CN209390601U - A kind of water conservancy information monitoring terminal - Google Patents

Abstract

The utility model relates to a kind of water conservancy information monitoring terminals, including electro-conductive glass shell, set on the information monitoring unit of the electro-conductive glass enclosure interior, on electro-conductive glass case top end face and spaced rectangular heat dissipation mouth and the radiating subassembly being respectively arranged at each rectangular heat dissipation mouth, the heat dissipation cavity of equidistant interval setting is equipped between adjacent rectangle thermovent, and the bottom of chamber of each heat dissipation cavity is equipped with the heat release hole being connected to electro-conductive glass enclosure interior；Each radiating subassembly includes the sliding slot on the inner wall of each thermovent two sides and being located at below each heat dissipation cavity, is active in each sliding slot and shape is the sliding block of " cylinder " and is fixedly connected with each sliding block and heat sink compatible with each thermovent, the top end surface and bottom end face of heat sink are equidistantly equipped at intervals with the radiating groove through each heat sink two sides, each radiating groove is connected to each heat dissipation cavity, is equipped with radiator on a side end face of each heat sink；The utility model has the beneficial effects that good heat dissipation effect.

Description

A kind of water conservancy information monitoring terminal

Technical field

The utility model relates to data acquisition equipment technical field, in particular to a kind of water conservancy information monitoring terminal.

Background technique

Water conservancy information monitoring terminal refers to the main data realized acquisition, store various types monitoring instrument and energy The data terminal unit with host computer data-transformation facility is completed, has the instrument of individual data processing function.

The permeability (thermal diffusivity) for the material that the water conservancy information monitoring terminal of the prior art uses is poor, device inside it The heat that operation generates is unable to get effective discharge, and since the heat dissipation effect that varying environment needs is different, and due to dissipating The defect of thermal effect difference, the device for easily causing it internal are scrapped.

Utility model content

In view of the deficienciess of the prior art, the purpose of this utility model is to provide a kind of water conservancy information monitoring terminal, Aim to solve the problem that the problem in above-mentioned background technique.

The technical solution of the utility model is achieved in that a kind of water conservancy information monitoring terminal, it is characterised in that: including Electro-conductive glass shell, set on the electro-conductive glass enclosure interior information monitoring unit, be set to electro-conductive glass case top end On face and spaced rectangular heat dissipation mouth and the radiating subassembly being respectively arranged at each rectangular heat dissipation mouth, adjacent rectangle thermovent Between be equipped with the heat dissipation cavity of equidistant interval setting, and the bottom of chamber of each heat dissipation cavity is equipped with several and electro-conductive glass enclosure interior The heat release hole of connection；Each radiating subassembly include the sliding slot on the inner wall of each thermovent two sides and being located at below each heat dissipation cavity, It is active in each sliding slot and shape is the sliding block of " cylinder " and is fixedly connected with each sliding block and compatible with each thermovent Heat sink, the top end surface and bottom end face of the heat sink are equidistantly equipped at intervals with the heat dissipation through each heat sink two sides Slot, each radiating groove are connected to each heat dissipation cavity, are equipped with radiator on a side end face of each heat sink；The radiator packet It includes and is fixedly connected with heat sink and the heat dissipation box of hollow setting, the separate heat sink side of the heat dissipation box is communicated with heat dissipation master Body；The heat sink body includes the deflector for being connected to and having diversion cavity with heat dissipation box, and the diversion cavity is from close to heat dissipation box One side is gradually reduced to the other side, the diversion cavity far from heat dissipation box one end be equipped with it is several with diversion cavity circumferentially setting and in Sky setting rectangle radiation shell, one end of each rectangle radiation shell be connected to diversion cavity and each rectangle radiation shell it is another From circumferentially spaced about arrangement, the surface of each rectangle radiation shell is evenly arranged intensive micropore at end；It is all provided in each heat dissipation box There is gas deflation assembly.

It is preferred that are as follows: the gas deflation assembly includes the motor being fixedly connected with one end inner wall of heat dissipation box and exports with motor The rotation axis being fixedly connected is held, the other end and heat dissipation box of the rotation axis are rotatablely connected far from one end of motor, and described turn The outer wall circumferentially extending of moving axis has spiral exhaust plate.

It is preferred that are as follows: the spiral exhaust plate extends outward far from several are equidistantly equipped at intervals on the end face of rotation axis Exhaust block.

It is preferred that are as follows: the top clearance of each heat dissipation cavity is equipped with control chamber, and is equipped in each control chamber and slides inside control chamber Dynamic control-rod, the extension rod that the bottom end face equidistant interval of the control-rod is fixedly connected, each extension rod is into heat dissipation cavity Extend and outer wall that part is located inside heat dissipation cavity is equipped with several baffles, the junction of each extension rod and heat dissipation cavity is logical Cross movable balls flexible connection；It is fixedly connected with control block at the top of the control-rod, one end of the control block is from the top of control chamber Portion is pierced by control chamber, and is equipped on electro-conductive glass shell and supplies the movable control flume of the control block.

It is preferred that are as follows: the limited block for limiting control block is rotatably connected on the electro-conductive glass shell.

By using above-mentioned technical proposal: the interference free performance of the monitor terminal can be improved in electro-conductive glass shell, effectively drops The low influence of outer its internal unit of bound pair, to guarantee the stable of its internal unit；Secondly, on electro-conductive glass shell The hot gas of electro-conductive glass enclosure interior can be effectively discharged in the radiating subassembly of setting, to guarantee electro-conductive glass enclosure interior Device normal operation and the service life for improving it, moreover, the multiple radiating subassemblies being arranged on electro-conductive glass shell Between can also carry out the heat dissipation that multiple gears are realized in cooperation, it may be assumed that realize different radiating efficiencys；In more detail: (one), First grade, it may be assumed that each radiator is respectively positioned on electro-conductive glass enclosure interior, at this point, the hot gas of electro-conductive glass enclosure interior passes through Its internal hot gas is expelled to the radiating groove being arranged on each heat sink by the heat release hole being connected to each heat dissipation cavity, thus by conductive glass The hot gas of glass enclosure interior is effectively discharged；(secondly), second gear, it may be assumed that by between two phase radiating subassemblies heat sink overturn (overturning refers specifically to: sliding block being slided to from one section of sliding slot to the other end and at the same time overturns heat sink, so that far from sliding The sliding slot portions proximate of one end of block and sliding block initial position, to realize overturning), by the radiating subassembly being arranged thereon overturn to The outside of electro-conductive glass shell drives rotation axis connected to it by the motor being arranged in heat dissipation box, so that rotation axis outer wall Hot gas is discharged the helix exhaustion plate of setting by the micropore being arranged on rectangle radiation shell, to realize to conductive glass Effective discharge of hot gas in glass shell；(thirdly), third gear: conduction will be set to by the upper radiator being arranged between two heat sinks The radiator for being set to electro-conductive glass enclosure interior two sides is overturn to electro-conductive glass hull outside, is led to by inside glass shell The radiator for crossing the setting of electro-conductive glass enclosure interior detaches the hot gas of electro-conductive glass enclosure interior, and guides to its two sides And the radiator being respectively equipped with outside electro-conductive glass shell radiates, to realize intracorporal to electro-conductive glass shell efficiently scattered Heat, so, the heat dissipation effect of electro-conductive glass shell under various circumstances, Ji Nengbao can be separately adapted to by above-mentioned a variety of gears Its heat dissipation effect is demonstrate,proved, and can guarantee that its operation is smooth；It should be understood that (one), spiral exhaust plate are far from rotation The purpose for the exhaust block that several extend outward is equidistantly equipped at intervals on the end face of axis: since the spiral of helix exhaustion plate is prolonged The exhaust block misaligned interval setting so that the setting of its surface is stretched, can further improve the discharge to electro-conductive glass enclosure interior hot gas Efficiency；(secondly), the control-rod that is arranged in control chamber can be by the cooperation of limited block and control block so that it controls heat dissipation cavity Internal baffle realizes different water conservancy diversion directions, to meet the different diversion effect of a variety of gears, and then improves to conduction Inside glass shell effectively radiates.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, before not making the creative labor property It puts, is also possible to obtain other drawings based on these drawings.

Fig. 1 is specific embodiment of the present invention structural schematic diagram；

Fig. 2 is the structural schematic diagram of heat sink in specific embodiment of the present invention；

Fig. 3 is the structural schematic diagram in specific embodiment of the present invention inside heat dissipation box；

Fig. 4 is the portion the A enlarged drawing in Fig. 1.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without creative efforts Every other embodiment obtained, fall within the protection scope of the utility model.

As shown in Figure 1 to 4, specific in the utility model the utility model discloses a kind of water conservancy information monitoring terminal In embodiment, led including electro-conductive glass shell 1, the information monitoring unit 10 inside the electro-conductive glass shell 1, set on described In electric 1 top end surface of glass shell and spaced rectangular heat dissipation mouth 2 and the heat dissipation being respectively arranged at each rectangular heat dissipation mouth 2 Component 20 is equipped with the heat dissipation cavity 21 of equidistant interval setting between adjacent rectangle thermovent 2, and the bottom of chamber of each heat dissipation cavity 21 is all provided with The heat release hole 210 for having several and being connected to inside electro-conductive glass shell 1；Each radiating subassembly 20 includes being set to 2 liang of each thermovent On the inner wall of side and it is located at the sliding slot 200 of 21 lower section of each heat dissipation cavity, is active in each sliding slot 200 and shape is the sliding block of " cylinder " It 201 and is fixedly connected with each sliding block 201 and heat sink 202 compatible with each thermovent 2, the top of the heat sink 202 End face and bottom end face are equidistantly equipped at intervals with the radiating groove 2020 through each 202 two sides of heat sink, each radiating groove equal 2020 It is connected to each heat dissipation cavity 21, is equipped with radiator 4 on a side end face of each heat sink 202；The radiator 4 includes and dissipates Hot plate 202 is fixedly connected and the heat dissipation box 40 of hollow setting, and 202 side of separate heat sink of the heat dissipation box 40 is communicated with heat dissipation Main body 41；The heat sink body 41 includes the deflector 410 for being connected to and having diversion cavity 4100 with heat dissipation box 40, the diversion cavity 4100 are gradually reduced from the side close to heat dissipation box 40 to the other side, and the diversion cavity 4100 is equipped with far from one end of heat dissipation box 40 Several rectangle radiation shells 411 with the circumferential setting of diversion cavity 4100 and hollow setting, one end of each rectangle radiation shell 411 It is connected to diversion cavity 4100 and the other end of each rectangle radiation shell 411 is from circumferentially spaced about arrangement, each rectangle heat dissipation The surface of shell 411 is evenly arranged intensive micropore 4110；Gas deflation assembly 5 is equipped in each heat dissipation box 40.

In the utility model specific embodiment, the gas deflation assembly 5 includes and the fixed company of one end inner wall of heat dissipation box 40 The motor 50 connect and the rotation axis 51 being fixedly connected with 50 output end of motor, the other end and heat dissipation box 40 of the rotation axis 51 One end far from motor 50 is rotatablely connected, and the outer wall circumferentially extending of the rotation axis 51 has spiral exhaust plate 52.

In the utility model specific embodiment, between equidistant on the end face of the spiral exhaust plate 52 far from rotation axis 51 Every the exhaust block 53 extended outward equipped with several.

In the utility model specific embodiment, the top clearance of each heat dissipation cavity 21 is equipped with control chamber 6, and in each control chamber The control-rod 61 in 6 internal slide of control chamber is equipped in 6, what the bottom end face equidistant interval of the control-rod 61 was fixedly connected prolongs Boom 62, the outer wall that each extension rod 62 extends into heat dissipation cavity 21 and part is located inside heat dissipation cavity 21 are led equipped with several Block 63 is flowed, each extension rod 62 passes through movable balls 64 with the junction of heat dissipation cavity 21 and is flexibly connected；The top of the control-rod 61 It is fixedly connected with control block 65, the top of one end from the control chamber 6 of the control block 65 is pierced by control chamber 6, and in electro-conductive glass shell Body 1, which is equipped with, supplies the movable control flume 66 of the control block 65.

In the utility model specific embodiment, it is rotatably connected on the electro-conductive glass shell 1 for limiting control block 65 limited block 7.

By using above-mentioned technical proposal: the interference free performance of the monitor terminal can be improved in electro-conductive glass shell, effectively drops The low influence of outer its internal unit of bound pair, to guarantee the stable of its internal unit；Secondly, on electro-conductive glass shell The hot gas of electro-conductive glass enclosure interior can be effectively discharged in the radiating subassembly of setting, to guarantee electro-conductive glass enclosure interior Device normal operation and the service life for improving it, moreover, the multiple radiating subassemblies being arranged on electro-conductive glass shell Between can also carry out the heat dissipation that multiple gears are realized in cooperation, it may be assumed that realize different radiating efficiencys；In more detail: (one), First grade, it may be assumed that each radiator is respectively positioned on electro-conductive glass enclosure interior, at this point, the hot gas of electro-conductive glass enclosure interior passes through Its internal hot gas is expelled to the radiating groove being arranged on each heat sink by the heat release hole being connected to each heat dissipation cavity, thus by conductive glass The hot gas of glass enclosure interior is effectively discharged；(secondly), second gear, it may be assumed that by between two phase radiating subassemblies heat sink overturn (overturning refers specifically to: sliding block being slided to from one section of sliding slot to the other end and at the same time overturns heat sink, so that far from sliding The sliding slot portions proximate of one end of block and sliding block initial position, to realize overturning), by the radiating subassembly being arranged thereon overturn to The outside of electro-conductive glass shell drives rotation axis connected to it by the motor being arranged in heat dissipation box, so that rotation axis outer wall Hot gas is discharged the helix exhaustion plate of setting by the micropore being arranged on rectangle radiation shell, to realize to conductive glass Effective discharge of hot gas in glass shell；(thirdly), third gear: conduction will be set to by the upper radiator being arranged between two heat sinks The radiator for being set to electro-conductive glass enclosure interior two sides is overturn to electro-conductive glass hull outside, is led to by inside glass shell The radiator for crossing the setting of electro-conductive glass enclosure interior detaches the hot gas of electro-conductive glass enclosure interior, and guides to its two sides And the radiator being respectively equipped with outside electro-conductive glass shell radiates, to realize intracorporal to electro-conductive glass shell efficiently scattered Heat, so, the heat dissipation effect of electro-conductive glass shell under various circumstances, Ji Nengbao can be separately adapted to by above-mentioned a variety of gears Its heat dissipation effect is demonstrate,proved, and can guarantee that its operation is smooth；It should be understood that (one), spiral exhaust plate are far from rotation The purpose for the exhaust block that several extend outward is equidistantly equipped at intervals on the end face of axis: since the spiral of helix exhaustion plate is prolonged The exhaust block misaligned interval setting so that the setting of its surface is stretched, can further improve the discharge to electro-conductive glass enclosure interior hot gas Efficiency；(secondly), the control-rod that is arranged in control chamber can be by the cooperation of limited block and control block so that it controls heat dissipation cavity Internal baffle realizes different water conservancy diversion directions, to meet the different diversion effect of a variety of gears, and then improves to conduction Inside glass shell effectively radiates.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this Within the spirit and principle of utility model, any modification, equivalent replacement, improvement and so on should be included in the utility model Protection scope within.

Claims (5)

1. a kind of water conservancy information monitoring terminal, it is characterised in that: including electro-conductive glass shell, be set to the electro-conductive glass enclosure interior Information monitoring unit, spaced rectangular heat dissipation mouth and set on electro-conductive glass case top end face and respectively Radiating subassembly at each rectangular heat dissipation mouth is equipped with the heat dissipation cavity of equidistant interval setting between adjacent rectangle thermovent, and each The bottom of chamber of heat dissipation cavity is equipped with several heat release holes being connected to electro-conductive glass enclosure interior；Each radiating subassembly includes being set to respectively On the inner wall of thermovent two sides and be located at below each heat dissipation cavity sliding slot, be active in each sliding slot and shape is the sliding block of " cylinder " And it is fixedly connected with each sliding block and heat sink compatible with each thermovent, the top end surface and bottom end of the heat sink Face is equidistantly equipped at intervals with the radiating groove through each heat sink two sides, and each radiating groove is connected to each heat dissipation cavity, each heat sink Radiator is equipped on one side end face；The radiator includes being fixedly connected with heat sink and the heat dissipation box of hollow setting, The separate heat sink side of the heat dissipation box is communicated with heat sink body；The heat sink body includes being connected to and having to lead with heat dissipation box The deflector of chamber is flowed, the diversion cavity is gradually reduced from the side close to heat dissipation box to the other side, and the diversion cavity is far from heat dissipation One end of box be equipped with it is several with diversion cavity circumferentially setting and hollow setting rectangle radiation shells, the one of each rectangle radiation shell End is connected to diversion cavity and the other end of each rectangle radiation shell is from circumferentially spaced about arrangement, the table of each rectangle radiation shell Face is evenly arranged intensive micropore；Gas deflation assembly is equipped in each heat dissipation box.

2. a kind of water conservancy information monitoring terminal according to claim 1, it is characterised in that: the gas deflation assembly includes and dissipates The motor and the rotation axis being fixedly connected with motor output end that one end inner wall of hot box is fixedly connected, the rotation axis it is another End and heat dissipation box are rotatablely connected far from one end of motor, and the outer wall circumferentially extending of the rotation axis has spiral exhaust plate.

3. a kind of water conservancy information monitoring terminal according to claim 2, it is characterised in that: the spiral exhaust plate is separate Several exhaust blocks extended outward are equidistantly equipped at intervals on the end face of rotation axis.

4. a kind of water conservancy information monitoring terminal according to claim 1 or 2 or 3, it is characterised in that: the top of each heat dissipation cavity Gap is equipped with control chamber, and the control-rod in control chamber internal slide, the bottom end of the control-rod are equipped in each control chamber The extension rod that face equidistant interval is fixedly connected, each extension rod extends into heat dissipation cavity and part is located at the outer wall inside heat dissipation cavity Several baffles are equipped with, each extension rod passes through movable balls with the junction of heat dissipation cavity and is flexibly connected；The control-rod Top is fixedly connected with control block, and one end of the control block is pierced by control chamber from the top of control chamber, and in electro-conductive glass shell It is equipped with and supplies the movable control flume of the control block.

5. a kind of water conservancy information monitoring terminal according to claim 4, it is characterised in that: turn on the electro-conductive glass shell The dynamic limited block being connected with for limiting control block.