CN106940910B

CN106940910B - Auxiliary system of integration secondary equipment cabin

Info

Publication number: CN106940910B
Application number: CN201710269038.2A
Authority: CN
Inventors: 陈克奎; 由伟翰; 吴伟银; 朱跃贴; 李芳芳; 周婕; 胡文霞; 曹云强; 潘勇; 林惠中; 朱学勇; 蒋毅
Original assignee: Wenzhou Electric Power Design Co Ltd
Current assignee: Wenzhou Electric Power Design Co Ltd
Priority date: 2017-04-21
Filing date: 2017-04-21
Publication date: 2022-11-01
Anticipated expiration: 2037-04-21
Also published as: CN106940910A

Abstract

The invention discloses an auxiliary system of an integrated secondary equipment cabin, which is arranged in a prefabricated cabin and comprises an access control system, wherein the access control system comprises an access control frame, an IC card identification unit and a fingerprint identification unit, wherein the access control frame is arranged in the IC card identification unit; the operation platform comprises a horizontal plane and a vertical plane perpendicular to the horizontal plane, the vertical plane is positioned on the left side of the horizontal plane, the IC card identification unit is arranged in the operation platform and positioned below the horizontal plane, and the fingerprint identification unit is arranged in the operation platform and positioned on the right side of the vertical plane; when the right hand-held entrance guard IC card of the user is arranged on the horizontal plane, the thumb of the user can naturally droop along the vertical plane and is positioned on the left side of the fingerprint identification unit.

Description

Auxiliary system of integration secondary equipment cabin

Technical Field

The invention relates to an electric power system, in particular to an auxiliary system of an integrated secondary equipment cabin.

Background

Power system state information plays an important role in the operation and analysis of power systems. In fact, the status information may be used for a number of purposes including system security and incident analysis, system optimization, and even power market creation and operation.

At present, to preventing entrance guard's maloperation, what each electric power system generally adopted is to punch the entrance guard IC card, and a problem that exists like this is that, the condition of taking the wrong card each other exists between the operating personnel, leads to later hatch door to be opened by non-appointed personnel, brings some uncertain factors.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an auxiliary system of an integrated secondary equipment cabin, which can enable a user to unlock in two aspects in one operation and avoid the situation that the cabin door is opened by non-designated personnel.

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

an auxiliary system of an integrated secondary equipment cabin is arranged in a prefabricated cabin and comprises an access control system, wherein the access control system comprises an access control frame, an IC card identification unit and a fingerprint identification unit, wherein the access control frame is arranged in the IC card identification unit;

the forbidding operation frame comprises an operation table, the operation table comprises a horizontal plane and a vertical plane perpendicular to the horizontal plane, the vertical plane is positioned on the left side of the horizontal plane, the IC card identification unit is arranged in the operation table and positioned below the horizontal plane, and the fingerprint identification unit is arranged in the operation table and positioned on the right side of the vertical plane;

when the right hand-held entrance guard IC card of the user is arranged on the horizontal plane, the thumb of the user can naturally droop along the vertical plane and is positioned on the left side of the fingerprint identification unit.

As an implementation manner, the operation platform further comprises an accommodating cavity, and the operation platform is arranged in the accommodating cavity and located at a cavity opening of the accommodating cavity;

the cavity opening of the accommodating cavity is also provided with a movable piece which can move back and forth towards the inner side and the outer side of the accommodating cavity relative to the operating platform, and the movable piece is positioned above the operating platform and is fixed on the cavity opening of the accommodating cavity in a pivot connection mode;

the movable piece is pressed close to when making a round trip to move about the first lateral margin of vertical face with press close to when making a round trip to move about the second lateral margin of horizontal plane.

In one embodiment, the first side edge and the second side edge are both magnetic side edges.

As an implementation manner, two opposite first pivoting lugs and two opposite second pivoting lugs are arranged on the forbidding operation frame, and the first pivoting lugs and the second pivoting lugs are positioned above the operation table;

the movable piece is connected with the first pivot lug and the second pivot lug through a pivot shaft, and the movable piece rotates around the pivot shaft and can move back and forth towards the inner side and the outer side of the accommodating cavity relative to the operating platform.

As an implementation manner, one side of the first pivot joint lug and one side of the second pivot joint lug, which are close to the pivot shaft, are respectively provided with a positioning boss, the positioning bosses are cylindrical, and the periphery of the surface of each positioning boss is provided with a plurality of positioning grooves in a circumferential array, and the plurality of positioning grooves are arranged on the surface facing the pivot shaft;

the movable piece is connected with the pivoting shaft in a sliding manner and can slide along the length direction of the pivoting shaft; the movable piece can be clamped into the positioning grooves when sliding to the end part of one side of the pivot shaft, and the movable piece is locked in different states when being clamped into different positioning grooves.

As an implementation manner, the plurality of positioning grooves include two upper and lower positions in a vertical direction and two front and rear positions in a horizontal direction.

As an implementation mode, the prefabricated cabin comprises a plurality of unit cells, and the inside of any unit cell is provided with the operation frame for unlocking;

one part of the plurality of unit cells is arranged along the vertical direction, the other part of the plurality of unit cells is arranged along the horizontal direction, and the two parts form an L-shaped heat dissipation channel;

a reticular protective layer is arranged between two adjacent unit grids.

As an implementation mode, the prefabricated cabin further comprises an electrostatic floor layer positioned at the bottom, wherein the bottom of the electrostatic floor layer is provided with a foot rest, and the surface of the electrostatic floor layer is provided with a vent hole; the heat dissipation channel is located above the electrostatic floor layer.

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

the invention provides an auxiliary system of an integrated secondary equipment cabin, which can enable a user to unlock in two aspects in one operation. Thereby avoiding the situation that the hatch door is opened by non-appointed persons.

Drawings

FIG. 1 is a perspective view of a prefabricated bay of an auxiliary system of an integrated secondary equipment bay provided by the present invention;

FIG. 2 is a perspective view of an access frame in the prefabricated room provided in FIG. 1;

fig. 3 is another perspective view of the access frame in the prefabricated cabin provided in fig. 1.

In the figure: 1. an operation frame is forbidden; 2. a cell; 3. a mesh-shaped protective layer; 4. an electrostatic floor layer; 41. a vent hole; 11. an operation table; 12. a horizontal plane; 13. a vertical plane; 14. an IC card identification unit; 15. a fingerprint recognition unit; 16. an accommodating cavity; 17. a movable member; 171. a first side edge; 172. a second lateral edge; 18. a first pivot lug; 19. a second pivot lug; 20. a pivot shaft; 10. positioning the boss; 101. and (6) positioning a groove.

Detailed Description

The above and further features and advantages of the present invention will become apparent from the following detailed description, taken in conjunction with the accompanying drawings, wherein it is to be understood that the described embodiments are merely illustrative of some, and not restrictive, of the invention.

Referring to fig. 1, the invention provides an auxiliary system of an integrated secondary equipment cabin, which is arranged in a prefabricated cabin, wherein the prefabricated cabin comprises a plurality of unit cells 2, and an unlocking operation frame 1 is arranged in any unit cell 2. Each cell 2 can be independently opened and operated by the release operation frame 1. The user can open the cell 2 by means of the IC card and the fingerprint. The figure shows 5 rows and 2 columns of unit cells 2, wherein 5 unit cells 2 are arranged along the vertical direction, 2 unit cells 2 are arranged along the horizontal direction, and 5

unit cells

2 and 2 unit cells 2 form an L-shaped heat dissipation channel. Through the L-shaped heat dissipation channel, a circulating heat dissipation channel can be formed in the prefabricated cabin, and heat dissipation of each unit cell 2 is facilitated. In addition, a mesh-shaped protective layer 3 is arranged between two adjacent unit cells 2. The plurality of unit cells 2 may be isolated for protection. In addition, the prefabricated cabin also comprises an electrostatic floor layer 4 positioned at the bottom, the bottom of the electrostatic floor layer 4 is provided with a foot rest, and the surface of the electrostatic floor layer is provided with a vent hole 41; the heat dissipation channel is located above the electrostatic floor layer 4. In fact, the air intake from the ventilation holes 41 brings circulating air flow to the prefabricated cabin, and is also a way of ventilating and radiating. The foot rest can be heightened by the bottom of the prefabricated cabin, and the heat dissipation performance of the prefabricated cabin is improved. The electrostatic floor layer 4 of the prefabricated cabin can resist static electricity.

The invention provides an auxiliary system of an integrated secondary equipment cabin, which comprises an access control system, wherein the access control system comprises an access control frame 1, an IC card identification unit 14 and a fingerprint identification unit 15, wherein the access control frame is arranged in the IC card identification unit; the disablement handling frame 1 is shown in fig. 2 and comprises a handling platform 11, wherein the handling platform 11 comprises a horizontal surface 12 and a vertical surface 13 perpendicular to the horizontal surface 12, the vertical surface 13 is positioned on the left side of the horizontal surface 12, an IC card identification unit 14 is arranged in the handling platform 11 and is positioned below the horizontal surface 12, and a fingerprint identification unit 15 is arranged in the handling platform 11 and is positioned on the right side of the vertical surface 13; the user can unlock in two ways in one operation by arranging the IC card identification unit 14 and the fingerprint identification unit 15 at a specific position, so that when the right hand held entrance guard IC card of the user is placed on the horizontal plane 12, the thumb of the right hand held entrance guard IC card can naturally droop along the vertical plane 13 and is positioned on the left side of the fingerprint identification unit 15. Thereby avoiding the situation that the hatch door is opened by unspecified persons.

Referring to fig. 3, the operation rack 1 further includes an accommodating cavity 16, and the operation platform 11 is disposed in the accommodating cavity 16 and located at a cavity opening of the accommodating cavity 16; the opening of the accommodating cavity 16 is also provided with a movable piece 17 which can move back and forth towards the inner side and the outer side of the accommodating cavity 16 relative to the operating platform 11, and the movable piece 17 is positioned above the operating platform 11 and is fixed on the opening of the accommodating cavity 16 in a pivot connection manner; movable member 17 includes a first side edge 171 that is proximate to vertical surface 13 when moving back and forth and a second side edge 172 that is proximate to horizontal surface 12 when moving back and forth. In use, each cell 2 has a receiving cavity 16 therein to isolate the console 11 from other components in the prefabricated cabin, and the corresponding cell 2 can be opened through the console 11. The movable member 17 can clean the vertical surface 13 and the horizontal surface 12 of the operation table 11 when moving back and forth to the inside and outside of the accommodating chamber 16 relative to the operation table 11.

In another embodiment, the first side edge 171 and the second side edge 172 are both magnetic side edges. In use, first side edge 171 and second side edge 172 abut vertical surface 13 and horizontal surface 12, respectively, as moveable member 17 moves back and forth. Therefore, some metal impurities on the vertical surface 13 and the horizontal surface 12 may be adsorbed. The instability of the magnetic induction signals of the IC card recognition unit 14 and the fingerprint recognition unit 15 can be avoided. Since the IC card recognition unit 14 and the fingerprint recognition unit 15 operate by magnetic induction, metal impurities are stuck to the vertical surface 13 and the horizontal surface 12, which affects the sensitivity of the magnetic induction.

In another embodiment, the disablement operating frame 1 is provided with two opposite first pivot lugs 18 and second pivot lugs 19, and the first pivot lugs 18 and the second pivot lugs 19 are located above the operating platform 11; the movable member 17 is connected to the first pivot lug 18 and the second pivot lug 19 by a pivot shaft 20, and the movable member 17 can move back and forth to the inside and outside of the accommodating chamber 16 relative to the console 11 when rotating around the pivot shaft 20. Here, a connection of the movable member 17 to the disengageable operating frame 1 is provided, but of course, it could be implemented in other equivalent ways.

In another embodiment, a positioning boss 10 is respectively disposed on one side of the first pivot lug 18 and the second pivot lug 19 close to the pivot shaft 20, the positioning boss 10 is cylindrical, and a plurality of positioning grooves 101 in a circumferential array are disposed on the circumferential edge of the surface of the positioning boss 10, and the plurality of positioning grooves 101 are disposed on the surface facing the pivot shaft 20; the movable piece 17 is slidably connected with the pivot shaft 20 and can slide along the length direction of the pivot shaft 20; when the movable element 17 slides to one side end of the pivot shaft 20, it can be locked into the positioning groove 101, and when the movable element 17 is locked into different positioning grooves 101, the movable element 17 is locked in different states. When in use, the state of the movable element 17 can be changed by rotating the pivot shaft 20, and the state of the movable element 17 can also be changed by sliding the movable element 17, for example, after the movable element 17 is rotated by a certain angle, the movable element 17 is clamped into the positioning groove 101, so that the movable element 17 can be fixed, and at this time, the cavity opening of the accommodating cavity 16 can be kept in an open state. The movable member 17 may be fixed so that the opening of the housing chamber 16 can be kept covered. Normally, the movable part 17 is not locked, the user holds the IC card to stretch into the accommodating cavity 16, and before swiping the IC card, the first side edge 171 and the second side edge 172 of the movable part 17 clean the surface of the operation platform 11, clean the metal impurities on the surface of the operation platform 11, and then identify the metal impurities. Preferably, the plurality of positioning grooves 101 includes two upper and lower portions in a vertical direction and two front and rear portions in a horizontal direction. Thus, the movable member 17 is engaged in the positioning groove 101 in the vertical direction, and the opening of the accommodation chamber 16 can be kept in a covered state. The movable member 17 is engaged in the positioning groove 101 in the horizontal direction, so that the opening of the accommodating chamber 16 is kept in an open state.

The above-mentioned embodiments are provided to further explain the objects, technical solutions and advantages of the present invention in detail, and it should be understood that the above-mentioned embodiments are only examples of the present invention and are not intended to limit the scope of the present invention. It should be understood that any modifications, equivalents, improvements and the like, which come within the spirit and principle of the invention, may occur to those skilled in the art and are intended to be included within the scope of the invention.

Claims

1. An auxiliary system of an integrated secondary equipment cabin is arranged in a prefabricated cabin and is characterized by comprising an access control system, wherein the access control system comprises an access control frame (1), an IC card identification unit (14) and a fingerprint identification unit (15);

the operation platform (1) comprises an operation platform (11), the operation platform (11) comprises a horizontal plane (12) and a vertical plane (13) perpendicular to the horizontal plane (12), the vertical plane (13) is positioned on the left side of the horizontal plane (12), the IC card identification unit (14) is arranged in the operation platform (11) and is positioned below the horizontal plane (12), and the fingerprint identification unit (15) is arranged in the operation platform (11) and is positioned on the right side of the vertical plane (13);

when the right hand-held entrance guard IC card of the user is placed on the horizontal plane (12), the thumb of the right hand-held entrance guard IC card can naturally droop along the vertical plane (13) and is positioned on the left side of the fingerprint identification unit (15);

the operation releasing rack (1) further comprises an accommodating cavity (16), and the operation table (11) is arranged in the accommodating cavity (16) and is positioned at a cavity opening of the accommodating cavity (16);

the opening of the accommodating cavity (16) is also provided with a movable piece (17) which can move back and forth towards the inner side and the outer side of the accommodating cavity (16) relative to the operating platform (11), and the movable piece (17) is positioned above the operating platform (11) and is fixed on the opening of the accommodating cavity (16) in a pivot connection manner;

the movable piece (17) comprises a first side edge (171) which is close to the vertical surface (13) during reciprocating motion and a second side edge (172) which is close to the horizontal surface (12) during reciprocating motion;

the first side edge (171) and the second side edge (172) are both made of magnetic materials;

the forbidding operation frame (1) is provided with a first pivoting lug (18) and a second pivoting lug (19) which are opposite in position, and the first pivoting lug (18) and the second pivoting lug (19) are positioned above the operation table (11);

the movable piece (17) is connected with the first pivot lug (18) and the second pivot lug (19) through a pivot shaft (20), and the movable piece (17) can rotate around the pivot shaft (20) and can move back and forth towards the inner side and the outer side of the accommodating cavity (16) relative to the operating platform (11);

one sides of the first pivoting lug (18) and the second pivoting lug (19) close to the pivoting shaft (20) are respectively provided with a positioning boss (10), the positioning bosses (10) are cylindrical, the periphery of the surface of each positioning boss is provided with a plurality of positioning grooves (101) in a circumferential array, and the plurality of positioning grooves (101) are arranged on the surface facing the pivoting shaft (20);

the movable piece (17) is connected with the pivot shaft (20) in a sliding manner and can slide along the length direction of the pivot shaft (20); when the movable piece (17) slides to the end part on one side of the pivot shaft (20), the movable piece (17) can be clamped into the positioning groove (101), and when the movable piece (17) is clamped into different positioning grooves (101), the movable piece (17) is locked in different states.

2. The auxiliary system of the integrated secondary equipment bay according to claim 1, wherein the plurality of positioning slots (101) include two of upper and lower in a vertical direction and two of front and rear in a horizontal direction.

3. The auxiliary system of the integrated secondary equipment cabin of claim 1, wherein the prefabricated cabin comprises a plurality of unit cells (2), and one unlocking operation frame (1) is arranged in any unit cell (2);

one part of the unit cells (2) is arranged along the vertical direction, the other part of the unit cells is arranged along the horizontal direction, and the two parts form an L-shaped heat dissipation channel;

a reticular protective layer (3) is arranged between two adjacent unit grids (2).

4. The auxiliary system of the integrated secondary equipment cabin is characterized in that the prefabricated cabin further comprises an electrostatic floor layer (4) positioned at the bottom, wherein the bottom of the electrostatic floor layer (4) is provided with foot stands, and the surface of the electrostatic floor layer is provided with a ventilation hole (41); the heat dissipation channel is positioned above the electrostatic floor layer (4).