阅读说明：本技术 一种基于eplan平台的智能控制机柜系统 (Intelligent control cabinet system based on EPLAN platform ) 是由 梁燕清 于 2021-07-26 设计创作，主要内容包括：本发明涉及智能控制机柜技术领域,具体涉及一种基于EPLAN平台的智能控制机柜系统；智能控制机柜本体位于底座的上方,柜门位于智能控制机柜本体的侧边,隔板位于智能控制机柜本体的内部,每组降噪组件分别位于智能控制机柜本体的两侧边,温度传感器设置于智能控制机柜本体的内部,降温组件位于隔板下方,通过底座对智能控制机柜本体进行支撑,柜门设置于智能控制机柜本体的侧边,降噪组件设置于智能控制机柜本体的两侧边,能够对其进行降噪,降温组件设置于隔板的下方,便能够对智能控制机柜本体的内部进行降温处理,从而能够延长其使用寿命。(The invention relates to the technical field of intelligent control cabinets, in particular to an intelligent control cabinet system based on an EPLAN platform; the intelligent control cabinet body is located above the base, the cabinet door is located on the side edge of the intelligent control cabinet body, the partition board is located inside the intelligent control cabinet body, each noise reduction assembly is located on two side edges of the intelligent control cabinet body, the temperature sensor is arranged inside the intelligent control cabinet body, the cooling assemblies are located below the partition board, the intelligent control cabinet body is supported through the base, the cabinet door is arranged on the side edge of the intelligent control cabinet body, the noise reduction assemblies are arranged on two side edges of the intelligent control cabinet body and can be subjected to noise reduction, the cooling assemblies are arranged below the partition board, the inside of the intelligent control cabinet body can be subjected to cooling treatment, and the service life of the intelligent control cabinet body can be prolonged.)

1. An intelligent control cabinet system based on an EPLAN platform is characterized in that,

the intelligent control cabinet system based on the EPLAN platform comprises a base, an intelligent control cabinet body, cabinet doors, partition plates, noise reduction assemblies, temperature sensors and cooling assemblies, wherein the intelligent control cabinet body is fixedly connected with the base and positioned above the base, the cabinet doors are movably connected with the intelligent control cabinet body and positioned at the side edges of the intelligent control cabinet body, the partition plates are fixedly connected with the intelligent control cabinet body and positioned inside the intelligent control cabinet body, the number of the noise reduction assemblies is two, each noise reduction assembly is respectively fixedly connected with the intelligent control cabinet body and positioned at the two side edges of the intelligent control cabinet body, the temperature sensors are arranged inside the intelligent control cabinet body, and the cooling assemblies are fixedly connected with the intelligent control cabinet body, and is positioned below the baffle plate;

every group the subassembly of making an uproar falls including inhaling sound layer, first sound absorbing hole, inhaling sound passageway and second and inhale the sound hole, inhale the sound layer set up in the side of intelligent control rack body, first sound absorbing hole set up in inhale the inner wall on sound layer, the second inhale the sound hole set up in inhale the outer wall on sound layer, inhale the sound passageway set up in first sound absorbing hole with the second inhales between the sound hole, just first sound absorbing hole with the sound hole appearance is the horn-shaped structure setting is inhaled to the second.

2. The EPLAN platform-based intelligent control cabinet system according to claim 1,

the noise reduction assembly further comprises a sound insulation layer, wherein the sound insulation layer is fixedly connected with the intelligent control cabinet body and is located on the inner side wall of the intelligent control cabinet body.

3. The EPLAN platform-based intelligent control cabinet system according to claim 2,

the noise reduction assembly further comprises a sound absorption plate, and the sound absorption plate is fixedly connected with the intelligent control cabinet body and is located on the rear side of the intelligent control cabinet body.

4. The EPLAN platform-based intelligent control cabinet system according to claim 3,

the cooling assembly comprises a conversion box, an air suction opening, a cold air converter, air suction pipes, a fan and an air outlet pipe, wherein the conversion box is arranged below the partition plate, the air suction opening is arranged below the conversion box, the cold air converter is arranged inside the conversion box, the number of the air suction pipes is two, and each air suction pipe is arranged on two side edges of the conversion box respectively, the number of the fans is two, each air suction pipe is arranged on one side edge of each air suction pipe, the number of the air outlet pipes is two, and each air outlet pipe is fixedly connected with one end of each air outlet pipe and penetrates through the partition plate.

5. The EPLAN platform-based intelligent control cabinet system according to claim 4,

the cooling subassembly still includes air conditioning diffusion section of thick bamboo, the quantity of air conditioning diffusion section of thick bamboo is two, every air conditioning diffusion section of thick bamboo respectively with go out tuber pipe fixed connection, and be located the top of going out the tuber pipe, and every the side of air conditioning diffusion section of thick bamboo all has a plurality of through-holes.

6. The EPLAN platform-based intelligent control cabinet system according to claim 5,

the intelligent control cabinet system based on the EPLAN platform further comprises a display screen, wherein the display screen is fixedly connected with the cabinet door and is positioned on the side edge of the cabinet door.

Technical Field

The invention relates to the technical field of intelligent control cabinets, in particular to an intelligent control cabinet system based on an EPLAN platform.

Background

At present, various cabinets indoors and outdoors exist in many industries such as mobile communication, electric power, telecommunication and the like in China, and the cabinets are used for protecting electronic equipment in various industries and prolonging the service life of the electronic equipment, so that the security protection and routing inspection management of the cabinets are necessary.

However, when the EPLAN platform is operated inside the intelligent control cabinet, great noise is generated, however, the existing intelligent control cabinet has poor sound insulation effect, the using effect is influenced, long-time operation is realized, large heat is generated inside, the temperature can not be timely reduced, and internal parts are easily damaged, so that the service life is influenced.

Disclosure of Invention

The invention aims to provide an intelligent control cabinet system based on an EPLAN platform, and aims to solve the technical problems that the existing intelligent control cabinet in the prior art is poor in sound insulation effect, the use effect is influenced, long-time operation is realized, large heat is generated inside the intelligent control cabinet, the intelligent control cabinet cannot be cooled in time, internal parts are easily damaged, and the service life is influenced.

In order to achieve the above purpose, the intelligent control cabinet system based on the EPLAN platform adopted by the invention comprises a base, an intelligent control cabinet body, cabinet doors, partition plates, noise reduction components, temperature sensors and cooling components, wherein the intelligent control cabinet body is fixedly connected with the base and positioned above the base, the cabinet doors are movably connected with the intelligent control cabinet body and positioned on the side edges of the intelligent control cabinet body, the partition plates are fixedly connected with the intelligent control cabinet body and positioned inside the intelligent control cabinet body, the number of the noise reduction components is two, each group of the noise reduction components is respectively fixedly connected with the intelligent control cabinet body and positioned on the two side edges of the intelligent control cabinet body, the temperature sensors are arranged inside the intelligent control cabinet body, the cooling assembly is fixedly connected with the intelligent control cabinet body and is positioned below the partition plate;

every group the subassembly of making an uproar falls including inhaling sound layer, first sound absorbing hole, inhaling sound passageway and second and inhale the sound hole, inhale the sound layer set up in the side of intelligent control rack body, first sound absorbing hole set up in inhale the inner wall on sound layer, the second inhale the sound hole set up in inhale the outer wall on sound layer, inhale the sound passageway set up in first sound absorbing hole with the second inhales between the sound hole, just first sound absorbing hole with the sound hole appearance is the horn-shaped structure setting is inhaled to the second.

The base is right the intelligent control rack body supports, the cabinet door set up in the side of intelligent control rack body, the baffle set up in the inside of intelligent control rack body, the subassembly of making an uproar that falls set up in the both sides limit of intelligent control rack body can fall it and make an uproar, temperature sensor set up in the inside of intelligent control rack body, the subassembly of cooling set up in the below of baffle, just can be right the inside of intelligent control rack body is cooled down and is handled to can prolong its life.

The noise reduction assembly further comprises a sound insulation layer, wherein the sound insulation layer is fixedly connected with the intelligent control cabinet body and is located on the inner side wall of the intelligent control cabinet body.

The noise reduction assembly can be assisted in noise reduction.

The noise reduction assembly further comprises a sound absorption plate, wherein the sound absorption plate is fixedly connected with the intelligent control cabinet body and is positioned on the rear side of the intelligent control cabinet body.

Strengthen the sound absorption effect, improve and fall and make an uproar.

Wherein, the cooling subassembly includes transfer box, inlet scoop, cold wind converter, aspiration channel, fan and tuber pipe, the transfer box set up in the below of baffle, the inlet scoop set up in the below of transfer box, the cold wind converter set up in the inside of transfer box, the quantity of aspiration channel is two, every the aspiration channel set up respectively in the both sides limit of transfer box, the quantity of fan is two, every the side of aspiration channel all is provided with the fan, the quantity of tuber pipe is two, every the one end of tuber pipe with fan fixed connection, every the other end of tuber pipe runs through the baffle.

The cooling assembly can cool the inside of the intelligent control cabinet body to protect the intelligent control cabinet body.

Wherein, the cooling subassembly still includes air conditioning diffusion section of thick bamboo, the quantity of air conditioning diffusion section of thick bamboo is two, every air conditioning diffusion section of thick bamboo respectively with go out tuber pipe fixed connection, and be located the top of going out the tuber pipe, and every the side of air conditioning diffusion section of thick bamboo all has a plurality of through-holes.

The cold air diffusion cylinder can diffuse cold air in the intelligent control cabinet body.

The intelligent control cabinet system based on the EPLAN platform further comprises a display screen, wherein the display screen is fixedly connected with the cabinet door and is positioned on the side edge of the cabinet door.

Can be convenient for observe in real time the inside temperature condition of intelligent control rack body.

According to the intelligent control cabinet system based on the EPLAN platform, when various control systems operate in the intelligent control cabinet body, generated noise passes through the sound absorption layer of the noise reduction assembly, the first sound absorption hole in the sound absorption layer absorbs the noise generated in the intelligent control cabinet body, the noise is weakened, then the first sound absorption hole passes through the sound absorption channel fixedly connected with the first sound absorption hole, the weakening of the noise is enhanced, the noise to be weakened passes through the second sound absorption hole, the weakening of the noise is enhanced through the second sound absorption hole, the noise is reduced to the minimum, the shapes of the first sound absorption hole and the second sound absorption hole are trumpet-shaped, the weakening effect of the noise can be enhanced, the good noise reduction effect is achieved, and the practicability is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an intelligent control cabinet system based on an EPLAN platform.

FIG. 2 is a front view of an EPLAN platform based intelligent control cabinet system of the present invention.

FIG. 3 is a side view of an EPLAN platform based intelligent control cabinet system of the present invention.

Fig. 4 is a cross-sectional view of the a-a line structure of fig. 3 of the present invention.

Fig. 5 is a partial enlarged view of the present invention at B of fig. 4.

Fig. 6 is a top view of the lighting assembly of the present invention.

1-base, 2-intelligent control cabinet body, 3-cabinet door, 4-partition board, 5-noise reduction assembly, 51-sound absorption layer, 52-first sound absorption hole, 53-sound absorption channel, 54-second sound absorption hole, 55-sound insulation layer, 56-sound absorption plate, 6-temperature sensor, 7-cooling assembly, 71-conversion box, 72-air suction port, 73-cold air converter, 74-air suction pipe, 75-fan, 76-air outlet pipe, 77-cold air diffusion cylinder, 78-through hole, 8-display screen, 9-lighting assembly, 91-sliding pipe, 92-sleeve, 93-pressing rod, 94-fixing block, 95-lighting lamp, 96-hole groove and 97-pressing block.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1 to 6, the present invention provides an intelligent control cabinet system based on an EPLAN platform, which includes a base 1, an intelligent control cabinet body 2, a cabinet door 3, a partition plate 4, noise reduction assemblies 5, a temperature sensor 6, and a cooling assembly 7, wherein the intelligent control cabinet body 2 is fixedly connected to the base 1 and located above the base 1, the cabinet door 3 is movably connected to the intelligent control cabinet body 2 and located at a side edge of the intelligent control cabinet body 2, the partition plate 4 is fixedly connected to the intelligent control cabinet body 2 and located inside the intelligent control cabinet body 2, the number of the noise reduction assemblies 5 is two, each of the noise reduction assemblies 5 is respectively fixedly connected to the intelligent control cabinet body 2 and located at two side edges of the intelligent control cabinet body 2, the temperature sensor 6 is arranged inside the intelligent control cabinet body 2, and the cooling component 7 is fixedly connected with the intelligent control cabinet body 2 and is positioned below the partition plate 4;

every group noise reduction unit 5 is including inhaling sound layer 51, first sound absorbing hole 52, inhale sound passageway 53 and second and inhale sound hole 54, inhale sound layer 51 set up in the side of intelligent control rack body 2, first sound absorbing hole 52 set up in inhale sound layer 51's inner wall, the second inhale sound hole 54 set up in inhale sound layer 51's outer wall, inhale sound passageway 53 set up in first sound absorbing hole 52 with the second inhales between the sound hole 54, just first sound absorbing hole 52 with the second is inhaled sound hole 54 appearance and is the setting of loudspeaker column structure.

In this embodiment, the base 1 supports the intelligent control cabinet body 2, the cabinet door 3 is disposed at a side of the intelligent control cabinet body 2, the partition plate 4 is disposed inside the intelligent control cabinet body 2, the noise reduction assembly 5 is disposed at two sides of the intelligent control cabinet body 2 and can reduce noise, the temperature sensor 6 is disposed inside the intelligent control cabinet body 2, the temperature reduction assembly 7 is disposed below the partition plate 4 and can reduce temperature inside the intelligent control cabinet body 2, so as to prolong the service life of the intelligent control cabinet body, when various control systems operate inside the intelligent control cabinet body 2, the generated noise passes through the sound absorption layer 51 of the noise reduction assembly 5, and the first sound absorption holes 52 inside the sound absorption layer 51 absorb the noise generated inside the intelligent control cabinet body 2, just, weaken its noise, first sound absorbing hole 52 just passes through fixed connection with it afterwards inhale sound passageway 53, strengthen the weakening to the noise, treat that the noise of weakening just passes through sound hole 54 is inhaled to the second, sound hole 54 is inhaled to the second just strengthens the weakening to the noise to it is minimum to fall the noise, just first sound absorbing hole 52 with sound hole 54 is inhaled to the second appearance is the loudspeaker form, can strengthen the weakening effect to the noise, thereby reaches better noise reduction effect, thereby improves the practicality.

Further, the noise reduction assembly 5 further comprises a sound insulation layer 55, wherein the sound insulation layer 55 is fixedly connected with the intelligent control cabinet body 2 and is located on the inner side wall of the intelligent control cabinet body 2.

In this embodiment, the sound insulation layer 55 is disposed inside the intelligent control cabinet body 2, and can assist the noise reduction assembly 5 to enhance the noise reduction effect, so as to reduce noise better.

Further, the noise reduction assembly 5 further comprises a sound absorption plate 56, wherein the sound absorption plate 56 is fixedly connected with the intelligent control cabinet body 2 and is located on the rear side of the intelligent control cabinet body 2.

In this embodiment, the sound absorbing board 56 is disposed at the rear side of the intelligent control cabinet body 2, so that when the internal system of the intelligent control cabinet body 2 operates, the sound absorbing board can assist the noise reduction assembly 5 to enhance the noise reduction effect of the intelligent control cabinet body 2.

Further, cooling component 7 includes conversion box 71, inlet scoop 72, cold wind converter 73, aspiration channel 74, fan 75 and air-out pipe 76, conversion box 71 set up in the below of baffle 4, inlet scoop 72 set up in the below of conversion box 71, cold wind converter 73 set up in the inside of conversion box 71, the quantity of aspiration channel 74 is two, every aspiration channel 74 set up respectively in the both sides limit of conversion box 71, the quantity of fan 75 is two, every the side of aspiration channel 74 all is provided with fan 75, the quantity of air-out pipe 76 is two, every the one end of air-out pipe 76 with fan 75 fixed connection, every the other end of air-out pipe 76 runs through baffle 4.

In the present embodiment, when a large amount of heat is generated inside the intelligent control cabinet body 2, the cooling component 7 inside the intelligent control cabinet body 2 is started, the cool air converter 73 of the cooling module 7 operates inside the converting box 71, and sucks the external air volume into the converting box 71 at the air suction opening 72 disposed below the converting box 71, and then, the cold air converter 73 converts the cold air into cold air, then the fans 75 on the two sides of the conversion box 71 are started, the converted cold air is injected into the air suction pipe 74 fixedly connected with the cold air converter, through fan 75 pour into to go out tuber pipe 76 department, it just injects cold wind into to go out tuber pipe 76 the top of baffle 4 is just right the inside processing of cooling down that carries on of intelligent control cabinet body 2 to increase of service life.

Further, cooling subassembly 7 still includes air conditioning diffuser 77, the quantity of air conditioning diffuser 77 is two, every air conditioning diffuser 77 respectively with play tuber pipe 76 fixed connection, and be located the top of play tuber pipe 76, and every air conditioning diffuser 77's side all has a plurality of through-holes 78.

In this embodiment, every the equal fixedly connected with in top of tuber pipe 76 air conditioning diffuser 77 is passing through air conditioning diffuser 77 effluvium the back, can strengthen the diffusion effect to air conditioning, and every air conditioning diffuser 77's lateral wall all is provided with through-hole 78 just can spread air conditioning to strengthen the cooling effect.

Further, the intelligent control cabinet system based on the EPLAN platform further comprises a display screen 8, wherein the display screen 8 is fixedly connected with the cabinet door 3 and is positioned on the side edge of the cabinet door 3.

In this embodiment, the display screen 8 set up in the side of cabinet door 3 can pass through the display screen 8 knows the inside temperature condition of intelligent control cabinet body 2 to the operating personnel of being convenient for uses it.

Further, the intelligent control cabinet system based on the EPLAN platform further comprises two groups of lighting assemblies 9, wherein the number of the lighting assemblies 9 is two, and each group of the lighting assemblies 9 is respectively and fixedly connected with the partition plate 4 and is positioned on two side edges of the partition plate 4.

In this embodiment, lighting assembly 9 set up in the top of baffle 4, if need right when the inside of intelligent control rack body 2 overhauls, lighting assembly 9 just can throw light on it to supplementary maintenance personal overhauls it, it is very convenient.

Further, each group of the lighting assemblies 9 includes a sliding tube 91, a sleeve 92, a pressing rod 93, a fixing block 94 and a lighting lamp 95, the sliding tube 91 is fixedly connected with the partition plate 4 and is located above the partition plate 4, the sleeve 92 is sleeved outside the sliding tube 91, a hole groove 96 is formed in a side edge of the sleeve 92, the pressing rod 93 penetrates through the hole groove 96 and abuts against the sliding tube 91, the fixing block 94 is disposed on a side edge of the sleeve 92, and the lighting lamp 95 is disposed on a side edge of the fixing block 94.

In this embodiment, when the maintenance personnel is to perform maintenance, the maintenance personnel holds the sleeve 92, adjusts an appropriate position on the slide pipe 91, presses the pressing rod 93 with a thumb after the adjustment is completed, fixes the sleeve 92 through the hole groove 96 on the side of the sleeve 92 by the pressing rod 93, and then the fixing block 94 is disposed on the side of the sleeve 92, supports the illumination lamp 95 with the fixing block 94, and illuminates the illumination lamp 95, thereby facilitating the maintenance and being very convenient.

Further, each group of the lighting assemblies 9 further includes a pressing block 97, and the pressing block 97 is fixedly connected with the pressing rod 93 and is located on a side edge of the pressing rod 93.

In this embodiment, the pressing block 97 is provided on a side of the pressing rod 93, and the pressing block 97 can assist a maintenance worker in pressing and can enlarge a pressing surface, so that the pressing rod 93 can be inserted into the hole groove 96 to fix the sleeve 92.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.