CN116647526A - An industrial ethernet switch - Google Patents

Abstract

The invention discloses an industrial Ethernet switch, which comprises a support frame, on which a power assembly, an external heat dissipation assembly, a switch assembly, a lifting assembly and an internal heat dissipation assembly are connected, the power assembly is arranged on the top of the support frame, and the power assembly wears Through the support frame, the external heat dissipation component is connected with the power component, the external heat dissipation component is connected with the lifting component, and the two ends of the switch component are connected with the lifting component. The invention provides an industrial Ethernet switch, the gas generated by the airflow can quickly flow into the switch components, and the switch components are opened by using the rotation of the outer heat dissipation component, so that the airflow can flow into the switch components, and the switch components can be quickly Take away the heat inside the switch components. When the switch is not working, the switch components are superimposed on each other, reducing the volume of the device. With the flip setting of the switch cover, the heat inside the switch shell can be quickly taken away.

Description

Industrial Ethernet switch

Technical Field

The invention relates to the field of switches, in particular to an industrial Ethernet switch.

Background

In the industrial factory, automatic production needs to be realized, production data transmission is needed between production devices, the devices in the factory are connected by using an Ethernet switch, the data transmission is realized between the devices by using the Ethernet switch, the data in the devices are transmitted in the Ethernet at a higher speed, the Ethernet switch is a switch based on the Ethernet for transmitting the data, and the Ethernet adopts a local area network in a shared bus type transmission media mode. The ethernet switch is structured such that each port is directly connected to a host and typically operates in full duplex mode.

The Ethernet switch is a switch based on Ethernet for transmitting data, and the Ethernet adopts a local area network in a shared bus type transmission medium mode. The ethernet switch is structured such that each port is directly connected to a host and typically operates in full duplex mode. The switch can communicate with a plurality of pairs of ports simultaneously, so that each pair of communicating hosts can transmit data without collision as in the case of exclusive communication media. The existing Ethernet switch is of a single structure, so that the interfaces are fewer, and the stacked volume is larger due to the combination of a plurality of industrial switches, so that the heat dissipation effect is affected.

Disclosure of Invention

The present invention provides an industrial ethernet switch to solve the above-mentioned problems of the prior art.

The technical scheme of the invention is realized as follows:

the utility model provides an industry Ethernet switch, includes supporting component, is connected with power component, outer radiating component, switch subassembly, lifting unit and interior radiating component on the supporting component, and power component sets up the top at the support frame, and power component passes the support frame, and outer radiating component is connected with power component, and outer radiating component is connected with lifting unit, and switch subassembly's both ends are connected with lifting unit, and interior radiating component is arranged in the switch subassembly;

the power assembly drives the outer heat dissipation assembly to rotate, air flow generated by the outer heat dissipation assembly faces the switch assembly, the outer heat dissipation assembly works to drive the lifting assembly to drive the switch assemblies to ascend, the stacking state of the switch assemblies is changed into a separation state, and a gap between every two adjacent switch assemblies is not smaller than 5cm;

the switch assembly is separated, and the inner heat dissipation assembly is started at the same time and used for being matched with the outer heat dissipation assembly to dissipate heat of the switch assembly.

Further, the support frame includes left board, right board, roof and heat dissipation net, and the top and the roof of left board and right board are connected, and the louvre has been seted up at the middle part of left board, and the heat dissipation net embedding louvre is downthehole.

Further, the power component comprises a motor, a support frame and a motor shaft, one end of the support frame is fixed at one end of the top plate, the other end of the support frame is connected with the motor, the output end of the motor is connected with one end of the motor shaft through a shaft key, the other end of the motor shaft penetrates through a bearing of the top plate, and the motor is used for driving the motor shaft to rotate in the top plate.

Further, the outer heat dissipation assembly comprises a worm, a turbine, a rotating shaft, an interface and a fan, one end of the worm is connected with a port of a motor shaft, and the other end of the worm is inserted into a bearing seat at the bottom of the right plate;

the rotating shaft is distributed on one side of the worm, one end of the rotating shaft is inserted into the bearing of the right plate, the other end of the rotating shaft is respectively sleeved with the turbine and the interface, the turbine is meshed with the worm, the fan is sleeved on the interface to be fixed, the worm and the motor shaft synchronously rotate, the worm drives the turbine to rotate, and then the air flow generated by the rotation of the fan faces the switch assembly.

Further, the switch assembly comprises a switch shell, a switch interface main board and a switch cover plate, wherein the switch interface main board is embedded in the front face of the switch shell, a notch is formed in the top of the switch shell, and the switch cover plate covers the notch of the switch shell.

Further, three sections of smooth parts are arranged on the worm, and the length of each section of smooth part is not more than 5cm.

Further, the lifting assembly comprises lifting shells, springs, supporting plates and sliding rods, wherein the two lifting shells are respectively fixed with two sides of the switch shell, the supporting plates are positioned right below the lifting shells, and the supporting plates are fixed with the outer walls of the left plate and the right plate;

one end of the spring is fixed on the supporting plate, and the other end of the spring is fixed with the bottom surface of the lifting shell;

the slide bar is located one side of left board to the slide bar is fixed with the roof, and the lift shell of switch shell one side is meshed by the worm, and the lift shell of switch shell opposite side is run through by the slide bar, and when the worm positively revolves, the fan takes place to rotate when the lift shell risees, and the lift shell is the in-process that rises, and the spring of compression is kick-backed slowly, until the smooth portion of lift shell removal to the worm, then a plurality of switch shells keep separating under the effect of spring and screw thread when the fan is rotatory all the time, and the air current that the fan produced blows in the switch shell.

Further, interior radiator unit includes cylinder and telescopic link, and the one end of cylinder is installed on the diapire of switch shell, and the other end and the telescopic link of cylinder are connected, and the top of telescopic link is through round pin axle and the one edge swing joint of switch apron, and the other edge of switch apron is through the breach border swing joint of hinge and switch shell.

Further, the exchanger cover plate rotates around the hinge under the action of the air cylinder, air flow generated by the fan flows into the exchanger shell under the drainage of the exchanger cover plate, and heat in the exchanger shell is taken away.

The technical scheme has the following advantages or beneficial effects:

the invention provides an industrial Ethernet switch, which is characterized in that an inner heat dissipation component is started while an exchanger component is separated, the exchanger component is matched with an outer heat dissipation component to dissipate heat of the exchanger component, the exchanger component is separated and dispersed, gas generated by air flow can quickly flow into the exchanger component, the exchanger component is opened by utilizing the rotation arrangement of the outer heat dissipation component, the air flow can flow into the exchanger component, the heat in the exchanger component can be quickly taken away, the exchanger components are mutually overlapped when the exchanger does not work, the volume of equipment is reduced, the air flow can quickly flow into the exchanger shell after the equipment is separated, and the heat in the exchanger shell can be quickly taken away by matching with the overturning arrangement of a cover plate of the exchanger.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is an overall perspective view of an industrial ethernet switch according to an embodiment of the present invention;

FIG. 2 is a heat dissipation state diagram of an industrial Ethernet switch according to an embodiment of the invention;

FIG. 3 is a block diagram of a support frame for an industrial Ethernet switch according to an embodiment of the invention;

fig. 4 is an enlarged view of fig. 3 a of an industrial ethernet switch according to an embodiment of the present invention;

fig. 5 is a block diagram of an internal heat sink assembly of an industrial ethernet switch according to an embodiment of the present invention;

fig. 6 is a partially cut away view of a heat sink separation of an industrial ethernet switch in accordance with an embodiment of the present invention.

In the figure: 1. a support assembly; 11. a left plate; 12. a right plate; 13. a top plate; 14. a heat dissipation net; 2. a power assembly; 21. a motor; 22. a support frame; 23. a motor shaft; 3. an outer heat sink assembly; 31. a worm; 32. a turbine; 33. a rotation shaft; 34. an interface; 35. a fan; 4. a switch assembly; 41. a switch housing; 42. a switch interface motherboard; 43. a switch cover plate; 5. a lifting assembly; 51. lifting the shell; 52. a spring; 53. a supporting plate; 54. a slide bar; 6. an inner heat sink assembly; 61. a cylinder; 62. a telescopic rod.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which are derived by a person skilled in the art based on the embodiments of the invention, fall within the scope of protection of the invention.

Referring to fig. 1-6: the industrial Ethernet exchanger comprises a supporting component 1, wherein the supporting component 1 is connected with a power component 2, an outer heat dissipation component 3, an exchanger component 4, a lifting component 5 and an inner heat dissipation component 6, the power component 2 is arranged at the top of the supporting component 1, the power component 2 penetrates through the supporting component 1, the outer heat dissipation component 3 is connected with the power component 2, the outer heat dissipation component 3 is connected with the lifting component 5, two ends of the exchanger component 4 are connected with the lifting component 5, and the inner heat dissipation component 6 is arranged in the exchanger component 4;

the power assembly 2 drives the outer heat dissipation assembly 3 to rotate, air flow generated by the outer heat dissipation assembly 3 faces the switch assembly 4, the outer heat dissipation assembly 3 works to drive the lifting assembly 5 to drive the switch assemblies 4 to ascend, the superposition state of the switch assemblies 4 is converted into a separation state, and a gap between the adjacent switch assemblies 4 is not smaller than 5cm;

the switch assembly 4 separates and simultaneously interior heat dissipation subassembly 6 starts for cooperate outer heat dissipation subassembly 3 to switch assembly 4 heat dissipation, let its dispersion when switch assembly 4 separates, the gaseous inflow that the air current produced is between the switch assembly 4 fast, utilize the rotatory setting of its outer heat dissipation subassembly 3, open switch assembly 4, can let the air current flow to in the switch assembly 4, the inside heat of switch assembly 4 is taken away fast, when the switch does not work, overlap each other between the switch assembly 4, the volume of equipment has been reduced.

The supporting component 1 comprises a left plate 11, a right plate 12, a top plate 13 and a heat dissipation net 14, wherein the tops of the left plate 11 and the right plate 12 are connected with the top plate 13, heat dissipation holes are formed in the middle of the left plate 11, the heat dissipation net 14 is embedded into the heat dissipation holes, the left plate 11, the right plate 12 and the top plate 13 form a U-shaped structure, the heat dissipation holes are arranged, and air flow generated by the fan 35 can be rapidly discharged from the directions of the heat dissipation holes.

The power component 2 comprises a motor 21, a support frame 22 and a motor shaft 23, one end of the support frame 22 is fixed at one end of the top plate 13, the other end of the support frame 22 is connected with the motor 21, the support frame 22 provides support for the motor 21, the output end of the motor 21 is connected with one end of the motor shaft 23 through a shaft key, the other end of the motor shaft 23 penetrates through a bearing of the top plate 13, the motor 21 is used for driving the motor shaft 23 to rotate in the top plate 13, and the motor shaft 23 and the output end of the motor 21 are simply installed and detached through the arrangement of the shaft key.

The outer heat dissipation assembly 3 comprises a worm 31, a turbine 32, a rotating shaft 33, an interface 34 and a fan 35, one end of the worm 31 is connected with a port of the motor shaft 23, the other end of the worm 31 is inserted into a bearing seat at the bottom of the right plate 12, and the bearing seat provides support and limit for the worm 31;

the rotation axis 33 distributes in worm 31 one side to in the bearing of right board 12 is inserted to the one end of rotation axis 33, has overlapped turbine 32 and interface 34 respectively on the other end of rotation axis 33, and wherein turbine 32 and worm 31 meshing, fan 35 cover is fixed on interface 34, and worm 31 and motor shaft 23 synchronous rotation, worm 31 drive turbine 32 rotation, then fan 35 rotates the air current that produces towards switch subassembly 4, and fan 35 is equipped with the multiunit, and the quantity that fan 35 set up matches with switch subassembly 4's quantity, and every fan 35 corresponds for every switch subassembly 4 heat dissipation.

The switch assembly 4 comprises a switch shell 41, a switch interface main board 42 and a switch cover plate 43, wherein the switch interface main board 42 is embedded in the front surface of the switch shell 41, a notch is arranged at the top of the switch shell 41, and the switch cover plate 43 covers the notch of the switch shell 41.

The worm 31 is provided with three sections of smooth parts, and the length of each section of smooth part is not more than 5cm, wherein the smooth parts are arranged, so that when the lifting shell 51 moves to the position of the smooth part, the worm 31 can always rotate positively, and the lifting shell 51 cannot move, so that the stability of moving equipment is maintained.

The lifting assembly 5 comprises a lifting shell 51, a spring 52, a supporting plate 53 and a sliding rod 54, wherein the two lifting shells 51 are respectively fixed with two sides of the switch shell 41, the supporting plate 53 is positioned right below the lifting shells 51, the supporting plate 53 is fixed with the outer walls of the left plate 11 and the right plate 12, and the position of the supporting plate 53 is fixed;

one end of the spring 52 is fixed on the supporting plate 53, the other end of the spring 52 is fixed with the bottom surface of the lifting shell 51, and as the rotation direction of the screw thread of the worm 31 is the same as the screw thread of the lifting shell 51, the lifting shell 51 can rotate in a smooth part when the worm 31 rotates, the switch shell 41 is always kept in a separated state and does not descend in cooperation with the resilience force of the spring 52, and under the reverse rotation of the worm 31, the rotation direction of the screw thread of the worm 31 is opposite to the screw thread of the lifting shell 51, the worm 31 rotates to drive the lifting shell 51 to descend, and the spring 52 is compressed;

the slide bar 54 is located at one side of the left plate 11, and the slide bar 54 is fixed to the top plate 13, the lifting case 51 at one side of the switch case 41 is engaged by the worm 31, the lifting case 51 at the other side of the switch case 41 is penetrated by the slide bar 54, when the worm 31 is rotated positively, the lifting case 51 is lifted while the fan 35 is rotated, the lifting case 51 is slowly rebounded by the compressed spring 52 in the lifting process until the lifting case 51 is moved to the smooth portion of the worm 31, the fan 35 is always rotated while the switch cases 41 are kept separated under the action of the spring 52 and the threads, and the air flow generated by the fan 35 is blown into the switch case 41.

The inner heat dissipation assembly 6 comprises an air cylinder 61 and a telescopic rod 62, one end of the air cylinder 61 is arranged on the bottom wall of the switch shell 41, the other end of the air cylinder 61 is connected with the telescopic rod 62, the top end of the telescopic rod 62 is movably connected with one edge of the switch cover plate 43 through a pin shaft, and the other edge of the switch cover plate 43 is movably connected with the notch edge of the switch shell 41 through a hinge.

The switch cover plate 43 rotates around the hinge under the action of the air cylinder 61, and the air flow generated by the fan 35 flows into the switch housing 41 under the drainage of the switch cover plate 43, so that heat in the switch housing 41 is taken away.

Through earlier with equipment separation back, let the air current flow into between the exchanger shell 41 fast, cooperation exchanger apron 43's upset setting, can be quick take away the inside heat of exchanger shell 41.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims (9)

1. An industrial Ethernet switch, characterized in that: it includes a support assembly (1), and the support assembly (1) is connected with a power assembly (2), an external cooling assembly (3), a switch assembly (4), and a lifting assembly (5) and the inner heat dissipation assembly (6), the power assembly (2) is arranged on the top of the support assembly (1), the power assembly (2) passes through the support assembly (1), the outer heat dissipation assembly (3) and the power assembly (2 ), the outer cooling assembly (3) is connected to the lifting assembly (5), the two ends of the switch assembly (4) are connected to the lifting assembly (5), and the inner cooling assembly (6) is placed in the switch assembly (4); The power component (2) drives the outer cooling component (3) to rotate, and the airflow generated by the outer cooling component (3) is directed toward the switch component (4), and the outer cooling component (3) drives the lifting component (5) to drive multiple switch components ( 4) Ascending, the stacked state of multiple switch components (4) changes to a separated state, and the gap between adjacent switch components (4) is not less than 5cm; while the switch components (4) are separated, the inner cooling component (6 ) to start, and is used to cooperate with the external heat dissipation assembly (3) to dissipate heat to the switch assembly (4). 2. An industrial Ethernet switch according to claim 1, characterized in that, the support assembly (1) comprises a left plate (11), a right plate (12), a top plate (13) and a cooling net (14 ), the top of the left plate (11) and the right plate (12) is connected with the top plate (13), the middle part of the left plate (11) is provided with cooling holes, and the cooling net (14) is embedded in the cooling holes. 3. A kind of industrial Ethernet switch according to claim 2, characterized in that, the power assembly (2) comprises a motor (21), a support frame (22) and a motor shaft (23), and the support frame (22 ) is fixed on one end of the top plate (13), the other end of the support frame (22) is connected with the motor (21), and the output end of the motor (21) is connected with an end of the motor shaft (23) by a shaft key, and the motor shaft ( The other end of 23) runs through the bearing of the top plate (13), and the motor (21) is used to drive the motor shaft (23) to rotate in the top plate (13). 4. An industrial Ethernet switch according to claim 3, characterized in that, the external cooling assembly (3) includes a worm (31), a turbine (32), a rotating shaft (33), and an interface (34) With the fan (35), one end of the worm (31) is connected to the port of the motor shaft (23), and the other end of the worm (31) is inserted into the bearing seat at the bottom of the right plate (12); The rotating shaft (33) is distributed on one side of the worm (31), and one end of the rotating shaft (33) is inserted into the bearing of the right plate (12), and the other end of the rotating shaft (33) is respectively covered with a turbine (32) and the interface (34), wherein the worm (32) and the worm (31) mesh, the fan (35) is sleeved on the interface (34) and fixed, the worm (31) and the motor shaft (23) rotate synchronously, and the worm (31) drives the turbine (32) rotates, and the airflow generated by the rotation of the fan (35) is directed towards the switch assembly (4). 5. A kind of industrial Ethernet switch according to claim 4, characterized in that, the switch assembly (4) comprises a switch shell (41), a switch interface main board (42) and a switch cover (43), the switch A switch interface main board (42) is embedded in the front of the shell (41), a gap is provided on the top of the switch shell (41), and a switch cover plate (43) covers the gap of the switch shell (41). 6. An industrial Ethernet switch according to claim 5, characterized in that, the worm (31) is provided with three smooth sections, and the length of each smooth section is no more than 5cm. 7. An industrial Ethernet switch according to claim 6, characterized in that, the lifting assembly (5) comprises a lifting shell (51), a spring (52), a pallet (53) and a slide bar (54 ), the two lifting shells (51) are respectively fixed to both sides of the switch shell (41), and the supporting plate (53) is located directly below the lifting shell (51), the supporting plate (53) and the left plate (11) Fix with the outer wall of right plate (12); One end of the spring (52) is fixed on the supporting plate (53), and the other end of the spring (52) is fixed to the bottom surface of the lift case (51); The slide bar (54) is located on one side of the left plate (11), and the slide bar (54) is fixed to the top plate (13), and the lifting shell (51) on one side of the switch housing (41) is engaged by the worm (31), The lift case (51) on the other side of the switch case (41) is penetrated by the slide rod (54). When the worm (31) rotates positively, the lift case (51) rises while the fan (35) rotates, and the lift case (51 ) in the process of rising, the compressed spring (52) slowly rebounds until the lifting shell (51) moves to the smooth part of the worm (31), then the fan (35) always rotates while multiple switch shells (41) Keeping apart under the action of springs and threads, the airflow generated by the fan (35) blows into the switch housing (41). 8. An industrial Ethernet switch according to claim 7, characterized in that, the inner cooling assembly (6) includes a cylinder (61) and a telescopic rod (62), and one end of the cylinder (61) is installed on the switch On the bottom wall of the housing (41), the other end of the cylinder (61) is connected to the telescopic rod (62), and the top of the telescopic rod (62) is movably connected to one edge of the switch cover (43) through a pin shaft, and the switch cover The other edge of (43) is movably connected with the gap edge of the switch shell (41) through a hinge. 9. An industrial Ethernet switch according to claim 8, characterized in that, the switch cover (43) rotates around the hinge under the action of the cylinder (61), and the airflow generated by the fan (35) flows through the switch The drainage of the cover plate (43) flows into the switch shell (41) and takes away the heat inside the switch shell (41).