CN116615015B

CN116615015B - Monitoring platform with initiative heat dissipation function

Info

Publication number: CN116615015B
Application number: CN202310888487.0A
Authority: CN
Inventors: 成青衡; 陈大为; 吕可
Original assignee: Guangdong Jianmian Intelligent Technology Co ltd
Current assignee: Guangdong Jianmian Intelligent Technology Co ltd
Priority date: 2023-07-19
Filing date: 2023-07-19
Publication date: 2023-10-31
Anticipated expiration: 2043-07-19
Also published as: CN116615015A

Abstract

The application discloses a monitoring platform with an active heat dissipation function, and particularly relates to the technical field of data monitoring.

Description

Monitoring platform with initiative heat dissipation function

Technical Field

The application relates to the technical field of data monitoring, in particular to a monitoring platform with an active heat dissipation function.

Background

The monitoring of digital application relates to the processing of data and the display of monitoring results, and when a large amount of data is handled to the monitor platform of current use, the load is great, can produce more heat, and current heat dissipation means adopts the forced air cooling to go on, realizes the circulation of air between monitor platform and the external world, realizes cooling heat dissipation, but when meeting external environment temperature too high, still is in the high temperature state in the air inflow monitor platform, and heat dissipation cooling treatment effect is not good, leads to its damage or trouble condition to appear easily, consequently needs a monitor platform with initiative heat dissipation function to solve above-mentioned problem.

Disclosure of Invention

In order to overcome the defects in the prior art, the application provides a monitoring platform with an active heat dissipation function, and the technical problems to be solved by the application are as follows: the existing monitoring platform adopts an air cooling mode to perform heat dissipation treatment, and can have external high temperature, so that the problem that the cooling treatment effect is poor due to the fact that the high temperature state still occurs after the internal and external air flow exchange exists.

In order to achieve the above purpose, the present application provides the following technical solutions: the utility model provides a monitor platform with initiative heat dissipation function, includes the monitor platform main part, be connected with the bottom sprag case under the monitor platform main part, the cavity is placed to first placing chamber and second is seted up to bottom sprag case lateral wall, the bleeder vent that runs through first placing chamber is seted up to the side of bottom sprag case, first placing chamber in-connection has the removal closing device, the connecting hole that communicates with first placing chamber has been seted up to the intracavity, the second is placed intracavity and is corresponded the position of removing closing device and be connected with extrusion piston device, extrusion piston device outside the intercommunication is equipped with sealed gasbag, sealed gasbag is established and is placed the intracavity and correspond the position of removing closing device in the second, be equipped with circulating assembly in the bottom sprag case, the outside intercommunication is equipped with cooling module, the outside intercommunication of bottom sprag case is equipped with the one-way air outlet valve, be equipped with the protection casing in the bottom sprag case, the removal controlling means runs through the card and establishes outside the bottom sprag case, be equipped with the switch controlling means who connects in the protection casing on the removal controlling device, the bottom sprag case is equipped with the cabinet door outward.

As a further aspect of the application: the movable sealing device comprises a movable sealing plate, the movable sealing plate is slidably arranged in a first placing cavity, a groove is formed in one side, far away from the extrusion piston device, of the movable sealing plate, an electric hydraulic rod is connected in the groove, the other end of the electric hydraulic rod is connected with the first placing cavity, a sealing groove is formed in the outer portion of the movable sealing plate, and the position of the sealing groove corresponds to the position of a sealing air bag.

As a further aspect of the application: the extrusion piston device comprises a piston frame, the piston frame is connected in a second placing cavity, a piston plate is arranged in the piston frame in a sliding mode, one side, close to a connecting hole, of the piston plate is connected with a moving rod, a sliding sleeve is sleeved outside the moving rod, the sliding sleeve penetrates through and is clamped outside the piston frame, a connecting pipe is arranged in the outer communication of the piston frame, and the other end of the connecting pipe is communicated with a sealing air bag.

As a further aspect of the application: the connecting pipe is communicated with the gas storage cavity on one side, far away from the connecting hole, in the piston frame, a first elastic component is connected to the outside of the piston plate, the other end of the first elastic component is connected with the piston frame, one end, located outside the piston frame, of the moving rod is connected with an extrusion plate, and the size of the extrusion plate is smaller than the size of the connecting hole.

As a further aspect of the application: the circulating assembly comprises a circulating fan, a fixed rod is connected to the lower portion of the circulating fan, the fixed rod is connected to the bottom supporting box, one side of the circulating fan is connected with an exhaust pipe, the other side of the circulating fan is connected with an air suction cover, and the position of the air suction cover corresponds to that of an air hole.

As a further aspect of the application: the cooling assembly comprises a cooling fan, the cooling fan is connected outside a bottom supporting box, an air outlet pipe is connected below the cooling fan, the air outlet pipe is clamped outside the bottom supporting box, the air outlet pipe is communicated with the bottom supporting box, and a connecting cover is connected to the cooling fan.

As a further aspect of the application: the movable control device comprises a heat insulation cylinder, the heat insulation cylinder is connected in the protective cover, a heat conduction cylinder is arranged outside the heat insulation cylinder in a communicating mode, the heat conduction cylinder is arranged outside the bottom support box in a penetrating mode in a clamping mode, a movable plate is arranged in the heat insulation cylinder in a sliding mode, a second elastic component is connected under the movable plate, and the other end of the second elastic component is connected with the heat insulation cylinder.

As a further aspect of the application: the movable plate is connected with a vertical rod, a guide sleeve is sleeved outside the vertical rod, the guide sleeve is arranged on the heat insulation cylinder in a penetrating mode, and the top end of the vertical rod is connected with the switch control device.

As a further aspect of the application: the switch control device comprises a first contact switch, a second contact switch, a third contact switch and a transverse plate, wherein the transverse plate is connected outside the mobile control device, and the first contact switch, the second contact switch and the third contact switch are all arranged in a protective cover.

As a further aspect of the application: electrode contact pieces are arranged at positions, corresponding to the first contact switch, the second contact switch and the third contact switch, outside the transverse plate, and the first contact switch is lapped with the electrode contact pieces.

The application has the beneficial effects that:

according to the application, when the outside air temperature is higher than a set value, the air in the heat conduction cylinder is heated and expanded, the movable plate moves upwards through the vertical rod, the electrode contact sheet at the lower side is separated from the first contact switch, the electrode contact sheet at the upper side is contacted with the second contact switch, the cooling fan stops working, the active refrigeration is realized to cool and dissipate heat of the bottom support box, the automatic cooling and cooling mode according to the outside environment is realized, and the air in the heat conduction cylinder is sufficiently and smoothly cooled and dissipated;

according to the application, the electric hydraulic rod, the third contact switch, the movable sealing plate, the ventilation holes, the sealing groove, the sealing air bag, the piston frame, the piston plate and the connecting pipe are arranged, when the third contact switch is in contact with the electrode contact piece, the cooling fan works, meanwhile, the electric hydraulic rod drives the movable sealing plate to move, the movable sealing plate presses the extrusion plate while shielding the ventilation holes, the extrusion plate controls the piston plate to move through the movable rod, the piston plate transfers gas in the piston frame to the sealing air bag through the connecting pipe, the sealing air bag expands and enters the sealing groove, the movable sealing plate seals the ventilation holes, the inside of the bottom supporting box is in a relatively sealed state, the great influence of external high temperature on the heat dissipation inside the bottom supporting box is avoided, and the refrigerating and heat dissipation of the cooling fan are ensured to be more efficient.

Drawings

FIG. 1 is a schematic view of a three-dimensional structure of the present application;

FIG. 2 is a schematic view of a three-dimensional cross-sectional structure of the present application;

FIG. 3 is a schematic view of a side view of the present application;

FIG. 4 is a schematic view of a rear view of the present application;

FIG. 5 is an enlarged schematic view of the portion A of FIG. 3 according to the present application;

FIG. 6 is a schematic view of a mobile closure device according to the present application;

FIG. 7 is a schematic view showing a three-dimensional cross-sectional structure of an extrusion piston device according to the present application;

FIG. 8 is a schematic view of a rear view of a protective cover according to the present application;

FIG. 9 is a schematic view of a three-dimensional cross-sectional structure of a motion control device according to the present application;

in the figure: 1. a monitoring platform body; 2. a bottom support box; 3. a cabinet door; 4. a first placement cavity; 5. a second placement cavity; 6. ventilation holes; 7. moving the closure device; 71. moving the sealing plate; 72. a groove; 73. an electric hydraulic rod; 74. sealing grooves; 8. a connection hole; 9. extruding the piston device; 91. a piston frame; 92. a piston plate; 93. a first elastic component; 94. a moving rod; 95. a sliding sleeve; 96. an extrusion plate; 97. a connecting pipe; 10. sealing the air bag; 11. a circulation assembly; 111. a circulating fan; 112. an exhaust pipe; 113. an air suction cover; 114. a fixed rod; 12. a cooling assembly; 121. a cooling fan; 122. an air outlet pipe; 123. a connection cover; 13. a one-way air outlet valve; 14. a protective cover; 15. a movement control device; 151. a heat insulation cylinder; 152. a heat conduction tube; 153. a moving plate; 154. a second elastic component; 155. a vertical rod; 156. a guide sleeve; 16. a switch control device; 161. a cross plate; 162. a first contact switch; 163. a second contact switch; 164. a third contact switch; 165. electrode contact.

Detailed Description

The following description of the embodiments of the present application 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 application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

1, as shown in fig. 1-7, the application provides a monitoring platform with an active heat dissipation function, which comprises a monitoring platform main body 1, wherein a bottom supporting box 2 is connected below the monitoring platform main body 1, a first placing cavity 4 and a second placing cavity 5 are formed in the side wall of the bottom supporting box 2, an air vent 6 penetrating through the first placing cavity 4 is formed in the side surface of the bottom supporting box 2, a movable sealing device 7 is connected in the first placing cavity 4, a connecting hole 8 communicated with the first placing cavity 4 is formed in the second placing cavity 5, an extrusion piston device 9 is connected in the position, corresponding to the movable sealing device 7, in the second placing cavity 5, a sealing air bag 10 is arranged outside the extrusion piston device 9, and after the sealing air bag 10 is inflated, the sealing air bag 10 is contacted with the movable sealing device 7, so that the sealing effect of the movable sealing device 7 on the air vent 6 is better;

the sealed air bag 10 is arranged at a position corresponding to the movable sealing device 7 in the second placing cavity 5, the circulation assembly 11 is arranged in the bottom supporting box 2, the cooling assembly 12 is arranged outside the bottom supporting box 2 in a communicating way, the one-way air outlet valve 13 is arranged outside the bottom supporting box 2 in a communicating way, when the bottom supporting box 2 is in a sealing state, the gas can be discharged through the one-way air outlet valve 13 when the gas in the bottom supporting box 2 needs to circulate for cooling, and the external high-temperature gas is prevented from entering the bottom supporting box 2 through the one-way air outlet valve 13;

the bottom support box 2 is connected with the protection cover 14, a movement control device 15 is arranged in the protection cover 14, the movement control device 15 is arranged outside the bottom support box 2 in a penetrating manner, a switch control device 16 connected in the protection cover 14 is arranged on the movement control device 15, and the cabinet door 3 is arranged outside the bottom support box 2.

The movable sealing device 7 comprises a movable sealing plate 71, the movable sealing plate 71 is slidably arranged in the first placing cavity 4, a groove 72 is formed in one side, far away from the extrusion piston device 9, of the movable sealing plate 71, an electric hydraulic rod 73 is connected to the groove 72, the other end of the electric hydraulic rod 73 is connected with the first placing cavity 4, a sealing groove 74 is formed outside the movable sealing plate 71, the position of the sealing groove 74 corresponds to the position of the sealing air bag 10, through the arrangement of the electric hydraulic rod 73, the movable sealing plate 71 can be controlled to move in the vertical direction, separation and contact between the movable sealing plate 71 and the ventilation holes 6 are controlled, and through the arrangement of the movable sealing plate 71 and the sealing groove 74, the sealing groove 74 is matched with the sealing air bag 10, so that the movable sealing plate 71 is in contact with the first placing cavity 4 more tightly.

The extruding piston device 9 comprises a piston frame 91, the piston frame 91 is connected in the second placing cavity 5, a piston plate 92 is arranged in the piston frame 91 in a sliding manner, one side, close to the connecting hole 8, of the piston plate 92 is connected with a moving rod 94, a sliding sleeve 95 is sleeved outside the moving rod 94, the sliding sleeve 95 penetrates through and is clamped outside the piston frame 91, a connecting pipe 97 is arranged outside the piston frame 91 in a communicating manner, and the other end of the connecting pipe 97 is communicated with the sealing air bag 10.

The connecting pipe 97 is communicated with a gas storage cavity in the piston frame 91 at one side far away from the connecting hole 8, the piston plate 92 is externally connected with a first elastic component 93, the other end of the first elastic component 93 is connected with the piston frame 91, one end of the moving rod 94 outside the piston frame 91 is connected with a squeezing plate 96, the size of the squeezing plate 96 is smaller than that of the connecting hole 8, the squeezing plate 96 is squeezed by the moving sealing plate 71 through arranging the piston frame 91, the piston plate 92, the moving rod 94 and the squeezing plate 96, the piston plate 92 can be controlled to move, the piston plate 92 moves in the piston frame 91 to transfer gas extrusion into the sealing air bag 10 through the connecting pipe 97, the expansion of the sealing air bag 10 is controlled, after the moving sealing plate 71 is separated from the squeezing plate 96, the first elastic component 93 can control the resetting of the piston plate 92, and the shrinkage of the sealing air bag 10 is controlled.

In embodiment 2, as shown in fig. 1-4, the circulation assembly 11 includes a circulation fan 111, a fixing rod 114 is connected under the circulation fan 111, the fixing rod 114 is connected in the bottom supporting box 2, one side of the circulation fan 111 is connected with an exhaust pipe 112, the other side of the circulation fan 111 is connected with an air suction cover 113, the position of the air suction cover 113 corresponds to the position of the air vent 6, by arranging the circulation fan 111, the exhaust pipe 112 and the air suction cover 113, when the circulation fan 111 works, external air can be sucked and discharged into the bottom supporting box 2 through the air suction cover 113, so that air in the bottom supporting box 2 circulates through the air vent 6, and heat dissipation is realized.

The cooling assembly 12 comprises a cooling fan 121, the cooling fan 121 is connected outside the bottom supporting box 2, an air outlet pipe 122 is connected below the cooling fan 121, the air outlet pipe 122 is clamped outside the bottom supporting box 2, the air outlet pipe 122 is communicated with the bottom supporting box 2, a connecting cover 123 is connected to the cooling fan 121, when the cooling fan 121 works, external air is pumped and actively cooled through the arrangement of the cooling fan 121, then the air is introduced into the bottom supporting box 2, and the cooling of the bottom supporting box 2 by low-temperature air is realized.

In embodiment 3, as shown in fig. 1, 3-4 and 8-9, the movement control device 15 includes a heat insulation cylinder 151, the heat insulation cylinder 151 is connected in the protection cover 14, a heat conduction cylinder 152 is arranged outside the heat insulation cylinder 151 in a communicating manner, the heat conduction cylinder 152 is arranged outside the bottom supporting box 2 in a penetrating and clamping manner, a movement plate 153 is arranged in the heat insulation cylinder 151 in a sliding manner, a second elastic component 154 is connected under the movement plate 153, and the other end of the second elastic component 154 is connected with the heat insulation cylinder 151.

The movable plate 153 is connected with the vertical rod 155, the guide sleeve 156 is sleeved outside the vertical rod 155, the guide sleeve 156 penetrates through the heat insulation barrel 151, the top end of the vertical rod 155 is connected with the switch control device 16, the heat conduction barrel 152 and the heat insulation barrel 151 are arranged, the heat conduction performance of the heat conduction barrel 152 is good, the gas temperature in the heat conduction barrel 152 is kept consistent with the external temperature, the gas at the upper side part of the heat insulation barrel 151 is kept at normal temperature, the movable plate 153 can be controlled to act by utilizing the pressure change caused by the external temperature and the pressure difference between normal temperature gas, when the external temperature is in a high-temperature condition, the movable plate 153 automatically moves upwards, and the second elastic component 154 controls the movable plate 153 to reset downwards when the external temperature is reduced to the room temperature.

The switch control device 16 includes a first contact switch 162, a second contact switch 163, a third contact switch 164, and a cross plate 161, the cross plate 161 being connected to the outside of the movement control device 15, the first contact switch 162, the second contact switch 163, and the third contact switch 164 being provided in the protective cover 14.

The positions of the transverse plate 161 corresponding to the first contact switch 162, the second contact switch 163 and the third contact switch 164 are respectively provided with an electrode contact 165, the first contact switch 162 is lapped with the electrode contact 165, the first contact switch 162 is connected with the circulating fan 111, when the first contact switch 162 is in a high-temperature condition outside, the circulating fan 111 automatically stops working after the first contact switch 162 is separated from the electrode contact 165, the second contact switch 163 is connected with the cooling fan 121, the third contact switch 164 is connected with the electric hydraulic rod 73, the electrode contact 165 is contacted with the second contact switch 163 when the outside is in a high-temperature condition, and the cooling fan 121 and the electric hydraulic rod 73 automatically work.

The working principle of the application is as follows:

when the outside air temperature is lower than the set value, the transverse plate 161 is at a lower position, the electrode contact 165 is contacted with the first contact switch 162, the first contact switch 162 controls the circulating fan 111 to work, the circulating fan 111 pumps outside air into the bottom supporting box 2 and discharges the outside air through the air holes 6, when the outside air temperature is higher than the set value, air in the heat conducting barrel 152 is heated and expanded, the air pressure added to the lower part of the heat insulating barrel 151 controls the moving plate 153 to move, the moving plate 153 controls the transverse plate 161 to move upwards through the vertical rod 155, the electrode contact 165 on the lower side is separated from the first contact switch 162, the electrode contact 165 on the upper side is contacted with the second contact switch 163 and the third contact switch 164, the circulating fan 111 stops working at the moment, the second contact switch 163 is communicated with the cooling fan 121 to work, and the third contact switch 164 controls the electric hydraulic rod 73 to work, so that active refrigeration is realized to cool the bottom supporting box 2.

The electric hydraulic rod 73 drives the movable sealing plate 71 to move, the movable sealing plate 71 shields the air holes 6 and presses the extruding plate 96, the extruding plate 96 controls the piston plate 92 to move through the moving rod 94, the piston plate 92 moves in the piston frame 91, the piston plate 92 transfers air in the piston frame 91 into the sealing air bag 10 through the connecting pipe 97, the sealing air bag 10 expands and enters the sealing groove 74, the movable sealing plate 71 seals the air holes 6, after the movable sealing plate 71 comprehensively shields the air holes 6, the electric hydraulic rod 73 stops working, the inside of the bottom supporting box 2 is in a relatively sealed state, the cooling fan 121 sucks outside air to cool and then flows into the bottom supporting box 2, and air in the bottom supporting box 2 is discharged through the one-way air outlet valve 13, so that cooling and heat dissipation of the bottom supporting box 2 are realized.

The last points to be described are: first, in the description of the present application, it should be noted that, unless otherwise specified and defined, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be mechanical or electrical, or may be a direct connection between two elements, and "upper," "lower," "left," "right," etc. are merely used to indicate relative positional relationships, which may be changed when the absolute position of the object being described is changed;

secondly: in the drawings of the disclosed embodiments, only the structures related to the embodiments of the present disclosure are referred to, and other structures can refer to the common design, so that the same embodiment and different embodiments of the present disclosure can be combined with each other under the condition of no conflict;

finally: the foregoing description of the preferred embodiments of the application is not intended to limit the application to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the application are intended to be included within the scope of the application.

Claims

1. The utility model provides a monitor platform with initiative heat dissipation function, includes monitor platform main part (1), its characterized in that: the monitoring platform is characterized in that a bottom supporting box (2) is connected under the monitoring platform main body (1), a first placing cavity (4) and a second placing cavity (5) are formed in the side wall of the bottom supporting box (2), an air vent (6) penetrating through the first placing cavity (4) is formed in the side face of the bottom supporting box (2), a movable sealing device (7) is connected in the first placing cavity (4), a connecting hole (8) communicated with the first placing cavity (4) is formed in the second placing cavity (5), an extrusion piston device (9) is connected to the position corresponding to the movable sealing device (7) in the second placing cavity (5), a sealing air bag (10) is arranged in the outer communication of the extrusion piston device (9), a circulating assembly (11) is arranged in the second placing cavity (5), a cooling assembly (12) is arranged in the outer communication of the bottom supporting box (2), a one-way protection cover (13) is arranged in the outer communication of the bottom supporting box (2), a control device (14) is connected to the outer side of the bottom supporting box (2), and a control device (15) is arranged in the outer communication device (14), the mobile control device (15) is provided with a switch control device (16) connected in the protective cover (14), and a cabinet door (3) is arranged outside the bottom supporting box (2);

the movable sealing device (7) comprises a movable sealing plate (71), the movable sealing plate (71) is arranged in the first placing cavity (4) in a sliding mode, a groove (72) is formed in one side, far away from the extrusion piston device (9), of the movable sealing plate (71), an electric hydraulic rod (73) is connected in the groove (72), the other end of the electric hydraulic rod (73) is connected with the first placing cavity (4), a sealing groove (74) is formed in the outer portion of the movable sealing plate (71), and the position of the sealing groove (74) corresponds to the position of the sealing air bag (10);

the extrusion piston device (9) comprises a piston frame (91), the piston frame (91) is connected in the second placement cavity (5), a piston plate (92) is arranged in the piston frame (91) in a sliding mode, one side, close to the connecting hole (8), of the piston plate (92) is connected with a moving rod (94), a sliding sleeve (95) is sleeved outside the moving rod (94), the sliding sleeve (95) is arranged outside the piston frame (91) in a penetrating mode, a connecting pipe (97) is arranged outside the piston frame (91) in a communicating mode, and the other end of the connecting pipe (97) is communicated with the sealing air bag (10);

the connecting pipe (97) is communicated with a gas storage cavity in the piston frame (91) at one side far away from the connecting hole (8), a first elastic component (93) is connected to the outside of the piston plate (92), the other end of the first elastic component (93) is connected with the piston frame (91), one end of the moving rod (94) positioned outside the piston frame (91) is connected with a squeezing plate (96), and the size of the squeezing plate (96) is smaller than that of the connecting hole (8);

the circulating assembly (11) comprises a circulating fan (111), a fixed rod (114) is connected under the circulating fan (111), the fixed rod (114) is connected in the bottom supporting box (2), one side of the circulating fan (111) is connected with an exhaust pipe (112), the other side of the circulating fan (111) is connected with an air suction cover (113), and the position of the air suction cover (113) corresponds to the position of the air vent (6);

the cooling assembly (12) comprises a cooling fan (121), the cooling fan (121) is connected outside the bottom supporting box (2), an air outlet pipe (122) is connected below the cooling fan (121), the air outlet pipe (122) is clamped outside the bottom supporting box (2), the air outlet pipe (122) is communicated with the bottom supporting box (2), and a connecting cover (123) is connected to the cooling fan (121);

the switch control device (16) comprises a first contact switch (162), a second contact switch (163), a third contact switch (164) and a transverse plate (161), wherein the transverse plate (161) is connected outside the mobile control device (15), and the first contact switch (162), the second contact switch (163) and the third contact switch (164) are all arranged in the protective cover (14);

electrode contact pieces (165) are arranged at positions, corresponding to the first contact switch (162), the second contact switch (163) and the third contact switch (164), outside the transverse plate (161), and the first contact switch (162) is lapped with the electrode contact pieces (165).

2. The monitoring platform with active heat dissipation function according to claim 1, wherein: the mobile control device (15) comprises a heat insulation cylinder (151), the heat insulation cylinder (151) is connected in a protective cover (14), a heat conduction cylinder (152) is arranged outside the heat insulation cylinder (151) in an externally communicated mode, the heat conduction cylinder (152) is arranged outside a bottom supporting box (2) in a penetrating mode, a mobile plate (153) is arranged in the heat insulation cylinder (151) in a sliding mode, a second elastic component (154) is connected under the mobile plate (153), and the other end of the second elastic component (154) is connected with the heat insulation cylinder (151).

3. The monitoring platform with active heat dissipation function according to claim 2, wherein: the movable plate (153) is connected with a vertical rod (155), a guide sleeve (156) is sleeved outside the vertical rod (155), the guide sleeve (156) is arranged on the heat insulation cylinder (151) in a penetrating mode, and the top end of the vertical rod (155) is connected with the switch control device (16).