CN110536571B - Non-contact data acquisition device for network cabinet and installation method thereof - Google Patents

Abstract

The invention discloses a network cabinet asset management technology. The invention discloses a non-contact data acquisition device for a network cabinet, which comprises a strip-shaped non-contact data acquisition strip, wherein the non-contact data acquisition strip comprises a flat square tube shell, an inner cavity of the square tube shell is used for installing a circuit board, and the non-contact data acquisition device also comprises a mounting structure of the non-contact data acquisition strip, wherein the mounting structure comprises an L-shaped positioning plate and a double-bending buckle plate which are arranged in a pairing manner, and the L-shaped positioning plate and the double-bending buckle plate form a structure for clamping the non-contact data acquisition strip. The device designs the non-contact data acquisition strip into a strip shape, and installs the circuit board with the square pipe shell of platykurtic, installs it along the vertical direction laminating of cabinet wall, is suitable for the intrinsic space between most network rack installation mounting panel and the rack door, realizes installing the coplanar in all network racks, guarantees data acquisition's accuracy, carries out effectual asset management to the network rack.

Description

Non-contact data acquisition device for network cabinet and installation method thereof

Technical Field

The invention relates to a network cabinet asset management technology, in particular to a non-contact data acquisition device for a network cabinet and an installation method thereof.

Background

Network cabinets are a product of the development of computers and the internet, and are mainly used for installing various servers and switches and hubs. With the development of the internet and the general advancement of paperless offices, when the number of various devices is increased to thousands of scales, effective management of the installation location of the devices becomes very difficult. The network cabinets have various specifications such as 36, 42, 45, 47 and 54Unit (U-bit), so the asset management device also needs to precisely locate the installation location of the device to a specific U-bit.

In order to improve the management efficiency of the network cabinet on the equipment, in recent years, a plurality of equipment aiming at asset management of the network cabinet are presented, and the equipment is mainly used for determining which cabinet or even which U-position a certain equipment is in so as to achieve the purpose of effective asset management, and the used asset management equipment is called a data acquisition terminal.

The data acquisition of the data acquisition terminal is of a contact type and a non-contact type, and the prior art basically solves the process of accurately reading the data no matter the contact type or the non-contact type. As shown in fig. 1, a plurality of servers 2 are sequentially arranged in a cabinet 1 from bottom to top, and are provided with vertically extending mounting support plates 3, so that only a narrow space between the mounting support plates 3, the cabinet wall 4 and the cabinet door is left for the mounting space of the data acquisition terminal, and the up-and-down channel of the servers cannot be influenced, thus the mounting space of the data acquisition terminal is limited.

In addition, as different types of cabinets possibly appear in the whole set of cabinets in actual use, the installation positions of the data acquisition terminals in part of the cabinets are different, so that accurate reading of data is affected, even if part of the cabinets are not provided with the data acquisition terminals at all, all network cabinets cannot be covered, and the effect of asset management cannot be achieved, therefore, the unified position of the data acquisition terminals in the cabinets is determined, and the method is also a key for guaranteeing the data reading quality.

Therefore, a data acquisition terminal capable of being used for most standard network cabinets is urgently needed, the installation positions and the operation modes are basically the same, and the up-down equipment in the cabinets is not influenced, so that the full coverage of all network cabinets is ensured, the accuracy of data acquisition is ensured, and the comprehensive and effective asset management of the network cabinets is realized.

Disclosure of Invention

The invention aims to solve the technical problems that the prior data acquisition terminal cannot be installed in all network cabinets or at specific positions of the network cabinets, the accuracy of data acquisition cannot be ensured, and the asset management cannot be comprehensively and effectively carried out on the network cabinets, and provides a non-contact data acquisition device for the network cabinets and an installation method thereof, the device designs the non-contact data acquisition strip into a strip shape, and installs the circuit board with the square pipe shell of platykurtic, installs it along the vertical direction laminating of cabinet wall, is suitable for the intrinsic space between most network rack installation mounting panel and the rack door, realizes installing the coplanar in all network racks, guarantees data acquisition's accuracy, carries out effectual asset management to the network rack.

In order to achieve the above object, the present invention provides the following technical solutions:

The utility model provides a network rack is with non-contact data collection system, includes the non-contact data collection strip of rectangular shape, non-contact data collection strip includes the square tube shell of platykurtic, the inner chamber of square tube shell is used for installing the circuit board, still includes the mounting structure of non-contact data collection strip, including L type locating plate and the double bending buckle that pair set up, L type locating plate and double bending buckle form the structure to non-contact data collection strip centre gripping, and all are equipped with the connecting hole that is used for the location installation on L type locating plate and the double bending buckle.

The non-contact type data acquisition device for the network cabinet is characterized in that the non-contact type data acquisition strip is designed into a long strip shape, and the flat square tube shell is used for installing the circuit board, so that the non-contact type data acquisition strip can be suitable for a narrow space between the installation support plate and the cabinet door, and can be attached and installed along the vertical direction of the cabinet wall according to the whole thickness of the square tube shell required to be used, the non-contact type data acquisition device is suitable for the inherent space between most network cabinet installation support plates and the cabinet door, the purpose that the data acquisition terminal is installed at the same position in all network cabinets is realized, the accuracy of data acquisition is ensured, and the network cabinets are subjected to effective asset management.

The circuit board in the non-contact data acquisition strip is made by adopting the international communication specification of a non-contact IC card or a non-contact ID card, and the corresponding supported labels comprise a 13.56MHz high-frequency label and a 100K-150KHz low-frequency label, and protocols supported by the 13.56MHz high-frequency label are as follows: ISO14443A, ISO14443B, IS014443C, NFC and ISO15693, 100K-150KHz low frequency tags and the following support protocols such as: ISO FDX-B, FDX-A, ISO11784 and ISO11785, the network cabinet uses a non-contact data acquisition device to take a low frequency or high frequency tag supporting the above protocol as a readable ID.

Preferably, the flat thickness of the square tube shell is less than 8mm. A large number of engineering practices prove that most network cabinets are provided with at least 8mm of empty space on the cabinet wall between the mounting support plate and the cabinet door, and when the thickness of the non-contact data acquisition strip is less than 8mm, the ascending and descending of the equipment are not affected.

Preferably, the two sides of the L-shaped positioning plate are respectively provided with a mounting edge and a limiting edge, the double-bending buckle plate comprises a positioning edge and a buckling edge which are connected into a whole, positioning mounting holes are formed in the mounting edge and the positioning edge, and the mounting bracket plate is correspondingly provided with a connecting mounting hole and is matched with a connecting piece.

The installation structure corresponds to a narrow data acquisition terminal installation space in the cabinet, the L-shaped locating plate and the double-bending buckle plate are specially designed to clamp the non-contact data acquisition terminal strip, and the installation holes are formed in the installation edge strip, the locating edge strip and the lower locating support plate, the fixed installation of the installation support plate is realized through the connecting piece, the L-shaped structural design is suitable for an included angle structure of the installation support plate and the cabinet wall, the problem of stable installation of the data acquisition terminal in the network cabinet is solved, and then the accurate reading of asset management data of the network cabinet is guaranteed.

Preferably, the buckling and bending groove for buckling and pressing the non-contact data acquisition strip is formed in the buckling and bending edge strip, and the buckling and bending groove and the limiting edge strip form a limiting structure for clamping the non-contact data acquisition strip. The buckling and bending grooves are formed in the buckling and bending edge strips, and the whole double-bending buckle plate forms a 2-shaped structure.

Preferably, the installation structure further comprises a lower positioning supporting plate for jacking the non-contact data acquisition strip, the lower positioning supporting plate is of an L-shaped structure, the installation structure comprises a locking side plate and a supporting side plate, the locking side plate is vertically connected with the supporting side plate, a locking hole is formed in the locking side plate, and a supporting table is arranged on the supporting side plate. The lower positioning supporting plate is arranged to lift and position the whole non-contact data acquisition strip, and the position of the non-contact data acquisition strip can be locked firstly according to the position of the server during installation, so that the label support and the label are positioned.

Preferably, the upper end and the lower end of the square tube shell are respectively provided with an upper plug plate and a lower reinforcing plug, and a supporting buckle is arranged corresponding to the lower reinforcing plug, and the supporting buckle is made of elastic materials. The upper end and the lower end of the square tube shell are respectively provided with an upper plug plate and a lower reinforcing plug, the circuit board arranged in the square tube shell is protected, and the lower reinforcing plug is also provided with a supporting buckle made of elastic materials, so that a certain buffer force is generated when the lower positioning support plate is used for supporting the non-contact data acquisition strip, and the damage to the data acquisition strip caused by strong force is avoided.

Preferably, the label support comprises a square plate-shaped support body, one end of the support body is used for accommodating labels, the other end of the support body is connected with the top of the server, a plurality of longitudinal mounting holes and a plurality of transverse mounting holes are respectively formed in the support body at the side of accommodating the labels, and a positioning flange is further arranged on the side edge, in contact with the mounting support plate, of the support body.

The label support sets up one end and is used for settling the label, the other end and the support body of server top overlap joint, and set up the location flange at the side of support body and installation mounting panel contact, with the horizontal location of label support, and a plurality of vertical mounting holes and the horizontal mounting hole that set up on the support body of settling label side, be adapted to not unidimensional data acquisition terminal and different grade network rack installation mounting panel size, so that the mounted position of fine setting label, make this label support with label and corresponding server one-to-one, and can laminate the installation with data acquisition terminal, make things convenient for label and data acquisition terminal intercommunication, realize high-efficient data reading, reach high-quality asset management effect.

Preferably, the positioning flange is a notch formed in one corner of the bracket body, so that the positioning flange can extend into the inner wall side of the mounting bracket plate during mounting. A notch is formed in one corner of the square support body, a positioning flange is formed, and the positioning flange extending into the inner wall side of the mounting support plate can limit the horizontal displacement of the whole label support structure.

Preferably, a plurality of longitudinal detachable cuts Kong Xiancao are provided on the bracket body adjacent the locating rib. The longitudinal detachable cutting Kong Xiancao is arranged on the bracket body corresponding to the positioning flange, the positioning position can be selected according to the specific size of the server and the mounting bracket plate in the actual mounting process, and the width of the positioning flange can be selected by twisting part of the bracket body through manpower after the positioning position is determined, so that the positioning requirement is met.

Preferably, the non-contact type tag comprises a connecting cover plate connected with the tag support body and a back baffle connected with the connecting cover plate, wherein the back baffle is perpendicular to the connecting cover plate and forms an L-shaped structure, and a signal side baffle is further arranged and is perpendicular to the back baffle, so that the connecting cover plate, the back baffle and the signal side baffle form a surrounding structure.

Preferably, a plurality of label supports and non-contact labels are arranged along the length direction of the non-contact data acquisition strip, and the positions of the label supports are corresponding to the positions of the servers.

The installation method of the non-contact data acquisition device for the network cabinet comprises the following steps when the non-contact data acquisition device for the network cabinet is installed in the network cabinet:

a. Manufacturing data acquisition strip accessories, and manufacturing parts according to the height of the network cabinet, wherein the parts comprise the length of square tube shells, the length and the number of circuit boards, and the number of non-contact labels and label supports;

b. Assembling a non-contact data acquisition strip on site, arranging a plurality of L-shaped positioning plates and double-bending buckle plates along the length direction of the non-contact data acquisition strip, firstly installing a lower positioning support plate, the L-shaped positioning plates and the double-bending buckle plates in place, wherein the double-bending buckle plates are not locked temporarily, placing the lower end of the non-contact data acquisition strip on the lower positioning support plate and matching with the L-shaped positioning plates, locking the double-bending buckle plate at the uppermost end of the non-contact data acquisition strip, further positioning the non-contact data acquisition strip in a preliminary step, and locking all the double-bending buckle plates after circuit debugging is successful;

The double-bending buckle plate is connected with the mounting support plate after the non-contact data acquisition strip is mounted, and finally the lower positioning support plate is connected with the mounting support plate;

c. the label bracket is installed, the size of a positioning flange of the bracket body is determined according to the actual size requirement, and redundant parts are folded by utilizing the detachable cutting hole trunking;

d. And installing a non-contact tag, and positioning and connecting the non-contact tag with a tag bracket through a connecting cover plate of the non-contact tag.

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

1. The device designs the non-contact data acquisition strip into a strip shape, and installs a circuit board by using a flat square tube shell, and the circuit board is attached and installed along the vertical direction of the cabinet wall, so that the device is suitable for the inherent space between most network cabinet installation support plates and cabinet doors, realizes the same position installed in all network cabinets, ensures the accuracy of data acquisition, and effectively manages the assets of the network cabinets;

2. Most network cabinets are provided with at least 8mm of empty space on the cabinet wall between the support plate and the cabinet door, and when the thickness of the non-contact data acquisition strip is less than 8mm, the ascending and descending of the equipment are not affected;

3. the installation structure corresponds to a narrow data acquisition terminal installation space in the cabinet, an L-shaped positioning plate and a double-bending buckle plate are specially designed to clamp the non-contact data acquisition terminal strip, positioning holes are formed in the installation edge strip, the upper positioning edge strip and the lower positioning support plate, fixed installation of the installation support plate is realized through connecting pieces, the installation support plate and the cabinet wall included angle structure is adapted through the L-shaped structural design, the problem that the data acquisition terminal is stably installed in the network cabinet is solved, and further accurate reading of asset management data of the network cabinet is guaranteed;

4. The lower positioning supporting plate is arranged to lift and position the whole non-contact data acquisition strip, and the position of the non-contact data acquisition strip can be locked firstly according to the position of the server during installation, so that the label bracket and the label are positioned;

5. The upper end and the lower end of the square tube shell are respectively provided with an upper plug plate and a lower reinforcing plug, so that the circuit board arranged in the square tube shell is protected, and a supporting buckle made of elastic materials is matched with the lower reinforcing plug, so that a certain buffer force is generated when the non-contact data acquisition strip is supported by the lower positioning supporting plate, and the damage to the data acquisition strip caused by strong force is avoided;

6. The label support sets up one end and is used for settling the support body of label, the other end and server top overlap joint to set up the location flange at the side of support body and installation mounting plate contact, with the horizontal location of label support, and can laminate the installation with data acquisition terminal, make things convenient for label and data acquisition terminal intercommunication, realize high-efficient data reading, reach high-quality asset management effect.

Drawings

FIG. 1 is a schematic diagram of an arrangement of servers within a prior art network enclosure.

Fig. 2 is a schematic structural diagram of a non-contact data acquisition device for a network cabinet according to the present invention.

Fig. 3 is a schematic combination diagram of a contactless data acquisition strip and its mounting structure in an embodiment.

Fig. 4 is a schematic diagram of a contactless data acquisition strip in an embodiment.

Fig. 5 is a schematic structural view of the double-bending buckle plate in fig. 3.

Fig. 6 is a schematic structural diagram of the non-contact tag in fig. 3.

Fig. 7 is a schematic diagram showing a combination of a label holder and a label in the embodiment.

Fig. 8 is a schematic view of the structure of the tag holder of fig. 7.

Fig. 9 is a schematic structural view of a lower positioning pallet in the embodiment.

Fig. 10 is a schematic structural view of a support buckle in an embodiment.

The marks in the figure: 1-cabinet, 2-server, 3-installation support plate, 4-cabinet wall, 5-non-contact data acquisition strip, 6-L locating plate, 7-double bending buckle, 701-locating installation hole, 702-locating edge strip, 703-buckling edge strip, 8-label support, 801-support body, 802-locating flange, 803-detachable cutting wire slot, 804-transverse installation hole, 805-longitudinal installation hole, 9-non-contact label, 901-connection cover plate, 902-back baffle, 903-signal side baffle, 10-lower locating support plate, 1001-locking edge plate, 1002-supporting edge plate, 1003-supporting saddle, 11-upper plug plate, 12-lower reinforcing plug, 13-supporting buckle, 1301-buckling clamping slot, 14-lower plug support block.

Detailed Description

The present invention will be described in further detail with reference to test examples and specific embodiments. It should not be construed that the scope of the above subject matter of the present invention is limited to the following embodiments, and all techniques realized based on the present invention are within the scope of the present invention.

Example 1

As shown in fig. 1 to 10, the non-contact data acquisition device for a network cabinet of the embodiment comprises a non-contact data acquisition strip 5 in a long strip shape, the non-contact data acquisition strip 5 comprises a flat square tube shell, an inner cavity of the square tube shell is used for installing a circuit board, the non-contact data acquisition device further comprises a mounting structure of the non-contact data acquisition strip 5, the non-contact data acquisition device further comprises an L-shaped positioning plate 6 and a double-bending buckle plate 7 which are arranged in a paired mode, the L-shaped positioning plate 6 and the double-bending buckle plate 7 form a structure for clamping the non-contact data acquisition strip 5, and connecting holes for positioning and mounting are formed in the L-shaped positioning plate 6 and the double-bending buckle plate 7.

The non-contact data acquisition device for the network cabinet designs the non-contact data acquisition strip into a long strip shape, and installs a circuit board by using a flat square tube shell, so that the non-contact data acquisition strip can be suitable for a narrow space between an installation support plate and a cabinet door, and can be attached and installed along the vertical direction of the cabinet wall according to the whole thickness of the square tube shell required by use, thus being suitable for the inherent space between most network cabinet installation support plates and cabinet doors, realizing the goal of installing a data acquisition terminal at the same position in all network cabinets, ensuring the accuracy of data acquisition, and carrying out effective asset management on the network cabinets.

The circuit board in the non-contact data acquisition strip is made by adopting the international communication specification of a non-contact IC card or a non-contact ID card, and the corresponding supported labels comprise a 13.56MHz high-frequency label and a 100K-150KHz low-frequency label, and protocols supported by the 13.56MHz high-frequency label are as follows: ISO14443A, ISO14443B, IS014443C, NFC and ISO15693, 100K-150KHz low frequency tags and the following support protocols such as: ISO FDX-B, FDX-A, ISO11784 and ISO11785, the network cabinet uses a non-contact data acquisition device to take a low frequency or high frequency tag supporting the above protocol as a readable ID.

Example 2

As shown in fig. 1 to 10, according to the non-contact data acquisition device for a network cabinet of embodiment 1, the flat thickness of the square tube shell of this embodiment is less than 8mm. A large number of engineering practices prove that most network cabinets are provided with at least 8mm of empty space on the cabinet wall between the mounting support plate and the cabinet door, and when the thickness of the non-contact data acquisition strip is less than 8mm, the ascending and descending of the equipment are not affected.

Example 3

As shown in fig. 1 to 10, according to the non-contact data acquisition device for a network cabinet in embodiment 1 or embodiment 2, two sides of the L-shaped positioning plate 6 in this embodiment are respectively a mounting edge and a limiting edge, the double-bending buckle 7 includes a positioning edge 702 and a buckling edge 703 which are connected into a whole, positioning mounting holes 701 are respectively provided on the mounting edge and the positioning edge 702, and connecting mounting holes are correspondingly provided on the mounting bracket plate 3 and are matched with connecting pieces.

The mounting structure of this embodiment corresponds to the narrow and small data acquisition terminal installation space in the rack, and special design L type locating plate and double bending buckle come to carry out the centre gripping to non-contact data acquisition terminal strip, and all set for the position mounting hole on installation strake, location strake upper and lower location layer board, realize with the fixed mounting of installation mounting panel through the connecting piece to be adapted to the contained angle structure of installation mounting panel and cabinet wall through L shape structural design, solve the problem of stable installation data acquisition terminal in the network rack, and then guarantee the accurate reading of asset management data of network rack.

Further, the buckling and bending groove for buckling and bending the non-contact data acquisition strip 5 is formed in the buckling and bending edge 703, and the buckling and bending groove and the limiting edge form a limiting structure for clamping the non-contact data acquisition strip 5. The buckling and bending grooves are formed in the buckling and bending edge strips, and the whole double-bending buckle plate forms a 2-shaped structure.

Still further, the installation structure further comprises a lower positioning supporting plate 10 for jacking the non-contact data acquisition strip 5, the lower positioning supporting plate 10 is also of an L-shaped structure and comprises a locking side plate 1001 and a supporting side plate 1002, the locking side plate 1001 is vertically connected with the supporting side plate 1002, a locking hole is formed in the locking side plate 1001, and a supporting table 1003 is arranged on the supporting side plate 1002. The lower positioning supporting plate is arranged to lift and position the whole non-contact data acquisition strip, and the position of the non-contact data acquisition strip can be locked firstly according to the position of the server during installation, so that the label support and the label are positioned.

As shown in fig. 3 and fig. 10, the upper end and the lower end of the square tube shell are respectively provided with an upper plug plate 11 and a lower reinforcing plug 12, a supporting buckle 13 is further provided corresponding to the lower reinforcing plug 12, the supporting buckle 13 is made of elastic materials, a buckle clamping groove 1301 is formed in the supporting buckle 13, and a lower plug supporting block 14 matched with the buckle clamping groove 1301 is configured, so that the lower reinforcing plug 12 can be prevented from being supported to be in direct contact with the buckle clamping groove 1301. The upper end and the lower end of the square tube shell are respectively provided with an upper plug plate and a lower reinforcing plug, the circuit board arranged in the square tube shell is protected, and the lower reinforcing plug is also provided with a supporting buckle made of elastic materials, so that a certain buffer force is generated when the lower positioning support plate is used for supporting the non-contact data acquisition strip, and the damage to the data acquisition strip caused by strong force is avoided.

Example 4

As shown in fig. 1 to 10, the non-contact data acquisition device for a network cabinet according to one of embodiments 1 to 3 further includes a tag holder 8, where the tag holder 8 includes a square-plate-shaped holder body 801, one end of the holder body 801 is used for accommodating a tag, the other end is connected to the top of the server 2, a plurality of longitudinal mounting holes 805 and a plurality of transverse mounting holes 804 are respectively provided on the holder body 801 on the side where the tag is placed, and a positioning flange 802 is further provided on the side where the holder body 801 contacts the mounting bracket plate 3.

The label support sets up one end and is used for settling the label, the other end and the support body of server top overlap joint, and set up the location flange at the side of support body and installation mounting panel contact, with the horizontal location of label support, and a plurality of vertical mounting holes and the horizontal mounting hole that set up on the support body of settling label side, be adapted to not unidimensional data acquisition terminal and different grade network rack installation mounting panel size, so that the mounted position of fine setting label, make this label support with label and corresponding server one-to-one, and can laminate the installation with data acquisition terminal, make things convenient for label and data acquisition terminal intercommunication, realize high-efficient data reading, reach high-quality asset management effect.

Further, the positioning flange 802 is a notch formed at a corner of the bracket body 801, so that the positioning flange 802 can extend into the inner wall of the mounting bracket plate 3 during mounting. A notch is formed in one corner of the square support body, a positioning flange is formed, and the positioning flange extending into the inner wall side of the mounting support plate can limit the horizontal displacement of the whole label support structure.

Further, a plurality of longitudinal detachable cuts Kong Xiancao 803,803 are provided on the bracket body 801 adjacent to the positioning flange 802. The longitudinal detachable cutting Kong Xiancao is arranged on the bracket body corresponding to the positioning flange, the positioning position can be selected according to the specific size of the server and the mounting bracket plate in the actual mounting process, and the width of the positioning flange can be selected by twisting part of the bracket body through manpower after the positioning position is determined, so that the positioning requirement is met.

Example 5

As shown in fig. 1 to 10, the non-contact data acquisition device for a network cabinet according to embodiment 4 further includes a non-contact tag 9, where the non-contact tag 9 includes a connection cover plate 901 connected to the bracket body 801, and a back plate 902 connected to the connection cover plate 901, where the back plate 902 is perpendicular to the connection cover plate 901 and forms an L-shaped structure, and a signal side plate 903 is further provided, and the signal side plate 903 is perpendicular to the back plate 902, so that the connection cover plate 901, the back plate 902, and the signal side plate 903 form a surrounding structure, as shown in fig. 6.

Further, a plurality of label holders 8 and non-contact labels 9 are provided along the length direction of the non-contact data collection strip 5, and the positions of each label holder 8 are set corresponding to the positions of each server 2.

Example 6

The embodiment provides a method for installing a non-contact data acquisition device for a network cabinet, specifically, when the non-contact data acquisition device for a network cabinet described in embodiment 4 or embodiment 5 is installed in a network cabinet, the method includes the following steps:

a. Manufacturing data acquisition strip accessories, and manufacturing parts according to the height of the network cabinet, wherein the parts comprise the length of square tube shells, the length and the number of circuit boards, and the number of non-contact labels and label supports;

b. Assembling a non-contact data acquisition strip on site, arranging a plurality of L-shaped positioning plates and double-bending buckle plates along the length direction of the non-contact data acquisition strip, firstly installing a lower positioning support plate, the L-shaped positioning plates and the double-bending buckle plates in place, wherein the double-bending buckle plates are not locked temporarily, placing the lower end of the non-contact data acquisition strip on the lower positioning support plate and matching with the L-shaped positioning plates, locking the double-bending buckle plate at the uppermost end of the non-contact data acquisition strip, further positioning the non-contact data acquisition strip in a preliminary step, and locking all the double-bending buckle plates after circuit debugging is successful;

The double-bending buckle plate is connected with the mounting support plate after the non-contact data acquisition strip is mounted, and finally the lower positioning support plate is connected with the mounting support plate;

c. the label bracket is installed, the size of a positioning flange of the bracket body is determined according to the actual size requirement, and redundant parts are folded by utilizing the detachable cutting hole trunking;

d. And installing a non-contact tag, and positioning and connecting the non-contact tag with a tag bracket through a connecting cover plate of the non-contact tag.

Claims (9)

1. The utility model provides a network is non-contact data acquisition device for rack, its characterized in that, including the non-contact data acquisition strip of rectangular shape, the non-contact data acquisition strip includes flat square tube shell, square tube shell's inner chamber is used for installing the circuit board, still includes the mounting structure of non-contact data acquisition strip, including L type locating plate and the double bending buckle that pairs to set up, L type locating plate and double bending buckle form the structure to non-contact data acquisition strip centre gripping, and all are equipped with the connecting hole that is used for the location installation on L type locating plate and the double bending buckle, the both sides of L type locating plate are installation strake and spacing strake respectively, the double bending buckle is including even location strake and the withholding strake as an organic whole, all is equipped with the location mounting hole on installation strake and location strake to correspond on installation mounting bracket plate to join in marriage the connecting piece.

2. The contactless data acquisition device for a network cabinet of claim 1, wherein the square tube has a flat thickness of less than 8mm.

3. The non-contact data acquisition device for the network cabinet according to claim 2, wherein the buckling bending groove for buckling the non-contact data acquisition strip is formed in the buckling edge strip, and the buckling bending groove and the limiting edge strip form a limiting structure for clamping the non-contact data acquisition strip.

4. The non-contact data acquisition device for a network cabinet according to any one of claims 1 to 3, wherein the mounting structure further comprises a lower positioning supporting plate for jacking the non-contact data acquisition strip, the lower positioning supporting plate is also of an L-shaped structure and comprises a locking side plate and a supporting side plate, the locking side plate is vertically connected with the supporting side plate, a locking hole is formed in the locking side plate, and a supporting table is arranged on the supporting side plate.

5. The non-contact data acquisition device for a network cabinet according to claim 4, further comprising a label support, wherein the label support comprises a square support body, one end of the support body is used for accommodating a label, the other end of the support body is connected with the top of the server, a plurality of longitudinal mounting holes and a plurality of transverse mounting holes are respectively formed in the support body at the side where the label is arranged, and a positioning flange is further arranged at the side edge of the support body, which is in contact with the mounting support plate.

6. The non-contact data acquisition device for a network cabinet according to claim 5, wherein the positioning flange is a notch formed in a corner of the bracket body, so that the positioning flange can extend into an inner wall side of the mounting bracket plate during mounting.

7. The non-contact data collection device for a network cabinet of claim 6, wherein a plurality of longitudinal detachable cuts Kong Xiancao are provided on the bracket body adjacent to the positioning flange.

8. The non-contact data acquisition device for a network cabinet according to any one of claims 5 to 7, further comprising a non-contact tag, wherein the non-contact tag comprises a connection cover plate connected with the tag support body and a back baffle connected with the connection cover plate, the back baffle is perpendicular to the connection cover plate and forms an L-shaped structure, and a signal side baffle is further arranged and is perpendicularly connected with the back baffle, so that the connection cover plate, the back baffle and the signal side baffle form a surrounding structure.

9. A method for installing the noncontact data collection device for a network cabinet, characterized in that the noncontact data collection device for a network cabinet according to claim 8 is installed in a network cabinet, comprising the steps of:

a. manufacturing a data acquisition strip fitting, and manufacturing parts according to the height of the network cabinet;

b. assembling a non-contact data acquisition strip on site, arranging a plurality of L-shaped positioning plates and double-bending buckle plates along the length direction of the non-contact data acquisition strip, primarily positioning the non-contact data acquisition strip, and locking all the double-bending buckle plates after circuit debugging is successful;

c. the label bracket is installed, the size of a positioning flange of the bracket body is determined according to the actual size requirement, and redundant parts are folded by utilizing the detachable cutting hole trunking;

d. a contactless tag is installed.