murals can be realized, the adaptability of irradiation treatment is improved.

Description

Device for sterilizing non-moving cultural relics (such as murals) by irradiation technology

Technical Field

The invention relates to a device for disinfecting and sterilizing non-moving cultural relics (such as murals) by adopting an irradiation technology.

Background

At present, for the maintenance and care of some non-moving cultural relics, the non-moving cultural relics are easy to damage if being taken off or moved for maintenance treatment, and particularly, the cultural relics which are easy to damage, such as murals, cannot be freely moved during maintenance to prevent the cultural relics from being damaged. After the cultural relics such as the murals are stored for a long time, particularly in a humid summer environment, some fungi are easily generated on the surfaces or in the cultural relics, and the fungi easily cause the spoilage of the cultural relics such as the murals, so that how to realize the non-mobile sterilization treatment of the cultural relics is one of important measures for protecting the cultural relics. With the continuous development of the irradiation technology, how to apply the irradiation technology to the processing of the cultural relics is one of the important subjects of the cultural relic processing technology. Therefore, it is one of the issues that people are always concerned about how to design an irradiation treatment device to sterilize and disinfect cultural relics such as murals.

Disclosure of Invention

The invention aims to provide a device for disinfecting and sterilizing non-moving cultural relics (such as murals) by adopting an irradiation technology, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a device for sterilizing non-moving cultural relics (such as murals) by adopting an irradiation technology comprises a moving support seat, a fixed disk, a rotating drive disk, a lifting mechanism, a triangular frame, an installation rod frame mechanism, a hinged rotating disk, a lifting support rod and an irradiation processing mechanism, wherein the fixed disk is fixedly arranged on the moving support seat, the triangular frame which vertically extends is arranged on the periphery of the upper end surface of the fixed disk, the device is characterized in that the rotating drive disk is arranged at the center of the fixed disk, the rotating output end of the rotating drive disk is connected with the lifting mechanism which vertically extends, the upper end of the lifting mechanism assists the slidable lifting support at the top of the triangular frame, the lifting output end at the top end of the lifting mechanism is connected with the installation rod frame mechanism through the lifting support rod, and the hinged rotating disk for adjusting the connection angle between the lifting support rod and the installation rod frame mechanism is also arranged between the lifting support rod and the installation rod frame mechanism, the mounting rod frame mechanism is connected with an irradiation treatment mechanism; the irradiation processing mechanism comprises a protective shielding cover, a switch shielding door and an irradiation assembly, wherein one side of the protective shielding cover is of a square structure with an opening, the switch shielding door capable of being opened and closed is arranged on one side of the protective shielding cover, and the irradiation assembly is arranged in the protective shielding cover and can transversely and longitudinally slide in the protective shielding cover; when the non-moving cultural relics are disinfected and sterilized, the protective shielding cover is positioned at the position of the cultural relics to be treated by adjusting the rotary driving disc, the lifting mechanism and the hinged rotating disc, one side of the opening faces to the cultural relics, and the irradiation treatment of different positions of the cultural relics is realized by the irradiation assembly sliding transversely and longitudinally in the protective shielding cover.

Further, as preferred, the irradiation subassembly includes vertical track, first transverse plate, the transverse plate of second, mounting bracket plate, fixing base, angle adjustment mechanism and irradiation transmitter, wherein, vertical track with mounting bar frame mechanism coaxial line is connected, slidable is connected with on the vertical track first transverse plate, the transverse plate of second, fixed and parallel arrangement between the transverse plate of first transverse plate and the second, can be provided with along horizontal slip on first transverse plate and the transverse plate of second the mounting bracket plate, the up end of mounting bracket plate is provided with the fixing base, adopt on the fixing base angle adjustment mechanism angle-adjustable's being connected with the irradiation transmitter.

Preferably, guide rod seats are arranged at two ends of the first transverse plate and the second transverse plate, guide rods are arranged between the guide rod seats, two symmetrical guide sleeves are arranged on the mounting frame plate and are in sliding guide connection with the guide rods, and a transverse driving mechanism is arranged on the first transverse plate or the second transverse plate.

Preferably, the transverse driving mechanism includes a driving seat, a transverse screw-nut mechanism and a transverse motor, the transverse screw-nut mechanism is disposed in the driving seat, a nut of the transverse screw-nut mechanism is connected to the mounting frame plate, and the transverse motor is disposed on one side of the driving seat so as to drive a screw of the transverse screw-nut mechanism to rotate.

Further, as a preferred option, a longitudinal nut screw mechanism is arranged on one side of the longitudinal rail, a longitudinal motor is fixedly arranged at one end of the longitudinal rail, and the longitudinal motor drives the longitudinal nut screw mechanism to further drive the first transverse plate and the second transverse plate to move longitudinally.

Further, as preferred, angle adjustment mechanism includes lock sleeve, locating plate, angle regulator, emitter seat, emission controller and auxiliary fixing plate, wherein, the one end of lock sleeve is fixed on the fixing base, the other end locking of lock sleeve is fixed on the fixed axle of locating plate one end, adopt on the locating plate angle regulator connects the emitter seat, the lower extreme of emitter seat passes through emission controller connects the irradiation emitter, emitter seat with still be provided with between the irradiation emitter auxiliary fixing plate, the last connection control cable of emission controller.

Further, as preferred, the angle adjuster includes positioning flange, drive wheel, axis of rotation and angle modulation swivel mount, the one end of positioning flange is fixed on the locating plate, the last fixed drive seat frame that is provided with of positioning flange, it is rotatable to be provided with in the drive seat frame the axis of rotation, the cover is equipped with in the axis of rotation the drive wheel, the tip fixed connection of axis of rotation on the angle modulation swivel mount, the angle modulation swivel mount with the transmitter seat is connected.

Preferably, the driving seat frame is further provided with an angular rotation driver, and the angular rotation driver drives the driving wheel to rotate, so as to drive the rotating shaft to rotate.

Further, as preferred, still fixed cover is equipped with angle detector on the axis of rotation, angle detector is used for right the turned angle of axis of rotation detects, just angle detector is angle encoder.

Further, preferably, an alarm is further provided on the top of the protective shield.

Compared with the prior art, the invention has the beneficial effects that:

the invention provides a device for sterilizing non-moving cultural relics (such as murals) by adopting an irradiation technology, which can not only realize irradiation treatment on the cultural relics without moving the cultural relics such as the murals, but also realize omnibearing treatment on different angles and positions of the cultural relics, and is provided with a shielding protective shield to prevent the radiation influence on the outside, when the non-moving cultural relics are sterilized, the protective shield is positioned at the cultural relics to be treated by adjusting a rotary driving disc, a lifting mechanism and a hinged rotating disc, the opening side faces to the cultural relics, and the irradiation treatment on different positions of the cultural relics is realized by the transverse and longitudinal sliding of an irradiation component in the protective shield, the structure is simple, the use is convenient, the irradiation treatment is effectively improved completely, and simultaneously, the method is convenient and simple to operate, can realize the irradiation treatment of different positions such as suspended murals or tiled murals, and improves the adaptability of the irradiation treatment.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an apparatus for sterilizing non-moving cultural relics (such as murals) by irradiation;

FIG. 2 is a schematic axial view of a radiation treatment mechanism in an apparatus for sterilizing non-moving cultural relics (e.g., murals) by radiation technique;

FIG. 3 is a schematic top view of an axial side structure of a radiation processing mechanism in a device for sterilizing non-moving cultural relics (such as murals) by radiation technology

FIG. 4 is a schematic structural view of an irradiation assembly of the present invention;

FIG. 5 is a schematic structural view of the angle adjustment mechanism of the present invention;

FIG. 6 is a schematic diagram of the configuration of the radiation emitter locations of the radiation module of the present invention;

Detailed Description

Referring to fig. 1 to 6, in an embodiment of the present invention, a device for sterilizing non-moving cultural relics (such as murals) by using an irradiation technology includes a moving support base 01, a fixed disk 02, a rotating drive disk 03, a lifting mechanism 04, a triangular frame 05, a mounting rod frame mechanism 06, a hinged rotating disk 08, a lifting support rod 09, and an irradiation processing mechanism 07, wherein the fixed disk 02 is fixedly disposed on the moving support base 01, the triangular frame extending vertically is disposed around the upper end surface of the fixed disk, the device is characterized in that the rotating drive disk 03 is disposed in the center of the fixed disk, the rotating output end of the rotating drive disk is connected to the lifting mechanism 04 extending vertically, the upper end of the lifting mechanism is supported on the top of the triangular frame 05 in a sliding manner, the lifting output end at the top end of the lifting mechanism is connected to the mounting rod frame 06 through the lifting support rod 09, a hinged rotating disc 08 for adjusting the connection angle between the lifting support bar 09 and the mounting bar frame mechanism 06 is further arranged between the lifting support bar 09 and the mounting bar frame mechanism, and an irradiation processing mechanism 07 is connected to the mounting bar frame mechanism; the irradiation processing mechanism 07 comprises a protective shielding cover 1, a switch shielding door 2 and an irradiation component 6, wherein one side of the protective shielding cover 1 is of a square structure with an opening, the switch shielding door 2 capable of being opened and closed is arranged on one side of the protective shielding cover, and the irradiation component 6 is arranged in the protective shielding cover 1 and can transversely and longitudinally slide in the protective shielding cover 1; when the non-moving cultural relics are disinfected and sterilized, the protective shielding case 1 is positioned at the cultural relics to be treated by adjusting the rotary driving disc 03, the lifting mechanism 04 and the hinged rotating disc 08, the side which is open is aligned to the cultural relics, and the irradiation treatment of different positions of the cultural relics is realized by the irradiation assembly sliding transversely and longitudinally in the protective shielding case 1.

In this embodiment, the irradiation subassembly includes vertical track 8, first transverse plate 9, second transverse plate 10, mounting bracket plate 7, fixing base 15, angle adjustment mechanism 16 and irradiation transmitter 17, wherein, vertical track 8 with mounting bracket mechanism 06 coaxial line is connected, slidable is connected with on the vertical track 8 first transverse plate 9, second transverse plate 10, fixed and parallel arrangement between first transverse plate 9 and the second transverse plate 10, can be provided with along horizontal slip on first transverse plate 9 and the second transverse plate 10 mounting bracket plate, mounting bracket plate's up end is provided with the fixing base, adopt on the fixing base angle adjustment mechanism adjustable angle's be connected with the irradiation transmitter.

As a preferred embodiment, two ends of the first transverse plate 9 and the second transverse plate 10 are respectively provided with a guide rod seat 11, a guide rod 12 is arranged between the guide rod seats, the mounting frame plate 7 is provided with two symmetrical guide sleeves 13, the guide sleeves and the guide rods are connected in a sliding guiding manner, and the first transverse plate or the second transverse plate is provided with a transverse driving mechanism.

The transverse driving mechanism comprises a driving seat 14, a transverse lead screw and nut mechanism and a transverse motor 19, the transverse lead screw and nut mechanism is arranged in the driving seat 14, a nut of the transverse lead screw and nut mechanism is connected to the mounting frame plate, and the transverse motor 19 is arranged on one side of the driving seat so as to drive a lead screw of the transverse lead screw and nut mechanism to rotate.

A longitudinal nut screw mechanism is arranged on one side of the longitudinal rail 8, a longitudinal motor 18 is fixedly arranged at one end of the longitudinal rail, and the longitudinal motor drives the longitudinal nut screw mechanism to further drive the first transverse plate 9 and the second transverse plate 10 to move longitudinally.

Angle adjustment mechanism 16 includes lock sleeve 26, locating plate 25, angle regulator 22, emitter seat 24, emission controller 20 and auxiliary fixing plate 21, wherein, the one end of lock sleeve is fixed on the fixing base, the other end locking of lock sleeve is fixed on the fixed axle of locating plate one end, adopt on the locating plate angle regulator connects the emitter seat, the lower extreme of emitter seat passes through emission controller 20 connects the irradiation transmitter, emitter seat 24 with still be provided with between the irradiation transmitter auxiliary fixing plate 21, connect control cable 23 on the emission controller 20.

Angle adjuster 22 includes positioning flange 27, drive wheel 31, axis of rotation 33 and angle modulation swivel mount 30, positioning flange's one end is fixed on locating plate 25, the fixed drive seat frame 28 that is provided with on positioning flange 27, it is rotatable to be provided with in the drive seat frame the axis of rotation, the cover is equipped with in the axis of rotation the drive wheel, the tip fixed connection of axis of rotation on the angle modulation swivel mount, the angle modulation swivel mount with emitter seat 24 is connected.

The driving seat frame 28 is further provided with an angular rotation driver 29, and the angular rotation driver drives the driving wheel 31 to rotate, so as to drive the rotating shaft to rotate.

Still fixed cover is equipped with angle detector 32 in the axis of rotation, angle detector 32 is used for right the turned angle of axis of rotation detects, just angle detector is angle encoder. The top of the protective shield 1 is also provided with an alarm 3.

The invention provides a device for sterilizing non-moving cultural relics (such as murals) by adopting an irradiation technology, which can not only realize irradiation treatment on the cultural relics without moving the cultural relics such as the murals, but also realize omnibearing treatment on different angles and positions of the cultural relics, and is provided with a shielding protective shield to prevent the radiation influence on the outside, when the non-moving cultural relics are sterilized, the protective shield is positioned at the cultural relics to be treated by adjusting a rotary driving disc, a lifting mechanism and a hinged rotating disc, the opening side faces to the cultural relics, and the irradiation treatment on different positions of the cultural relics is realized by the transverse and longitudinal sliding of an irradiation component in the protective shield, the structure is simple, the use is convenient, the irradiation treatment is effectively improved completely, and simultaneously, the method is convenient and simple to operate, can realize the irradiation treatment of different positions such as suspended murals or tiled murals, and improves the adaptability of the irradiation treatment.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.

Claims (10)

1. A device for sterilizing non-moving cultural relics by adopting an irradiation technology comprises a moving support seat (01), a fixed disk (02), a rotating driving disk (03), a lifting mechanism (04), a triangular frame (05), an installation rod frame mechanism (06), a hinged rotating disk (08), a lifting support rod (09) and an irradiation processing mechanism (07), wherein the fixed disk (02) is fixedly arranged on the moving support seat (01), the triangular frame which vertically extends is arranged around the upper end surface of the fixed disk, the device is characterized in that the rotating driving disk (03) is arranged at the center of the fixed disk, the rotating output end of the rotating driving disk is connected with the lifting mechanism (04) which vertically extends, the upper end of the lifting mechanism is supported at the top of the triangular frame (05) in a sliding and lifting manner, the lifting output end at the top end of the lifting mechanism is connected with the installation rod frame mechanism (06) through the lifting support rod (09), a hinged rotating disc (08) for adjusting the connection angle between the lifting support rod (09) and the mounting rod frame mechanism (06) is further arranged between the lifting support rod and the mounting rod frame mechanism, and the mounting rod frame mechanism is connected with an irradiation processing mechanism (07); the irradiation treatment mechanism (07) comprises a protective shielding cover (1), a switch shielding door (2) and an irradiation assembly (6), wherein one side of the protective shielding cover (1) is of a square structure with an opening, the switch shielding door (2) capable of being opened and closed is arranged on one side of the protective shielding cover, and the irradiation assembly (6) is arranged in the protective shielding cover (1) and can slide transversely and longitudinally in the protective shielding cover (1); when the non-moving cultural relics are disinfected and sterilized, the protective shielding cover (1) is positioned at the cultural relics to be treated by adjusting the rotary driving disc (03), the lifting mechanism (04) and the hinged rotating disc (08), the open side faces to the cultural relics, and the irradiation treatment of different positions of the cultural relics is realized by the irradiation assembly sliding transversely and longitudinally in the protective shielding cover (1).

2. The apparatus for sterilizing non-moving cultural relics by irradiation technology as claimed in claim 1, wherein: the irradiation subassembly includes vertical track (8), first horizontal board (9), second horizontal board (10), mounting bracket board (7), fixing base (15), angle adjustment mechanism (16) and irradiation transmitter (17), wherein, vertical track (8) with mounting bar frame mechanism (06) coaxial line is connected, slidable is connected with on vertical track (8) first horizontal board (9), second horizontal board (10), fixed and parallel arrangement between first horizontal board (9) and second horizontal board (10), can be provided with along horizontal slip on first horizontal board (9) and the second horizontal board (10) mounting bracket board, mounting bracket board's up end is provided with the fixing base, adopt on the fixing base angle adjustment mechanism adjustable angle is connected with the irradiation transmitter.

3. The apparatus for sterilizing non-moving cultural relics by irradiation technology as claimed in claim 2, wherein: the two ends of the first transverse plate (9) and the second transverse plate (10) are respectively provided with a guide rod seat (11), a guide rod (12) is arranged between the guide rod seats, two symmetrical guide sleeves (13) are arranged on the mounting frame plate (7), the guide sleeves are connected with the guide rods in a sliding guiding mode, and a transverse driving mechanism is arranged on the first transverse plate or the second transverse plate.

4. A device for sterilizing non-moving cultural relics (such as murals) by irradiation technique according to claim 3, characterized in that: the transverse driving mechanism comprises a driving seat (14), a transverse lead screw and nut mechanism and a transverse motor (19), the transverse lead screw and nut mechanism is arranged in the driving seat (14), a nut of the transverse lead screw and nut mechanism is connected to the mounting frame plate, and the transverse motor (19) is arranged on one side of the driving seat so as to drive a lead screw of the transverse lead screw and nut mechanism to rotate.

5. The apparatus for sterilizing non-moving cultural relics by irradiation technology as claimed in claim 4, wherein: one side of the longitudinal rail (8) is provided with a longitudinal nut screw mechanism, one end of the longitudinal rail is fixedly provided with a longitudinal motor (18), and the longitudinal motor drives the longitudinal nut screw mechanism to further drive the first transverse plate (9) and the second transverse plate (10) to longitudinally move.

6. The apparatus for sterilizing non-moving cultural relics by irradiation technology as claimed in claim 2, wherein: angle adjustment mechanism (16) are including lock sleeve (26), locating plate (25), angle regulator (22), transmitter seat (24), emission controller (20) and auxiliary fixing plate (21), wherein, the one end of lock sleeve is fixed on the fixing base, the other end locking of lock sleeve is fixed on the fixed axle of locating plate one end, adopt on the locating plate angle regulator connects the transmitter seat, the lower extreme of transmitter seat passes through emission controller (20) are connected the irradiation transmitter, transmitter seat (24) with still be provided with between the irradiation transmitter auxiliary fixing plate (21), connection control cable (23) are gone up in emission controller (20).

7. The apparatus for sterilizing non-moving cultural relics by irradiation technology as claimed in claim 6, wherein: angle adjuster (22) include positioning flange (27), drive wheel (31), axis of rotation (33) and angle modulation swivel mount (30), positioning flange's one end is fixed on locating plate (25), the fixed drive seat frame (28) that is provided with on positioning flange (27), it is rotatable to be provided with in the drive seat frame the axis of rotation, the cover is equipped with in the axis of rotation the drive wheel, the tip fixed connection of axis of rotation on the angle modulation swivel mount, the angle modulation swivel mount with emitter seat (24) are connected.

8. The apparatus for sterilizing non-moving cultural relics by irradiation technology as claimed in claim 7, wherein: the driving seat frame (28) is further provided with an angle rotation driver (29), and the angle rotation driver drives the driving wheel (31) to rotate so as to drive the rotating shaft to rotate.

9. The apparatus for sterilizing non-moving cultural relics by irradiation technology as claimed in claim 8, wherein: still fixed cover is equipped with angle detector (32) in the axis of rotation, angle detector (32) are used for right the turned angle of axis of rotation detects, just angle detector is angle encoder.

10. An apparatus for sterilizing non-moving cultural relics by irradiation technique according to any one of claims 1-9, characterized in that: the top of the protective shielding cover (1) is also provided with an alarm (3).

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