CN117963339A

CN117963339A - Monitoring instrument storage device with protective structure

Info

Publication number: CN117963339A
Application number: CN202410372102.XA
Authority: CN
Inventors: 宗学美; 史立华
Original assignee: Shandong Business Intelligence Partner Digital Technology Co ltd
Current assignee: Ou Yong
Priority date: 2024-03-29
Filing date: 2024-03-29
Publication date: 2024-05-03
Anticipated expiration: 2044-03-29
Also published as: CN117963339B

Abstract

The invention provides a monitoring instrument storage device with a protection structure, which relates to the technical field of instrument storage and comprises the following components: the protection component rotates the screw rod, make the push pedal with in the liquid propelling movement to external spare, because every external spare of group is different with the position that monitoring instrument contacted, so the size that every external spare expanded is also different, through making every external spare of group carry out the expansion of different degree, can fill up the inside space except monitoring instrument of storage spare as far as possible, avoided the casing when receiving the striking, monitoring instrument can produce in the storage spare and rock, this kind of protection structure is not influenced by instrument shape, can be adapted to the instrument of multiple model, it has been solved current monitoring instrument storage device and has been deposited monitoring instrument after, inside can not have the gap with monitoring instrument, when the storage container receives to collide with, these gaps probably lead to the monitoring instrument to slide in the storage container, thereby the problem of damaging of monitoring instrument has been caused to collide with.

Description

Monitoring instrument storage device with protective structure

Technical Field

The invention relates to the technical field of instrument storage, in particular to a monitoring instrument storage device with a protection structure.

Background

The monitoring instrument is an equipment tool consisting of high-precision electronic parts, the internal structure is very precise and is extremely easy to damage, so that the monitoring instrument needs to be placed into special storage equipment when the monitoring equipment is stored, so that the monitoring instrument is protected from damage, and the service life of the monitoring instrument can be prolonged to the greatest extent.

However, there are some disadvantages in the design of the storage device of the current monitoring instrument, firstly, after the monitoring instrument is stored, gaps are inevitably formed between the storage device and the periphery of the inside of the storage container, when the storage container is bumped, the gaps may cause the monitoring instrument to slide in the storage container, so that the damage of the monitoring instrument is caused, secondly, the storage device of the current monitoring instrument lacks a protection structure with an anti-theft function, and when the storage device is used, the monitoring instrument is locked by using a lock mostly, and the open protection structure is easily broken by a stolen person, so that the protection of the storage structure is not strong.

Disclosure of Invention

In view of the above problems, the invention provides a storage device with a protection structure for a monitoring instrument, which can prevent the storage device from being opened by an unauthorized person, thereby causing the loss of the internal monitoring instrument, and is provided with a drawing component, so that the shape and the size of the space inside the storage piece can be automatically adjusted according to the general outline of the monitoring instrument, and the monitoring instrument can be protected and supported to the greatest extent.

In a first aspect of the present disclosure, there is provided a monitoring instrument storage device having a protection structure, specifically including: a protective assembly; the protection component comprises a shell and a communication hole, wherein the shell is internally of a hollow structure; the communication holes are symmetrically formed at two ends of the bottom of the rear side of the shell; the protection assembly is provided with a turnover assembly, a top plate of the turnover assembly is hinged to the upper end of the inside of the shell, a slot in the top plate is in plug-in fit with the top end of a limiting plate in the inside of the shell, and a telescopic block in the top plate is adjacent to a push rod in the inside of the shell; the protection assembly is provided with a drawing assembly, a storage piece of the drawing assembly is inserted into the shell, the storage piece is positioned at the lower end of the top plate, the rear side of the storage piece is propped against a push rod in the shell, and a clamping groove outside the storage piece is matched with the telescopic block in an inserted manner; the protection component is provided with a bottom component, a supporting plate of the bottom component is fixedly arranged at the bottom of the shell, and a limit groove at the rear side of the supporting plate is communicated with the communication hole.

Optionally, the protective assembly includes: guide groove and push rod; the guide grooves are symmetrically formed on two sides of the shell; the push rod is arranged in the shell, and two ends of the push rod are in sliding fit with the guide grooves.

Optionally, the protective assembly includes: ejector rod and limiting plate; the ejector rods are arranged at the rear side of the inside of the shell in a sliding fit mode, and the bottoms of the two sides of the ejector rods are adjacent to the communication holes; the limiting plate is installed on the rear side of the shell in a sliding fit mode, the top of the limiting plate extends out of the upper end of the rear side of the shell, and the front side of the limiting plate is adjacent to the ejector rod.

Optionally, the flipping assembly includes: a top plate, a telescopic plate and a slot; a rectangular groove is formed in the inner end of the top plate; the expansion plates are slidably arranged at two ends of the bottom of the rear side of the top plate, and support the buffer foam in the top plate; the slot is arranged in the middle of the bottom of the rear side of the top plate.

Optionally, the flipping assembly includes: an inner tank and a telescopic block; the inner groove is formed in the middle of the bottom of the rear side of the top plate; the telescopic blocks are slidably mounted in the inner groove through elastic pieces, and the telescopic blocks can extend out of the bottom side of the inner groove.

Optionally, the drawing assembly includes: a storage member and a clamping groove; a rectangular groove is formed in the storage piece; the clamping groove is formed in the outer end of the rear side of the storage piece, and the clamping groove is of a T-shaped structure.

Optionally, the drawing assembly includes: a bottom slot and an interface; the bottom groove is formed in the inner bottom side of the storage piece, a screw is rotatably arranged in the bottom groove, and flowing liquid is filled in the bottom groove; the interface equidistance is established in the upper end of kerve, and the interface is linked together with the rectangle groove in the storage spare to the upper end outside of interface is equipped with the external screw thread.

Optionally, the drawing assembly includes: a push plate and an external member; the push plate is movably arranged in the bottom groove, is positioned at the lower end of flowing liquid, and is in threaded connection with the screw rod in the bottom groove; the external connection piece is equidistantly arranged in the rectangular groove in the storage piece in an annular mode, the guide pipe at the bottom side of the external connection piece is in threaded connection with the interface, and the external connection piece is communicated with the bottom groove.

Optionally, the bottom assembly comprises: a supporting plate and a limiting groove; four groups of cylindrical structures are arranged on the bottom side of the supporting plate; the limiting groove is formed in the bottom of the four groups of cylindrical structures at the lower end of the supporting plate, the top of the limiting groove penetrates through the supporting plate through a circular through groove through hole, and threads are arranged in the circular through groove.

Optionally, the bottom assembly comprises: a support rod and a stop rod; the support rods are arranged in the circular through grooves at the upper ends of the limit grooves through threads, the support rods penetrate through the limit grooves, the support rods can extend out of the tops of the support plates, and circular insertion holes are formed in the middle positions of the two groups of support rods at the rear sides; the stop lever is inserted into circular insertion holes in the two groups of support rods at the rear side.

The invention provides a monitoring instrument storage device with a protection structure, which has the following beneficial effects:

1. According to the invention, the drawing component is arranged, the bottom groove filled with flowing liquid is arranged in the storage piece, the push plate is slidably arranged in the bottom groove, the push plate is controlled by the screw rod in the bottom groove, the bottom groove is equidistantly provided with the interfaces, the interfaces are communicated with the guide pipes on the external connection pieces in the storage piece, after the monitoring instrument is placed in the storage piece, the screw rod is rotated, the push plate pushes the liquid into the external connection pieces through the interfaces, and as the positions of each group of external connection pieces contacted with the monitoring instrument are different, the expansion of each external connection piece is also different, and by expanding each group of external connection pieces to different degrees, the space except the monitoring instrument in the storage piece can be filled up to the greatest extent, the movement of the monitoring instrument in the storage piece is limited, the phenomenon that the monitoring instrument can shake in the storage piece when the shell is impacted is avoided, and the protection structure is not influenced by the shape of the instrument and can be suitable for various types of instruments.

2. According to the invention, the protection component and the bottom component are arranged, the top plate with the telescopic block is arranged at the upper end of the shell, the supporting plate is arranged at the bottom of the shell, the supporting rod with the stop lever is arranged on the supporting plate in a threaded manner, the T-shaped clamping groove is formed at the rear end of the storage piece for containing the monitoring instrument, when the monitoring instrument is required to be stored, the storage piece is sent into the shell, the telescopic block can automatically complete the matching with the clamping groove, so that the storage piece is fixed in the shell and cannot be ejected, and the storage piece stored in the shell cannot be deduced from the appearance and taken out.

Drawings

The present disclosure will be better understood and its advantages will be more clearly apparent to those skilled in the art from the following drawings. The drawings described herein are for illustration purposes only of selected embodiments and are not intended to limit the scope of the present disclosure in any way as opposed to all possible implementations.

In the drawings:

Fig. 1 shows a schematic perspective view of an embodiment according to the present invention.

Fig. 2 shows an exploded structural schematic diagram according to an embodiment of the present invention.

Fig. 3 shows a rear bottom cross-sectional structural schematic diagram according to an embodiment of the invention.

Fig. 4 shows a schematic rear half-section structure according to an embodiment of the present invention.

Fig. 5 shows a cut-away cross-section according to an embodiment of the invention.

Fig. 6 shows a schematic view of the internal structure of the guard assembly according to an embodiment of the present invention.

Fig. 7 shows a schematic cross-sectional view of a drawing assembly according to an embodiment of the invention.

Fig. 8 illustrates a schematic bottom view of a flip assembly according to an embodiment of the present invention.

Fig. 9 shows a schematic view of a partial connection structure of the flipping assembly and the drawing assembly according to an embodiment of the present invention.

List of reference numerals

1. A protective assembly;

101. a housing; 1011. a communication hole;

102. A guide groove; 1021. a push rod;

103. A push rod; 104. a limiting plate;

2. a flip assembly;

201. A top plate; 2011. a telescoping plate; 2012. a slot;

202. An inner tank; 2021. a telescopic block;

3. a pull assembly;

301. A storage member; 3011. a clamping groove;

302. a bottom groove; 3021. an interface;

303. a push plate; 304. an external member;

4. A base assembly;

401. A support plate; 4011. a limit groove;

402. a support rod; 4021. a stop lever.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention. It will be apparent that the described embodiments are some, but not all, embodiments of the invention. All other embodiments, which can be made by a person skilled in the art without creative efforts, based on the described embodiments of the present invention fall within the protection scope of the present invention.

Embodiment one: please refer to fig. 1 to 9:

The invention provides a monitoring instrument storage device with a protection structure, which comprises: a protective assembly 1; the protection component 1 comprises a shell 101 and a communication hole 1011, wherein the interior of the shell 101 is of a hollow structure; the communication holes 1011 are symmetrically formed at two ends of the bottom of the rear side of the housing 101; the protection component 1 is provided with a turnover component 2, a top plate 201 of the turnover component 2 is hinged to the upper end of the inside of the shell 101, a slot 2012 in the top plate 201 is in plug-in fit with the top end of a limiting plate 104 in the inside of the shell 101, and a telescopic block 2021 in the inside of the top plate 201 is adjacent to a push rod 103 in the inside of the shell 101; the protection component 1 is provided with a drawing component 3, a storage piece 301 of the drawing component 3 is inserted into the shell 101, the storage piece 301 is positioned at the lower end of the top plate 201, the rear side of the storage piece 301 is abutted against a push rod 1021 in the shell 101, and a clamping groove 3011 outside the storage piece 301 is in insertion fit with the telescopic block 2021; the protection component 1 is provided with a bottom component 4, a supporting plate 401 of the bottom component 4 is fixedly arranged at the bottom of the shell 101, and a limit groove 4011 at the rear side of the supporting plate 401 is communicated with the communication hole 1011.

As embodiment 2 of the present application, on the basis of embodiment one, as shown in fig. 5 to 7, the shield assembly 1 includes: a guide groove 102 and a pushrod 1021; the guide grooves 102 are symmetrically formed on two sides of the shell 101; the push rod 1021 is arranged in the shell 101, and two ends of the push rod 1021 are in sliding fit with the guide grooves 102; ejector pin 103 and limiting plate 104; the ejector rod 103 is arranged at the rear side of the inside of the shell 101 in a sliding fit manner, and the bottoms of the two sides of the ejector rod 103 are adjacent to the communication hole 1011; the limiting plate 104 is mounted on the inner rear side of the housing 101 in a sliding fit manner, and the top of the limiting plate 104 protrudes from the upper end of the rear side of the housing 101, and the front side of the limiting plate 104 is adjacent to the ejector pin 103.

A rectangular guide groove 102 is provided, and a rectangular push rod 1021 is provided in the inside of the housing 101 by slidably mounting the push rod 1021 through the guide groove 102, and can be pushed out from the inside of the housing 101 after the storage member 301 is out of the limit; by arranging the inverted T-shaped ejector rod 103, the upper end of the ejector rod 103 can push the telescopic block 2021 back into the inner groove 202 by moving the ejector rod 103, and the telescopic block 2021 can lose the limit of the storage piece 301; the rectangular limiting plate 104 is arranged, and the limiting plate 104 is inserted into the slot 2012 to limit the top plate 201, so that the top plate 201 is prevented from overturning at the top of the shell 101.

In the disclosed embodiment, as shown in fig. 8-9, the flipping assembly 2 comprises: a top plate 201, a telescopic plate 2011, and a slot 2012; a rectangular groove is formed in the inner end of the top plate 201; the expansion plates 2011 are slidably arranged at two ends of the bottom of the rear side of the top plate 201, and the expansion plates 2011 support the buffer foam in the top plate 201; the slot 2012 is arranged at the middle position of the bottom of the rear side of the top plate 201; providing a rectangular top plate 201, sealing the upper end of the storage 301 by mounting the top plate 201 to the top of the housing 101; the L-shaped expansion plate 2011 is arranged, so that the bottom of the expansion plate 2011 can support the buffer foam in the top plate 201, and the buffer foam is fixed in the top plate 201; a rectangular slot 2012 is provided, and the top plate 201 can be fixed at the upper end of the housing 101 by engaging the slot 2012 with the limiting plate 104; an inner tank 202 and a telescopic block 2021; the inner groove 202 is formed at the middle position of the rear bottom of the top plate 201; the expansion block 2021 is slidably mounted in the inner tank 202 by an elastic member, and the expansion block 2021 can protrude from the bottom side of the inner tank 202; a rectangular inner groove 202 is provided, and a telescopic block 2021 is slidably mounted to the rear inner end of the top plate 201 through the inner groove 202; the wedge-shaped expansion block 2021 is provided, and after the storage member 301 is inserted into the housing 101, the expansion block 2021 is automatically engaged with the engagement groove 3011, so that the storage member 301 is fixed in the housing 101.

As embodiment 3 of the present application, on the basis of embodiment one, as shown in fig. 7, the drawing assembly 3 includes: a storage 301 and an engagement groove 3011; a rectangular groove is formed in the storage part 301; the clamping groove 3011 is formed at the outer end of the rear side of the storage piece 301, and the clamping groove 3011 is of a T-shaped structure; bottom slot 302 and interface 3021; the bottom groove 302 is formed on the inner bottom side of the storage member 301, a screw is rotatably installed inside the bottom groove 302, and flowing liquid is contained inside the bottom groove 302; the interfaces 3021 are equidistantly arranged at the upper end of the bottom groove 302, the interfaces 3021 are communicated with the rectangular groove in the storage piece 301, and external threads are arranged on the outer side of the upper end of the interfaces 3021; a push plate 303 and an external member 304; the push plate 303 is movably installed inside the bottom groove 302, the push plate 303 is positioned at the lower end of the flowing liquid, and the push plate 303 is in threaded connection with the screw rod in the bottom groove 302; the external connection piece 304 is equidistantly and annularly arranged in a rectangular groove in the storage piece 301, a guide pipe on the bottom side of the external connection piece 304 is in threaded connection with the interface 3021, and the external connection piece 304 is communicated with the bottom groove 302.

A rectangular storage member 301 is provided, and the monitoring instrument can be stored into the interior of the housing 101 through the storage member 301; a T-shaped engagement groove 3011 is provided, and the storage material 301 can be fixed inside the casing 101 by engaging the engagement groove 3011 with the expansion block 2021; a rectangular bottom tank 302 is arranged, and flowing liquid can be filled in the bottom tank 302; an interface 3021 is provided to enable the external connector 304 to communicate with the bottom slot 302 via the interface 3021; a rectangular push plate 303 is arranged, and liquid in the bottom groove 302 can be pushed into the external connecting piece 304 by moving the push plate 303; the flexible external connecting piece 304 is arranged, so that the external connecting piece 304 can be expanded after liquid enters the external connecting piece 304, and a buffer effect can be achieved on a monitoring instrument.

As embodiment 4 of the present application, on the basis of embodiment one, as shown in fig. 2 and 3, the bottom assembly 4 includes: a support plate 401 and a limit groove 4011; four groups of cylindrical structures are arranged on the bottom side of the supporting plate 401; the limit groove 4011 is formed in the bottom of the four groups of cylindrical structures at the lower end of the support plate 401, the top of the limit groove 4011 penetrates through the support plate 401 through a circular through groove through hole, and threads are arranged in the circular through groove; a support bar 402 and a bar 4021; the support rods 402 are arranged in a circular through groove at the upper end of the limit groove 4011 through threads, the support rods 402 penetrate through the limit groove 4011, the support rods 402 can extend out of the top of the support plate 401, and circular insertion holes are formed in the middle positions of the two groups of support rods 402 at the rear side; the stop lever 4021 is inserted into circular insertion holes in the two sets of support rods 402 at the rear side.

A rectangular support plate 401 is provided to support the housing 101; a circular limit groove 4011 is arranged to limit the movement of the stop lever 4021 in the support plate 401; a support rod 402 with threads is arranged, and the support plate 401 can be supported by the support rod 402; a cylindrical stop lever 4021 is provided to limit the movement of the support bar 402 on the support plate 401.

Specific use and action of the embodiment:

In the invention, as shown in fig. 1-9, buffer foam is mounted in a top plate 201, then a telescopic plate 2011 is slid to enable the telescopic plate 2011 to hold the bottom of the buffer foam, then the top plate 201 is buckled to the top of a shell 101, a limit plate 104 is extended out of the rear side of the shell 101 and inserted into a slot 2012 at the rear end of the top plate 201, the top plate 201 is fixed on the shell 101, a monitoring instrument is placed in a storage piece 301 provided with an external piece 304, the monitoring equipment is positioned on the buffer foam in the storage piece 301, after the placement, a screw is rotated to enable a push plate 303 to push liquid from an interface 3021 to the external piece 304 and fill a gap between the monitoring instrument and the interior of the storage piece 301, after the device is fixed to the monitoring instrument, the storage piece 301 is inserted into the shell 101, so that the storage piece 301 is buckled with a buckling groove 3011 at the rear end of the storage piece 301, and a telescopic block 2021 on the top plate 201 are buckled, in this way, the telescopic block 2021 can lock the storage piece 301 in the interior of the shell 101, a bottom component 4 for supporting is arranged at the bottom of the shell 101, when a worker wants to take out the monitoring instrument 103 from the interior of the shell 101, the support plate 402 is required to be taken out of the support rod 103, the support rod 402 is rotated to the support rod 402 and then the support rod 402 is extended back to the inside the shell 101 from the side of the shell 101, and the support rod 402 is extended out of the support rod 101, and the support rod 402 is extended up from the inside the shell 101, and the end of the support rod is pushed up by the support rod 101, and the device is pushed into the inside the communication rod 101, and the device is pushed into the inside by the groove, and the device is pushed by the jack 1, and can be pushed into the inside of the supporting rod 101, and can pass through the inside of the device is pushed and has been pushed and passed through the inside.

In this context, the following points need to be noted:

1. The drawings of the embodiments of the present disclosure relate only to the structures related to the embodiments of the present disclosure, and reference may be made to the general design for other structures.

2. The embodiments of the present disclosure and features of the embodiments may be combined with each other to arrive at new embodiments without conflict.

The foregoing is merely a specific embodiment of the disclosure, but the protection scope of the disclosure is not limited thereto, and any person skilled in the art can easily think about changes or substitutions within the technical scope of the disclosure, and it should be covered in the protection scope of the disclosure. Therefore, the protection scope of the present disclosure shall be subject to the protection scope of the claims.

Claims

1. A monitoring instrument storage device with a protective structure, comprising: a protective assembly (1); the protection assembly (1) comprises a shell (101) and a communication hole (1011), wherein the interior of the shell (101) is of a hollow structure; the communication holes (1011) are symmetrically formed at two ends of the bottom of the rear side of the shell (101); the protective device is characterized in that a turnover assembly (2) is arranged on the protective assembly (1), a top plate (201) of the turnover assembly (2) is hinged to the upper end of the inside of the shell (101), a slot (2012) in the top plate (201) is in plug-in fit with the top end of a limiting plate (104) in the inside of the shell (101), and a telescopic block (2021) in the top plate (201) is adjacent to a top rod (103) in the inside of the shell (101); the protection assembly (1) is provided with a drawing assembly (3), a storage piece (301) of the drawing assembly (3) is inserted into the shell (101), the storage piece (301) is positioned at the lower end of the top plate (201), the rear side of the storage piece (301) is propped against a push rod (1021) in the shell (101), and a clamping groove (3011) outside the storage piece (301) is matched with the telescopic block (2021) in an inserted manner; the protection assembly (1) is provided with a bottom assembly (4), a supporting plate (401) of the bottom assembly (4) is fixedly arranged at the bottom of the shell (101), and a limit groove (4011) at the rear side of the supporting plate (401) is communicated with the communication hole (1011).

2. A monitoring instrument storage device with a protective structure according to claim 1, wherein: the protective assembly (1) comprises: a guide groove (102) and a push rod (1021); the guide grooves (102) are symmetrically formed on two sides of the shell (101); the push rod (1021) is arranged in the shell (101), and two ends of the push rod (1021) are in sliding fit with the guide grooves (102).

3. A monitoring instrument storage device with a protective structure according to claim 2, wherein: the protective assembly (1) comprises: a push rod (103) and a limiting plate (104); the ejector rods (103) are arranged at the rear side of the inside of the shell (101) in a sliding fit mode, and the bottoms of the two sides of the ejector rods (103) are adjacent to the communication holes (1011); the limiting plate (104) is mounted on the rear side of the inside of the shell (101) in a sliding fit mode, the top of the limiting plate (104) extends out of the upper end of the rear side of the shell (101), and the front side of the limiting plate (104) is adjacent to the ejector rod (103).

4. A monitoring instrument storage device with a protective structure according to claim 1, wherein: the flipping assembly (2) comprises: a top plate (201), a telescopic plate (2011) and a slot (2012); a rectangular groove is formed in the inner end of the top plate (201); the expansion plates (2011) are slidably arranged at two ends of the bottom of the rear side of the top plate (201), and the expansion plates (2011) support the buffer foam in the top plate (201); the slot (2012) is arranged at the middle position of the bottom of the rear side of the top plate (201).

5. The monitoring instrument storage device with protective structure of claim 4, wherein: the flipping assembly (2) comprises: an inner groove (202) and a telescopic block (2021); the inner groove (202) is formed in the middle of the bottom of the rear side of the top plate (201); the telescopic block (2021) is slidably mounted in the inner groove (202) by an elastic member, and the telescopic block (2021) can protrude from the bottom side of the inner groove (202).

6. A monitoring instrument storage device with a protective structure according to claim 1, wherein: the drawing assembly (3) comprises: a storage member (301) and an engagement groove (3011); a rectangular groove is formed in the storage piece (301); the clamping groove (3011) is formed in the outer end of the rear side of the storage piece (301), and the clamping groove (3011) is of a T-shaped structure.

7. The monitoring instrument storage device with protective structure of claim 6, wherein: the drawing assembly (3) comprises: a bottom groove (302) and an interface (3021); the bottom groove (302) is formed in the inner bottom side of the storage piece (301), a screw is rotatably arranged in the bottom groove (302), and flowing liquid is filled in the bottom groove (302); the interfaces (3021) are equidistantly arranged at the upper end of the bottom groove (302), the interfaces (3021) are communicated with the rectangular groove in the storage piece (301), and external threads are arranged on the outer side of the upper end of the interfaces (3021).

8. A monitoring instrument storage device with a protective structure according to claim 7, wherein: the drawing assembly (3) comprises: a push plate (303) and an external member (304); the pushing plate (303) is movably arranged in the bottom groove (302), the pushing plate (303) is positioned at the lower end of flowing liquid, and the pushing plate (303) is in threaded connection with a screw rod in the bottom groove (302); the external connecting piece (304) is equidistantly arranged in a rectangular groove in the storage piece (301) in an annular mode, a guide pipe at the bottom side of the external connecting piece (304) is in threaded connection with the connector (3021), and the external connecting piece (304) is communicated with the bottom groove (302).

9. A monitoring instrument storage device with a protective structure according to claim 1, wherein: the bottom assembly (4) comprises: a support plate (401) and a limit groove (4011); four groups of cylindrical structures are arranged on the bottom side of the supporting plate (401); the limiting groove (4011) is formed in the bottom of the four groups of cylindrical structures at the lower end of the supporting plate (401), the top of the limiting groove (4011) penetrates through the supporting plate (401) through a circular through groove through hole, and threads are arranged in the circular through groove.

10. A monitoring instrument storage device with a protective structure according to claim 9, wherein: the bottom assembly (4) comprises: a support bar (402) and a stop bar (4021); the support rods (402) are arranged in a circular through groove at the upper end of the limit groove (4011) through threads, the support rods (402) penetrate through the limit groove (4011), the support rods (402) can extend out of the top of the support plate (401), and circular insertion holes are formed in the middle positions of the two groups of support rods (402) at the rear side; the stop lever (4021) is inserted into circular insertion holes in the two groups of support rods (402) at the rear side.