CN211019102U - Switch cascade mounting rack for omnibearing organization management system - Google Patents

Abstract

The utility model discloses an all-round for organizational structure management system switch cascade mounting bracket, including the installation support body, through bracing piece fixed connection between two upper and lower installation support bodies, swing joint reason line subassembly on the installation support body. The utility model realizes the connection and fixation between the upper and lower exchangers through the supporting rod, ensures the orderly distribution of a plurality of exchangers, hides and supports the net wire part on the exchangers through the wire arranging component, reduces the exposure of the net wire, avoids the touch of technicians, improves the operation safety performance, and the wire arranging component can realize the carding of the net wire, thereby facilitating the subsequent management of the net wire; in the method, the placing stability of the switches can be ensured through the installation frame body, the connection between an upper switch and a lower switch can be conveniently fixed, the access of network cables can be conveniently realized through the design of the cable management assembly on the installation frame body, partial network cables can be hidden and protected, and the wiring among a plurality of switches is neat and attractive.

Description

Switch cascade mounting rack for omnibearing organization management system

Technical Field

The utility model belongs to the technical field of the organizational structure management system, concretely relates to all-round for organizational structure management system switch cascade mounting bracket.

Background

At present, no organization software product of a formal version exists in the market, only simple personnel tree structure management is available, and manual maintenance is basically performed by personnel. The organization mechanism maintained manually is easy to have the conditions of wrong name entry, repeated names, repeated personnel and disorder, and has large workload, time and labor waste. And moreover, multi-version maintenance is not needed, and all systems need to be maintained by using an organization mechanism respectively and are not unified. Therefore, an all-directional organization management system is urgently needed to solve the defects of the existing organization management system.

In the organization management system, various network devices are included in the hardware configuration, wherein a switch for the organization management system is one of the network devices that is needed more. A switch is a network device for electrical (optical) signal forwarding that provides an exclusive electrical signal path for any two network nodes accessing the switch. In a multi-switch lan environment, cascading, stacking, and clustering of switches are three important techniques. The cascade connection of the switches can be defined as that two or more switches are connected with each other in a certain way, and a plurality of switches can be cascaded in a plurality of ways according to the requirement; in a larger local area network such as a campus network, a plurality of switches generally form a bus-type, tree-type or star-type cascade structure in terms of performance and usage. The technical problem to be solved by those skilled in the art is how to comb and protect the access section of the network cable on the switch.

Disclosure of Invention

The utility model aims to solve the above-mentioned deficiencies in the prior art, provide an all-round for organizational structure management system switch cascade mounting bracket, realize the connection between two upper and lower switches through the bracing piece and fix, guarantee the orderly distribution of many switches, and hide and support the net twine part on the switch through the reason line subassembly, reduce the exposure of net twine, avoid technical staff's touching, improve the operational safety performance, and the reason line subassembly can realize the carding of net twine, the subsequent management of the net twine of being convenient for; in the method, the placing stability of the switches can be ensured through the installation frame body, the connection between an upper switch and a lower switch can be conveniently fixed, the access of network cables can be conveniently realized through the design of the cable management assembly on the installation frame body, partial network cables can be hidden and protected, and the wiring among a plurality of switches is neat and attractive.

In order to solve the technical problem, the utility model discloses a following technical scheme:

all-round for organizational structure management system switch cascade mounting bracket, its characterized in that: the cable arranging device comprises an installation frame body, wherein the upper installation frame body and the lower installation frame body are fixedly connected through a supporting rod, and the installation frame body is movably connected with a cable arranging assembly.

Further, the mounting frame body comprises a supporting bottom plate and a limiting top plate, the switch is limited between the supporting bottom plate and the limiting top plate, positioning insertion blocks are arranged on four corners of the supporting bottom plate, the four corners of the switch are respectively clamped in the clamping grooves of the four positioning insertion blocks, transverse rods are arranged between the front adjacent positioning insertion blocks and the rear adjacent positioning insertion blocks, two ends of the limiting top plate are respectively clamped at the tops of the two transverse rods, the side surface of the end part of the limiting top plate is fixed with the transverse rod through screws, the vertical displacement of the switch is limited through the supporting bottom plate and the limiting top plate, the four corners of the switch can be further limited through the design of the positioning insertion blocks, the switch cannot horizontally move, the mounting stability of the switch on the mounting frame body is effectively guaranteed, the switch is prevented from moving, the connection between a subsequent network cable and the switch is convenient, and the design, need not to carry out the snap-on between spacing roof and the switch surface, avoid carrying out operations such as drilling on the switch surface, guarantee the integrality on switch surface.

Furthermore, the supporting bottom plate is evenly provided with a heat dissipation groove hole, the design of the heat dissipation groove hole can ensure that the supporting bottom plate can support the bottom of the exchanger, meanwhile, the heat dissipation performance of the bottom surface of the exchanger can be ensured, and the structural design is ingenious and reasonable.

Furthermore, the left side and the right side of the limit top plate are both provided with extension plates, the upper end and the lower end of each extension plate are both provided with limit frames, limit grooves are arranged on the limit frames and are matched with the support rods, the end parts of the support rods are inserted in the limit grooves, the side parts of the limit frames are in threaded connection with set screws, the end parts of the set screws penetrate through the limit frames to be abutted against and limited by the side surfaces of the support rods, the structural design is reasonable, the upper mounting frame body and the lower mounting frame body are connected through the support rods, and the connection firmness between the limit frames and the support rods is further ensured through the set screws, thereby ensuring the installation firmness between two switches which are adjacently distributed up and down, ensuring the structural stability after the installation of a plurality of switches, being convenient for the access between the network cable and the switches, and the length of the supporting rod can be adjusted according to actual installation requirements, so that the distance between the upper switch and the lower switch can be adjusted.

Further, the reason line subassembly is including reason line board, evenly be provided with the reason line perforation on the reason line board, the both ends of reason line board all are provided with the connecting plate, connecting plate and slider adjustable connection, slider and horizontal pole swing joint, can guide the trend of net twine through the reason line perforation on the reason line board, improve the reliability of being connected between net twine and the switch, also be convenient for the follow-up carding and the change of net twine, and the reason line board passes through the connecting plate and realizes being connected with the adjustable of slider to can adjust the actual angle of reason line board according to the access length and the angle of net twine.

Further, be provided with the arch on the horizontal pole, be provided with the spout on the slider, spout and protruding phase-match, the slider passes through the spout joint in the arch, and the slider slides around protruding, realizes the slip joint between slider and the horizontal pole through arch and spout, the installation of the reality of being convenient for, thereby the slider is along protruding back-and-forth movement to the front and back position adjustment of reason line subassembly simultaneously to be convenient for follow-up adjustment to reason line board angle.

Further, be provided with the recess in the arch, the side threaded connection of slider has set screw, recess and set screw phase-match, set screw's tip passes in the slider extends to the recess and supports tightly spacing with the terminal surface of recess, realize through set screw that spacing between slider and the arch supports tightly, guarantee the installation fastness of slider on the arch, and then guarantee the structure steadiness of reason line subassembly at the installation support body, and when needs adjustment slider position, then unscrew set screw can, structural design is ingenious reasonable, installation convenient operation is simple.

Further, be provided with the location axle on the slider, be provided with the connecting hole on the connecting plate, connecting hole and location axle phase-match, the connecting hole is passed to the location axle, be provided with fastening nut on the location axle, structural design is compact reasonable, realize cup jointing between connecting plate and the slider through location axle and connecting hole, thereby the installation fastness between connecting plate and the slider is effectively guaranteed to further compressing tightly of rethread fastening nut, and can adjust the angle of reason line board through this structure, unscrew fastening nut, rotate the angle that the connecting plate can be adjusted the reason line board along the location axle, thereby the access of the net twine of being more convenient for.

Further, the both sides of reason line board all are provided with the inserted block, the activity is pegged graft on the reason line board and is had the cover that shields, the both sides of cover all are provided with the slot, slot and inserted block phase-match, the inserted block is pegged graft at the slot, the both ends of cover are open structure, can hide the net twine part of switch front side between line board and cover through the design that shields, more be favorable to the protection to the net twine, the management of the net twine of being convenient for avoids the winding that hangs down of net twine, can reduce technical staff again simultaneously and touch the net twine, and the operation safety performance is improved.

The use method of the switch cascade mounting rack for the omnibearing organization management system is characterized by comprising the following steps:

a. the switch is fixed in the installation on the installation support body:

1) placing the switch on a supporting bottom plate to ensure that the peripheral corners of the switch are just clamped in the clamping grooves of the positioning insertion blocks on the peripheral corners of the supporting bottom plate; the peripheral corners of the switch are limited and clamped through the positioning insertion blocks, so that accurate clamping positioning between the switch and the supporting bottom plate is guaranteed;

2) then, placing the limit top plate on the top of the exchanger, adjusting the left and right positions of the limit top plate to enable two ends of the limit top plate to be just clamped on the corresponding cross rods, moving the limit top plate along the cross rods until the limit top plate moves to the middle of the exchanger, and further installing and fixing the limit top plate and the cross rods by screws; the top of the switch is further limited and compressed through the limit top plate, the placing stability of the switch on the mounting frame body is effectively guaranteed, and the position of the limit top plate is mounted in the middle of the switch, so that the actual mounting and positioning of the limit top plate can be facilitated;

b. the wire arranging assembly is fixed with the installation of the installation frame body:

1) the connecting plates at the two ends of the wire arranging plate are respectively provided with a sliding block, a positioning shaft on the sliding block penetrates through a connecting hole on the connecting plate and extends to the outer side of the wire arranging plate, and a fastening nut is screwed into the end part of the positioning shaft; the sliding block and the connecting plate are accurately positioned and inserted through the positioning shaft and the connecting hole, and the mounting and the dismounting are convenient and simple;

2) then, a combination of the wire arranging plate and the sliding block is installed on the cross rod, the sliding block is clamped on the protrusion of the cross rod through the sliding groove, the sliding block is ensured to be positioned on the front side of the limiting top plate during installation, the positioning screw is screwed down, the angle of the wire arranging plate is adjusted simultaneously, the bottom surface of the wire arranging plate is enabled to be right abutted against the top surface of the switch, and the fastening nut is screwed down; the clamping connection between the sliding block and the cross rod is realized through the sliding groove and the protrusion, the installation between the wire arranging assembly and the installation frame body is realized, and the sliding block is ensured to be positioned at the front side of the limiting top plate so as to ensure that the wire arranging plate is positioned at the front side of the limiting top plate, so that the angle of the wire arranging plate can be conveniently adjusted in the follow-up process;

c. connection between switches:

1) firstly, an exchanger is installed in a cabinet, limiting frames below extension plates on two sides of a limiting top plate of the exchanger are clamped in a positioning rod on the bottom surface of the cabinet, and the positioning rod and the limiting frames are abutted and fixed by using a set screw; the lowest switch is positioned and clamped through a positioning rod on the bottom surface of the cabinet, and the plurality of switches are further fixed through a fastening screw piece, so that the structural stability of the plurality of switches after the plurality of switches are installed is effectively guaranteed;

2) then inserting a support rod into the limit frame above the extension plate, screwing in a set screw, abutting and fixing the limit frame below the extension plate and the bottom end of the support rod, installing another exchanger above the support rod, clamping the limit frames below the extension plates on two sides of the limit top plate of the upper exchanger to the top of the support rod, and then screwing in the set screw to abut and fix the top of the support rod and the limit frame; the upper and lower exchangers are connected through the supporting rods, so that the connection firmness between the upper and lower exchangers is guaranteed, the supporting rods can guarantee that a certain distance is reserved between the upper and lower exchangers, and a space is reserved for adjusting the angle of a subsequent wire arranging plate;

3) installing a third switch according to the step 2) until all switches are installed, inserting T-shaped rods into the limiting frames above the extending plates on the two sides of the limiting top plate of the uppermost switch, tightly abutting and fixing the vertical sections of the T-shaped rods and the limiting frames by using set screws, and fixing the horizontal sections of the T-shaped rods and the top of the cabinet by using screws; finally, the uppermost switch is fixed to the top of the cabinet through the T-shaped rod, so that the installation stability of the combination of the switches in the cabinet is effectively guaranteed, and the access reliability of subsequent network cables is improved;

d. accessing a network cable:

1) firstly, unscrewing positioning screws on two exchangers of a network cable to be connected, moving a sliding block to the front side of the exchangers along a protrusion until the sliding block moves to the foremost end of a sliding groove, screwing down the positioning screws, unscrewing a fastening nut, and rotating a cable arranging plate to the front side of the exchangers; the sliding block is moved to the foremost end of the sliding groove, so that the wire arranging plate can be conveniently rotated towards the front side of the switch, and the angle of the subsequent wire arranging plate can be conveniently adjusted;

2) one end of a network cable is connected to a network cable connecting position on one of the switches, the other end of the network cable penetrates through a network cable arranging through hole corresponding to the network cable connecting position on the switching mechanism line board and extends to a position between the network cable arranging board and the shielding cover, the other end of the network cable penetrates out of an opening at one end of the shielding cover and moves towards the other switch, the other end of the network cable penetrates into a position between the shielding cover and the network cable arranging board of the switch, the other end of the network cable penetrates out of the corresponding network cable arranging through hole on the switching mechanism line board according to the network cable connecting position on the other switch, and the other end of the network cable is connected to the network cable connecting position on the other switch; part of the net wires are hidden between the shielding cover and the wire arranging plate, so that the net wires are prevented from falling and being exposed, the net wires are protected, meanwhile, the contact of technicians on the net wires can be reduced, the operation safety performance is improved, and the integral carding and subsequent management of the net wires are facilitated;

3) rotating the wire arranging plates, adjusting the angle positions of the wire arranging plates on the two exchangers to ensure that the network cable section exposed between the wire arranging assemblies on the two exchangers keeps a stretching state, and then screwing the fastening nuts on the two exchangers; through the angle of the reason line board on the two switches of adjustment, can adjust the access angle at net twine both ends, improve the firm in connection nature of net twine both ends and switch net twine access position, can also guarantee simultaneously that the net twine that exposes between two reason line subassemblies from top to bottom keeps tensile state, and the net twine can not the winding of drooping, more is favorable to the management of net twine, also makes the wiring system of many switches clean and tidy more pleasing to the eye, improves the security.

The utility model discloses owing to adopted above-mentioned technical scheme, following beneficial effect has:

the utility model discloses an installation support body carries out spacing fixed to the switch, upper and lower displacement through supporting baseplate and spacing roof restriction switch, and the design of location inserted block can further restrict the four corners of switch, make the unable horizontal migration of switch, thereby effectively guarantee the installation steadiness ability of switch on the installation support body, avoid the switch to remove, be connected between the follow-up net twine of being convenient for and the switch, improve the reliability of being connected between net twine and the switch, and the design of horizontal pole can be convenient for the installation between spacing roof and the supporting baseplate fixed, need not to be connected between spacing roof and the switch itself, guarantee the integrality on switch surface. And the installation support body both can carry out spacing fixed to the switch, can be convenient for again connect between two upper and lower switches to the combination between the many switches of being convenient for realizes connecting through the bracing piece between two upper and lower adjacent switches, guarantees the structure steadiness that many switches were combined, and the length of bracing piece can be adjusted according to actual need, thereby can adjust the interval between two upper and lower switches, the access of the net twine of being more convenient for.

The utility model can guide the trend of the network cable by the ingenious design of the cable-arranging component, when the cable-arranging component is not needed, the cable-arranging component can be rotated to the top of the exchanger, so that the cable-arranging board is contacted with the top surface of the exchanger in a laminating way, the cable-arranging board can be pressed on the top of the exchanger in a limiting way under the combined action of the limiting top plate, the structural firmness of the exchanger on the installation frame body is effectively ensured, the exchanger is limited to move, when the cable-arranging component is needed to guide the network cable, the positioning screw is unscrewed, the cable-arranging board is driven to move to the foremost side of the chute by the slider, the subsequent rotation of the cable-arranging board is convenient, the fastening nut is unscrewed, the connecting board can be rotated along the positioning shaft to drive the synchronous rotation of the cable-arranging board, the angle of the cable-arranging board is adjusted, thereby the access of the network cable is more convenient, the angle of the cable-, guarantee the net twine on net twine and the switch and insert the reliability of being connected between the position, place the not hard up etc. that drops of net twine, can avoid the winding etc. that hangs down of net twine simultaneously, reduce the touching of technical staff to the net twine, the follow-up management of the net twine of being convenient for improves the operational safety performance.

The utility model is characterized in that the switch is firstly arranged on the installation frame body in the using process, the peripheral corners of the switch are clamped in a limiting way through the positioning insertion blocks, the accurate clamping positioning between the switch and the supporting bottom plate is ensured, the top of the switch is further compressed in a limiting way through the limiting top plate, the placing stability of the switch on the installation frame body is effectively ensured, then the wire management component is assembled and arranged on the installation frame body, the wire management plate is ensured to be compressed and limited on the top surface of the switch in the initial state, the top surface of the switch is compressed and limited under the combined action of the limiting top plate, the position of the wire management plate is adjusted when the switch of a subsequent corresponding platform needs to be connected with a network cable, the assembly among a plurality of switches is realized through the supporting rod, the structural strength of the assembled switch is ensured, finally, the network cable is connected, and the wire management plate on the switch to be connected with the network cable, rotating a wire arranging plate to the front side of the exchangers, connecting one end of a net wire to a net wire connecting position on one of the exchangers, penetrating the other end of the net wire through a wire arranging through hole corresponding to the net wire connecting position on a wire plate of the exchange mechanism, extending the other end of the net wire to a position between the wire arranging plate and a shielding cover, penetrating the other end of the net wire out of an opening at one end of the shielding cover, moving the net wire to the other exchanger to allow the other end of the net wire to penetrate between the shielding cover and the wire arranging plate of the exchanger, penetrating the other end of the net wire out of the corresponding wire arranging through hole on the wire plate of the exchange mechanism according to the net wire connecting position on the other exchanger, connecting the other end of the net wire to a net wire connecting position on the other exchanger to realize the butt joint of the net wires between the two exchangers, and hiding part of the net wire between the shielding cover and the wire arranging plate by the wire arranging assembly, the network cable is prevented from falling and being exposed, the network cable is protected, the angle of the network cable arranging plate is adjustable, the angle of the network cable arranging plate can be adjusted according to the access angle and the length of the network cable, the contact of technicians to the network cable is reduced, the operation safety performance is improved, the whole carding and subsequent management of the network cable are facilitated, and the wiring system among a plurality of switches is neat and attractive.

Drawings

The present invention will be further explained with reference to the accompanying drawings:

fig. 1 is a schematic structural view of a switch cascade mounting rack for an omnidirectional organization management system of the present invention;

fig. 2 is a schematic view of an installation structure of the wire management assembly and the installation frame body of the present invention;

fig. 3 is a schematic structural view of the wire management assembly of the present invention;

FIG. 4 is a schematic structural view of the slider of the present invention;

FIG. 5 is a schematic view of the position structure of the positioning insert block on the supporting bottom plate according to the present invention;

fig. 6 is a schematic view of an installation structure of the switch and the installation frame body of the present invention;

fig. 7 is a schematic diagram of a connection structure between two switches according to the present invention;

fig. 8 is a schematic view of the position structure of the wire arranging assembly moving to the mounting frame body for waiting for rotation adjustment according to the present invention;

fig. 9 is a schematic structural diagram of the access between the central network cable and the switch of the present invention.

In the figure, 1-mounting the frame body; 2-a support rod; 3-a wire management component; 4-supporting the bottom plate; 5-a limit top plate; 6-positioning the insert block; 7-a clamping groove; 8-a cross bar; 9-heat dissipation slotted holes; 10-an extension plate; 11-a limit frame; 12-a limiting groove; 13-set screws; 14-wire arranging plate; 15-wire arranging and punching; 16-a connecting plate; 17-a slide block; 18-a bump; 19-a chute; 20-grooves; 21-a set screw; 22-positioning the shaft; 23-a connection hole; 24-a fastening nut; 25-an insert block; 26-a shield cover; 27-a slot; 28-mesh wire; 29-switch.

Detailed Description

As shown in fig. 1 to 9, do the utility model discloses all-round for organizational structure management system switch cascades mounting bracket, including installation support body 1, through bracing piece 2 fixed connection between two upper and lower installation support bodies 1, swing joint has reason line subassembly 3 on the installation support body 1.

The mounting frame body 1 comprises a supporting bottom plate 4 and a limiting top plate 5, a switch 29 is limited between the supporting bottom plate 4 and the limiting top plate 5, positioning insertion blocks 6 are arranged on four corners of the supporting bottom plate 4, the four corners of the switch 29 are respectively clamped in clamping grooves 7 of the four positioning insertion blocks 6, cross rods 8 are arranged between the front adjacent two positioning insertion blocks 6 and the rear adjacent two positioning insertion blocks 6, two ends of the limiting top plate 5 are respectively clamped at the tops of the two cross rods 8, the side surface of the end part of the limiting top plate 5 is fixed with the cross rods 8 through screws, the vertical displacement of the switch 29 is limited through the supporting bottom plate 4 and the limiting top plate 5, the peripheral corners of the switch 29 can be further limited through the design of the positioning insertion blocks 6, so that the switch 29 cannot horizontally move, the mounting stability of the switch 29 on the mounting frame body 1 is effectively guaranteed, the movement of the switch 29 is avoided, and the design of horizontal pole 8 can be convenient for spacing roof 5's installation fixed, need not to carry out the snap-on between spacing roof 5 and the switch 29 surface, avoids carrying out operations such as drilling on the switch 29 surface, guarantees the integrality on switch 29 surface.

The supporting bottom plate 4 is uniformly provided with the heat dissipation groove holes 9, the design of the heat dissipation groove holes 9 can ensure that the supporting bottom plate 4 can support the bottom of the switch 29 and can also ensure the heat dissipation performance of the bottom surface of the switch 29, and the structural design is ingenious and reasonable. The left side and the right side of the limit top plate 5 are both provided with extension plates 10, the upper end and the lower end of each extension plate 10 are both provided with limit frames 11, the limit frames 11 are provided with limit grooves 12, the limit grooves 12 are matched with the support rods 2, the end parts of the support rods 2 are inserted in the limit grooves 12, the side parts of the limit frames 11 are in threaded connection with set screws 13, the end parts of the set screws 13 penetrate through the limit frames 11 to be abutted against and limited by the side surfaces of the support rods 2, the structural design is reasonable, the upper and the lower installation frame bodies 1 are connected through the support rods 2, the connection firmness between the limit frames 11 and the support rods 2 is further ensured through the set screws 13, so that the installation firmness between two switches 29 which are adjacently distributed up and down is ensured, the structural stability after the multiple switches 29 are installed is ensured, the connection between a network cable and the switches 29 is convenient, and the length of the support, so that the distance between the upper and lower switches 29 can be adjusted.

Reason line subassembly 3 is including reason line board 14, evenly be provided with reason line perforation 15 on reason line board 14, the both ends of reason line board 14 all are provided with connecting plate 16, connecting plate 16 and the adjustable connection of slider 17, slider 17 and 8 swing joint of horizontal pole, can guide the trend of net twine through reason line perforation 15 on reason line board 14, improve the reliability of being connected between net twine and the switch 29, also be convenient for subsequent carding and the change of net twine, and reason line board 14 passes through connecting plate 16 and realizes being connected with slider 17's adjustable, thereby can adjust the actual angle of reason line board 14 according to the access length and the angle of net twine.

Be provided with protruding 18 on the horizontal pole 8, be provided with spout 19 on the slider 17, spout 19 and protruding 18 phase-matchs, slider 17 passes through spout 19 joint on protruding 18, slider 17 slides around protruding 18, realize the slip joint between slider 17 and the horizontal pole 8 through protruding 18 and spout 19, the installation of being convenient for reality, thereby slider 17 is along protruding 18 back-and-forth movement to the front and back position adjustment of reason line subassembly 3 simultaneously, thereby be convenient for follow-up adjustment to the 14 angles of reason line board. Be provided with recess 20 on arch 18, the side threaded connection of slider 17 has set screw 21, recess 20 and set screw 21 phase-match, set screw 21's tip passes in slider 17 extends to recess 20 and supports tightly spacing with recess 20 terminal surface, realize through set screw 21 that slider 17 and arch 18 between spacing support tightly, guarantee the installation fastness of slider 17 on arch 18, and then guarantee the structure steadiness of reason line subassembly 3 at installation support body 1, and when needs adjustment slider 17 position, then unscrew set screw 21 can, structural design is ingenious reasonable, installation convenient operation is simple.

Be provided with location axle 22 on the slider 17, be provided with connecting hole 23 on the connecting plate 16, connecting hole 23 and location axle 22 phase-match, location axle 22 passes connecting hole 23, be provided with fastening nut 24 on the location axle 22, structural design is compact reasonable, realize cup jointing between connecting plate 16 and the slider 17 through location axle 22 and connecting hole 23, thereby rethread fastening nut 24 further compress tightly spacing effectively to guarantee the installation fastness between connecting plate 16 and the slider 17, and can adjust the angle of reason line board 14 through this structure, unscrew fastening nut 24, rotate connecting plate 16 along location axle 22 and can adjust the angle of reason line board 14, thereby the access of the net twine of being more convenient for.

Reason line board 14's both sides all are provided with the inserted block 25, it has the shield cover 26 to peg graft in the activity on the reason line board 14, the both sides of shield cover 26 all are provided with slot 27, slot 27 and inserted block 25 phase-match, the inserted block 25 is pegged graft at slot 27, the both ends of shield cover 26 are open structure, design through shield cover 26 can hide the net twine part of switch 29 front side between line board 14 and shield cover 26, more be favorable to the protection to the net twine, the management of the net twine of being convenient for, avoid the winding that hangs down of net twine, can reduce technical staff again simultaneously and touch the net twine, the operation safety performance is improved.

The use method of the switch 29 cascade mounting rack for the omnibearing organization management system comprises the following steps:

a. the switch 29 is fixed on the mounting frame body 1:

1) the switch 29 is placed on the supporting bottom plate 4, and the peripheral corners of the switch 29 are ensured to be just clamped in the clamping grooves 7 of the positioning insertion blocks 6 on the peripheral corners of the supporting bottom plate 4; the peripheral corners of the switch 29 are limited and clamped through the positioning insertion blocks 6, so that accurate clamping positioning between the switch 29 and the supporting bottom plate 4 is guaranteed;

2) then, the limiting top plate 5 is placed at the top of the switch 29, the left and right positions of the limiting top plate 5 are adjusted, so that the two ends of the limiting top plate 5 are just clamped on the corresponding cross rods 8, the limiting top plate 5 is moved along the cross rods 8 until the limiting top plate 5 moves to the middle of the switch 29, and the limiting top plate 5 and the cross rods 8 are further installed and fixed through screws; the top of the switch 29 is further limited and compressed through the limit top plate 5, so that the placing stability of the switch 29 on the mounting frame body 1 is effectively guaranteed, and the position of the limit top plate 5 is mounted in the middle of the switch 29, so that the actual mounting and positioning of the limit top plate 5 can be facilitated;

b. the wire arranging component 3 is fixed with the installation of the installation frame body 1:

1) the connecting plates 16 at two ends of the wire arranging plate 14 are respectively provided with a sliding block 17, a positioning shaft 22 on the sliding block 17 passes through a connecting hole 23 on the connecting plate 16 and extends to the outer side of the wire arranging plate 14, and a fastening nut 24 is screwed into the end part of the positioning shaft 22; the sliding block 17 and the connecting plate 16 are accurately positioned and inserted through the positioning shaft 22 and the connecting hole 23, and the mounting and the dismounting are convenient and simple;

2) then, the combination of the wire arranging plate 14 and the sliding block 17 is installed on the cross rod 8, the sliding block 17 is clamped on the protrusion 18 of the cross rod 8 through the sliding groove 19, the sliding block 17 is ensured to be positioned on the front side of the limiting top plate 5 during installation, the positioning screw 21 is screwed, the angle of the wire arranging plate 14 is adjusted at the same time, the bottom surface of the wire arranging plate 14 is enabled to be just abutted against the top surface of the switch 29, and the fastening nut 24 is screwed; the sliding block 17 is clamped with the cross bar 8 through the sliding groove 19 and the protrusion 18, the wire arranging assembly 3 is mounted on the mounting frame body 1, and the sliding block 17 is positioned on the front side of the limiting top plate 5, so that the wire arranging plate 14 is positioned on the front side of the limiting top plate 5, and the angle of the wire arranging plate 14 can be adjusted conveniently;

c. connection between switches 29:

1) firstly, an exchanger 29 is installed in a cabinet, limiting frames 11 below extending plates 10 at two sides of a limiting top plate 5 of the exchanger 29 are clamped in positioning rods at the bottom surface of the cabinet, and the positioning rods are tightly abutted and fixed with the limiting frames 11 through set screws 13; the lowest switch 29 is positioned and clamped through a positioning rod on the bottom surface of the cabinet, and the plurality of switches 29 are further fixed through 13 fastening screws, so that the structural stability of the plurality of switches 29 after being installed is effectively guaranteed;

2) then, the supporting rod 2 is inserted into the limiting frame 11 above the extending plate 10, the set screw 13 is screwed in, the limiting frame 11 below the extending plate 10 is tightly abutted and fixed with the bottom end of the supporting rod 2, another exchanger 29 is arranged above the supporting rod 2, the limiting frames 11 below the extending plates 10 on two sides of the limiting top plate 5 of the upper exchanger 29 are clamped and connected to the top of the supporting rod 2, and the set screw 13 is screwed in to tightly abut and fix the top of the supporting rod 2 with the limiting frame 11; the upper switch 29 and the lower switch 29 are connected through the support rod 2, so that the connection firmness between the upper switch 29 and the lower switch 29 is ensured, the support rod 2 can ensure that a certain distance exists between the upper switch 29 and the lower switch 29, and a space is reserved for the subsequent angle adjustment of the wire arranging plate 14;

3) then, the third switch 29 is installed according to the step 2) until all the switches 29 are installed, T-shaped rods are inserted into the limiting frames 11 above the extending plates 10 on the two sides of the limiting top plate 5 of the uppermost switch 29, the vertical sections of the T-shaped rods are tightly abutted and fixed with the limiting frames 11 through the set screws 13, and the horizontal sections of the T-shaped rods are fixed with the top of the cabinet through the screws; finally, the uppermost switch 29 is fixed to the top of the cabinet through the T-shaped rod, so that the installation stability of the combination of the switches 29 in the cabinet is effectively guaranteed, and the access reliability of subsequent network cables is improved;

d. accessing a network cable:

1) firstly, unscrewing positioning screws 21 on two exchangers 29 of to-be-connected network cables, moving a sliding block 17 to the front side of the exchangers 29 along a protrusion 18 until the sliding block 17 moves to the foremost end of a sliding groove 19, screwing down the positioning screws 21, then unscrewing a fastening nut 24, and rotating a cable arranging plate 14 to the front side of the exchangers 29; the slide block 17 is moved to the foremost end of the slide groove 19, so that the wire arranging plate 14 can be conveniently rotated to the front side of the switchboard 29, and the angle of the subsequent wire arranging plate 14 can be conveniently adjusted;

2) one end of a network cable is connected to a network cable connecting position on one of the switches 29, the other end of the network cable penetrates through a network cable connecting through hole 15 corresponding to the network cable connecting position on the network cable connecting plate 14 of the switch 29 and extends to a position between the network cable connecting plate 14 and the shielding cover 26, the other end of the network cable penetrates out of an opening at one end of the shielding cover 26 and moves towards the other switch 29, the other end of the network cable penetrates into a position between the shielding cover 26 and the network cable connecting plate 14 of the switch 29, the other end of the network cable penetrates out of the corresponding network cable connecting through hole 15 on the network cable connecting plate 14 of the switch 29 according to the network cable connecting position of the other switch 29, and the other end of the network cable is connected to the network cable connecting position on the other switch 29; part of the net wires are hidden between the shielding cover 26 and the wire arranging plate 14, so that the net wires are prevented from falling and being exposed, the net wires are protected, meanwhile, the contact of technicians on the net wires can be reduced, the operation safety performance is improved, and the integral carding and subsequent management of the net wires are facilitated;

3) rotating the wire arranging plates 14, adjusting the angle positions of the wire arranging plates 14 on the two exchangers 29 to ensure that the network wire section exposed between the wire arranging assemblies 3 on the two exchangers 29 keeps a stretching state, and then screwing the fastening nuts 24 on the two exchangers 29; through the angle of the reason line board 14 on the two switches 29 of adjustment, can adjust the access angle at net twine both ends, be convenient for be connected between net twine and the switch, improve the firm in connection nature of net twine both ends and the 29 net twine of switch access position, can also guarantee simultaneously that the net twine that exposes between two reason line subassemblies 3 keeps tensile state from top to bottom, the net twine can not the winding of drooping, more be favorable to the management of net twine, also make the more clean and tidy pleasing to the eye of the wiring system of many switches 29, the security is improved.

The above is only a specific embodiment of the present invention, but the technical features of the present invention are not limited thereto. Any simple changes, equivalent substitutions or modifications made on the basis of the present invention to solve the same technical problems and achieve the same technical effects are all covered by the protection scope of the present invention.

Claims (7)

1. All-round for organizational structure management system switch cascade mounting bracket, its characterized in that: the wire arranging component is movably connected on the mounting frame body, the mounting frame body comprises a supporting bottom plate and a limiting top plate, a switch is limited between the supporting bottom plate and the limiting top plate, positioning insertion blocks are arranged on the four corners of the supporting bottom plate, the four corners of the switch are respectively clamped in the clamping grooves of the four positioning insertion blocks, a transverse rod is arranged between the front and the back adjacent two positioning insertion blocks, two ends of the limiting top plate are respectively clamped at the tops of the two transverse rods, the side face of the end part of the limiting top plate is fixed with a transverse rod screw, extension plates are arranged on the left side and the right side of the limiting top plate, limiting frames are arranged at the upper end and the lower end of each extension plate, limiting grooves are arranged on the limiting frames, and are matched with the supporting rods, the end part of the supporting rod is inserted in the limiting groove, the side part of the limiting frame is in threaded connection with a set screw, and the end part of the set screw penetrates through the limiting frame to be tightly abutted against the side surface of the supporting rod for limiting.

2. The switch cascade mount for an all-directional organization management system of claim 1, wherein: and heat dissipation slotted holes are uniformly formed in the supporting base plate.

3. The switch cascade mount for an all-directional organization management system of claim 1, wherein: the wire arranging assembly comprises a wire arranging plate, wire arranging through holes are uniformly formed in the wire arranging plate, connecting plates are arranged at two ends of the wire arranging plate and are adjustably connected with sliding blocks, and the sliding blocks are movably connected with the transverse rods.

4. The switch cascade mount for an all-directional organization management system of claim 3, wherein: the slider is clamped on the protrusion through the sliding groove, and the slider slides back and forth along the protrusion.

5. The switch cascade mount for an all-directional organization management system of claim 4, wherein: the protrusion is provided with a groove, the side surface of the sliding block is in threaded connection with a positioning screw, the groove is matched with the positioning screw, and the end part of the positioning screw penetrates through the sliding block and extends into the limiting groove to be abutted against the end surface of the limiting groove for limiting.

6. The switch cascade mount for an all-directional organization management system of claim 3, wherein: the positioning shaft is arranged on the sliding block, a connecting hole is formed in the connecting plate and matched with the positioning shaft, the positioning shaft penetrates through the connecting hole, and a fastening nut is arranged on the positioning shaft.

7. The switch cascade mount for an all-directional organization management system of claim 3, wherein: the wire arranging plate is characterized in that plug blocks are arranged on two sides of the wire arranging plate, shielding covers are movably inserted into the wire arranging plate, slots are formed in two sides of each shielding cover and are matched with the plug blocks, the plug blocks are inserted into the slots, and two ends of each shielding cover are of an open structure.

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