CN114423263B - Outdoor communication machine room with high heat exchange performance - Google Patents

Abstract

The invention discloses a high-heat-exchange-performance outdoor communication machine room, which belongs to the field of communication machine rooms and comprises a machine room body, wherein the lower inner wall of the machine room body is fixedly connected with a temperature sensing bottom plate, communication equipment is arranged at the upper end of the temperature sensing bottom plate, a plurality of temperature sensing cylinders matched with the communication equipment are fixedly connected in the temperature sensing bottom plate, and the upper ends of the temperature sensing cylinders extend to the outer side of the temperature sensing bottom plate, so that the heat condition at the bottom of the machine room body can be sensed and deformed through a thermal deformation arc sleeve, the temperature sensing cylinders, a conical top block, an elastic sealing sheet and a dragging assembly are matched to act, instantaneous impact pressurization can be carried out on hot air at the bottom of the machine room body, the pressing effect of downward cold air in the machine room body is broken, the heat exchange efficiency in the machine room body is improved, the heat dissipation effect is effectively improved, and the phenomenon of false low-temperature environment in the machine room body is further reduced, the normal operation of the communication equipment is effectively ensured.

Description

Outdoor communication machine room with high heat exchange performance

Technical Field

The invention relates to the field of communication machine rooms, in particular to an outdoor communication machine room with high heat exchange performance.

Background

Over the years, data centers are increasingly generating more enthusiasm with the wide application of application technologies such as virtualization and cloud computing. This increase in hot star density seriously threatens the stable operation of data center equipment. If a local hot spot is generated at the top of the communication machine room, equipment overheating protection is easily caused, and system operation is affected. In order to solve the problems of heat dissipation and refrigeration of high-heat-density equipment in a data center, the method mainly comprises several modes of cooling by a precision air conditioner, solving local hot spots, an air exchange system, a heat exchanger system and the like.

At present, due to the consideration of factors such as expense, space, equipment quantity and the like, most units adopt a common air conditioner to integrally cool a machine room, and the equipped air conditioners comprise a cabinet air conditioner, an on-hook air conditioner, a central air conditioner and the like. The air conditioner can be installed and placed in combination with the communication equipment in the machine room in various position relations, and the refrigerating work and the energy-saving effect of the communication equipment are greatly different when the air conditioner is combined in different modes.

To outdoor communication computer lab, adopt the front end air inlet mostly, the form of rear end air-out dispels the heat, equipment rear exhaust hot-air, the cold air of central air conditioning is absorbed to the front panel, know by thermodynamics knowledge like this, the air of upper and lower extreme can produce the convection current, accelerate heat exhaust speed, but when this kind of convulsions heat dissipation formed, descending cold air still can form the suppression effect to the rising of hot-air to a certain extent, thereby destroy radiating effect, consequently also can appear false low temperature environment phenomenon, influence the equipment operation.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a high-heat-exchange outdoor communication machine room, which can sense and deform the heat condition at the bottom of a machine room body through a thermal deformation arc-shaped sleeve, so that a temperature sensing cylinder, a conical jacking block, an elastic sealing piece and a dragging assembly are matched to act, instantaneous impact pressurization can be carried out on hot air at the bottom of the machine room body, the suppression effect of downward cold air in the machine room body is broken, the heat exchange efficiency in the machine room body is improved, the heat dissipation effect is effectively improved, the phenomenon of a false low-temperature environment in the machine room body is further reduced, and the normal operation of communication equipment is effectively ensured.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A high-heat-exchange outdoor communication machine room comprises a machine room body, wherein a temperature sensing bottom plate is fixedly connected to the lower inner wall of the machine room body, communication equipment is arranged at the upper end of the temperature sensing bottom plate, a plurality of temperature sensing cylinders matched with the communication equipment are fixedly connected in the temperature sensing bottom plate, the upper ends of the temperature sensing cylinders extend to the outer side of the temperature sensing bottom plate, reciprocating air pipes communicated with the temperature sensing cylinders are fixedly connected to the left and right ends of the temperature sensing cylinders, a dragging component is arranged on the inner wall of one side, away from the temperature sensing cylinders, of each reciprocating air pipe, a hot air leading pipe communicated with the reciprocating air pipes is fixedly connected to the upper end of each reciprocating air pipe, the upper ends of the hot air leading pipes extend to the outer side of the temperature sensing bottom plate, a temperature sensing ring is fixedly connected to the upper end of each temperature sensing cylinder, a pair of thermal deformation arc sleeves are fixedly connected to the lower ends of the thermal deformation arc sleeves, a plurality of thermal deformation strips are fixedly connected to one end, away from the thermal deformation arc sleeves, and sealing sheets matched with the hot air leading pipes are fixedly connected to the thermal deformation arc sleeves, two thermal deformation arc cover is close to the equal fixedly connected with of one end and pulls the push pedal, two pull fixedly connected with toper kicking block between the push pedal, temperature sensing intra-annular fixedly connected with and toper kicking block matched with elasticity mounting plate, a plurality of deformation strip holes have been seted up on the elasticity mounting plate, respond to and deform the heat situation of computer lab body bottom through thermal deformation arc cover for a temperature sensing section of thick bamboo, toper kicking block, elasticity mounting plate and pull the subassembly cooperation action, can carry out transient impact's pressure boost to the hot-air of computer lab body bottom, abolish the suppression effect of this internal down cold air of computer lab, improve the efficiency of this internal heat transfer of computer lab, effectively improve the radiating effect, and then reduce this internal false low temperature environment phenomenon of appearing of computer lab, effectively guarantee communication equipment's normal operating.

Further, the upper end of the thermal deformation arc-shaped sleeve is fixedly connected with a heat collection fin, the lower end of the heat collection fin is fixedly connected with the thermal deformation strip, a plurality of heat conduction contacts are fixedly connected with the upper end of the heat collection fin, the upper ends of the heat conduction contacts extend to the outer side of the temperature sensing ring, the heat absorption efficiency of the thermal deformation arc-shaped sleeve can be improved due to the cooperation of the heat collection fin and the heat conduction contacts, thermal deformation can be timely and effectively generated by the thermal deformation strip, the sensitivity of thermal deformation arc-shaped sleeve thermal induction is improved, the forming rate of the internal false low-temperature environment phenomenon of the machine room is reduced, and the service life of the communication equipment is prolonged.

Furthermore, a thermal cavity is formed in the thermal deformation strip, a supporting strip is fixedly connected between the upper inner wall and the lower inner wall of the thermal cavity, a plurality of thermal deformation bags are fixedly connected onto the supporting strip, heat absorption beads are fixedly connected into the thermal deformation bags, thermal contraction strips connected with the thermal deformation bags are fixedly connected to the upper ends and the lower ends of the heat absorption beads, the deformation direction of the thermal deformation strips can be limited and guided through the cooperation of the thermal deformation bags, the contraction stability of the thermal deformation arc sleeves is improved, the position precision of the conical ejection blocks and the elastic sealing pieces is improved, the air flow and the air flow speed of the air outlet of the temperature sensing cylinder are improved, the impact force of bottom hot air is improved, the balance formed between the thermal deformation strips and downlink cold air is broken, and the heat exchange rate of communication equipment is improved.

Further, a plurality of flexible strips that involve of thermal deformation bag outer end fixedly connected with, and the flexible strip that involves keeps away from thermal deformation bag one end and heating power chamber wall fixed connection, and the flexible strip that involves keeps and resumes the deformation situation of thermal deformation bag, protects the thermal deformation bag, reduces the elastic loss of thermal deformation bag.

Further, it is including the stator to drag the subassembly, reciprocating trachea keeps away from a temperature sensing section of thick bamboo one side inner wall fixedly connected with stator, the stator is close to a temperature sensing section of thick bamboo one end fixedly connected with shrink spring, shrink spring is close to a temperature sensing section of thick bamboo one end fixedly connected with rotor, the rotor is close to a temperature sensing section of thick bamboo one end fixedly connected with and drags the strip, it is close to a temperature sensing section of thick bamboo one end and extends to a temperature sensing section of thick bamboo in to drag the strip to with closing piece fixed connection, when a temperature sensing section of thick bamboo is given vent to anger, the slip of rotor in a temperature sensing section of thick bamboo can pass through a temperature sensing section of thick bamboo and the discharge of deformation strip hole department with the hot-air extrusion, when concentrating the pressure boost to bottom hot-air, improves the bottom heat exchange efficiency of computer lab body.

Furthermore, it is located the inboard compulsory cover that resets of shrink spring still fixedly connected with between stator and the rotor, the equal fixedly connected with electromagnetism of two inner walls is inhaled the piece about the compulsory cover, two the concatenation shape variable block of a plurality of end to end of fixedly connected with between the electromagnetism is inhaled the piece, set up the switch-on chamber in the concatenation shape variable block, two fixedly connected with runs through the flexible breakpoint wire of a plurality of end to end concatenation shape variable blocks between the electromagnetism is inhaled the piece, and the switch-on chamber can be through magnetic adsorption to the rotor and force the restoration for the temperature sensing section of thick bamboo can carry out the gas storage effect through the steam skirt, when the temperature lasts higher in computer lab body bottom, keeps the temperature sensing section of thick bamboo and gives vent to anger the repeatability of instantaneous impact, and then effectively improves the radiating validity of computer lab body.

Furthermore, a communicating cavity is formed in the splicing deformation block, abutting contact plates are fixedly connected to the upper inner wall and the lower inner wall of the communicating cavity, a pair of limiting wires are fixedly connected between the two corresponding abutting contact plates and fixedly connected with the positions of break points on the flexible break point wires, an electromagnetic controller which is electrically connected with the flexible break point wires and the electromagnetic absorption block respectively is installed in the temperature sensing bottom plate, the abutting contact plates and the flexible break point wires are matched, the abutting contact plates can conduct low-voltage connection on the flexible break point wires after the movable plate moves to the splicing deformation block to be increased, so that the flexible break point wires are electrified, temperature data in the machine room body are transmitted, magnetic adsorption is effectively realized when the electromagnetic absorption blocks are quickly electrified, forced resetting of the forced resetting sleeve is facilitated, the induction efficiency of the forced resetting sleeve is improved, and the automation degree of the machine room body is further improved, the radiating applicability of the air conditioner is improved, the air conditioner is effectively suitable for being used in an outdoor environment, and the frequency of manual maintenance is reduced.

Furthermore, the inner wall of the hot air guide pipe is fixedly connected with a taper hole inner core, a plugging floating ball is connected in the taper hole inner core in a sliding manner, a pair of supporting bars matched with the plugging floating ball is fixedly connected with the inner wall of the taper hole inner core, and the taper hole inner core and the plugging floating ball are matched, so that the hot air guide pipe can have the one-way flowing effect, further effectively assists the temperature sensing cylinder in storing air and giving air, the exchange effect of the temperature sensing cylinder on hot air at the bottom of the machine room body is improved, and the heat exchange effect of the communication equipment is improved.

Furthermore, toper kicking block upper end fixedly connected with antiskid kicking ball, elasticity mounting lower extreme fixedly connected with and antiskid kicking ball matched with concave surface are fixed a post, and the deformation regularity of elasticity mounting can be improved in the cooperation of antiskid kicking ball and concave surface are fixed a post, and then keep the air current stability when a temperature sensing section of thick bamboo is given vent to anger, improve its impact effect.

Further, the strip is drawn to the equal fixedly connected with flexibility in both ends around the thermal deformation arc cover, a plurality of and flexibility are offered to the temperature sensing section of thick bamboo inner wall and are drawn the groove with the deformation of flexible strip sliding connection, and the flexible strip and the cooperation that the groove was drawn in deformation are drawn, further restrict the deformation direction of thermal deformation arc cover, improve the cap liner to the smoothness of dragging the strip, reduce the movable plate probability that the card was gone wrong.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) this scheme responds to and deforms through the heat situation of thermal deformation arc cover to computer lab body bottom for a temperature sensing section of thick bamboo, toper kicking block, elasticity mounting and dragging the subassembly cooperation action, can carry out transient impact's pressure boost to the hot-air of computer lab body bottom, abolishes the suppression effect of this internal down cold air of computer lab, improves the efficiency of this internal heat transfer of computer lab, effectively improves the radiating effect, and then reduces this internal false low temperature environment phenomenon of appearing of computer lab, effectively guarantees communication equipment's normal operating.

(2) The cooperation of thermal-arrest fin and heat-conduction contact can improve the endothermic efficiency of thermal deformation arc cover for thermal deformation strip can be timely effectual thermal deformation that produces, improves the sensitivity of thermal deformation arc cover thermal-induction, and then reduces this internal false low temperature environment phenomenon's of computer lab formation rate, improves communication equipment's life.

(3) Through the cooperation of thermal deformation bag, heat absorption pearl, thermal contraction strip, can restrict and guide the deformation direction of thermal deformation strip, and then improve the stability that thermal deformation arc cover shrink, improve toper kicking block and elasticity mounting complex position precision, improve the tolerance and the air current speed that the temperature sensing section of thick bamboo was given vent to anger, improve the impact force of bottom hot-air, break the equilibrium that forms between its and the down cold air, improve communication equipment's heat transfer rate.

(4) When giving vent to anger at a temperature sensing section of thick bamboo, the slip of rotor in a temperature sensing section of thick bamboo can be discharged through a temperature sensing section of thick bamboo and deformation strip hole department with the hot-air extrusion, when concentrating the pressure boost to bottom hot-air, improves the bottom heat exchange efficiency of computer lab body.

(5) The switch-on cavity can force the moving plate to reset through magnetic adsorption, so that the temperature sensing cylinder can perform a gas storage function through the hot gas guide pipe, the repeatability of instantaneous impact of gas outlet of the temperature sensing cylinder is kept when the temperature of the bottom of the machine room body is continuously high, and the radiating effectiveness of the machine room body is effectively improved.

(6) Through the cooperation of pressing contact and flexible breakpoint wire, can remove to concatenation deformation block shape at the rotor and become the back that increases, press the contact to carry out the low pressure switch-on to flexible breakpoint wire, make flexible breakpoint wire circular telegram, carry out the transmission of signal of telecommunication to this internal temperature data of computer lab, it produces magnetic adsorption effectively to realize the circular telegram rapidly between the electromagnetic attraction piece, it forces the cover to reset to be convenient for, improve the response efficiency of forcing the cover that resets, and then improve the degree of automation of computer lab body, improve its radiating suitability, effectively be applicable to outdoor environment's use, reduce the frequency of manual maintenance.

Drawings

FIG. 1 is a schematic diagram of a machine room body axis measurement structure of the present invention;

FIG. 2 is a schematic view of the state structure of the machine room body during air draft and heat dissipation;

FIG. 3 is a schematic diagram illustrating an explosion structure of the temperature sensing cylinder according to the present invention;

FIG. 4 is a schematic diagram of the axial structure of the thermal deformation arc-shaped sleeve of the present invention;

FIG. 5 is a schematic sectional view of the temperature sensing cylinder during gas storage according to the present invention;

FIG. 6 is a schematic front sectional view of the pulling assembly of the present invention;

FIG. 7 is a schematic cross-sectional front view of a thermal deformation strip according to the present invention;

FIG. 8 is a schematic view of the structure of FIG. 7 at A in accordance with the present invention;

Fig. 9 is a schematic sectional view of the temperature sensing cylinder in air out according to the present invention.

The numbering in the figures illustrates:

the heat-collecting solar energy heat collecting and heat-insulating device comprises a machine room body 1, a 101 temperature-sensing bottom plate, 2 communication equipment, a 3 temperature-sensing cylinder, a 301 reciprocating air pipe, a 302 hot air guide pipe, a 303 temperature-sensing ring, a 304 deformation guide groove, a 4 thermal deformation arc-shaped sleeve, a 401 heat-collecting fin, a 402 heat conduction contact piece, a 403 flexible guide strip, a 404 sealing piece, a 5 conical top block, a 501 traction push plate, a 502 anti-skidding top ball, a 6 elastic sealing piece, a 601 deformation strip hole, a 602 concave surface fixed column, a 7 thermal deformation strip, a 701 thermal deformation bag, a 702 heat-absorbing bead, a 703 thermal contraction strip, a 704 flexible traction strip, a 705 and 8 conical hole inner core, an 801 plugging floating ball, an 802 supporting strip, a 9 traction component, a 901 fixed piece, a 902 moving piece, a 903 contraction spring, a 904 traction strip, a 905 forced reset sleeve, a 9051 electric magnetic absorption block, a 9052 connection cavity, a 9053 splicing deformation block, a 9054 limiting wire, a 9055 abutting contact piece and a 9056 flexible breakpoint wire.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is to be understood that the embodiments described are merely exemplary embodiments, rather than exemplary embodiments, and that all other embodiments may be devised by those skilled in the art without departing from the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

referring to fig. 1-9, a high heat exchange outdoor communication equipment room comprises an equipment room body 1, a temperature sensing bottom plate 101 is fixedly connected to the lower inner wall of the equipment room body 1, a communication device 2 is disposed on the upper end of the temperature sensing bottom plate 101, a plurality of temperature sensing tubes 3 matched with the communication device 2 are fixedly connected to the inside of the temperature sensing bottom plate 101, the upper ends of the temperature sensing tubes 3 extend to the outside of the temperature sensing bottom plate 101, reciprocating air pipes 301 communicated with the temperature sensing tubes 3 are fixedly connected to the left and right ends of the temperature sensing tubes 3, a dragging assembly 9 is disposed on the inner wall of one side of the reciprocating air pipes 301 away from the temperature sensing tubes 3, hot air pipes 302 communicated with the reciprocating air pipes 301 are fixedly connected to the upper ends of the hot air pipes 302, the upper ends of the hot air pipes 302 extend to the outside of the temperature sensing bottom plate 101, a temperature sensing ring 303 is fixedly connected to the upper end of the temperature sensing ring 303, a pair of thermal deformation arc sleeves 4 are fixedly connected to a plurality of thermal deformation strips 7, the end, far away from the machine room body 1, of each of the two thermal deformation arc sleeves 4 is fixedly connected with a sealing sheet 404 matched with the hot air induction pipe 302, the end, close to the other end, of each of the two thermal deformation arc sleeves 4 is fixedly connected with a traction push plate 501, a conical ejection block 5 is fixedly connected between the two traction push plates 501, the inner end of the temperature sensing ring 303 is fixedly connected with an elastic sealing sheet 6 matched with the conical ejection block 5, a plurality of deformation strip holes 601 are formed in the elastic sealing sheet 6, the thermal condition at the bottom of the machine room body 1 is sensed and deformed through the thermal deformation arc sleeves 4, so that the temperature sensing cylinder 3, the conical ejection block 5, the elastic sealing sheet 6 and the traction assembly 9 are matched to act, the hot air at the bottom of the machine room body 1 can be pressurized by instantaneous impact, the pressing effect of cold air descending in the machine room body 1 is broken, the heat exchange efficiency in the machine room body 1 is improved, the heat dissipation effect is effectively improved, and the phenomenon of a false low-temperature environment in the machine room body 1 is further reduced, the normal operation of the communication device 2 is effectively ensured.

Referring to fig. 4, a heat collecting fin 401 is fixedly connected to the upper end of the thermal deformation arc-shaped sleeve 4, the lower end of the heat collecting fin 401 is fixedly connected to the thermal deformation strip 7, a plurality of thermal conduction contacts 402 are fixedly connected to the upper end of the heat collecting fin 401, the upper end of the thermal conduction contacts 402 extend to the outer side of the temperature sensing ring 303, the heat collecting fin 401 and the thermal conduction contacts 402 are matched with each other, the heat absorption efficiency of the thermal deformation arc-shaped sleeve 4 can be improved, thermal deformation can be timely and effectively generated by the thermal deformation strip 7, the sensitivity of thermal induction of the thermal deformation arc-shaped sleeve 4 is improved, the formation rate of a false low-temperature environment phenomenon in the machine room body 1 is further reduced, and the service life of the communication equipment 2 is prolonged.

Referring to fig. 5, 7 and 8, a thermal cavity is formed in the thermal deformation strip 7, a supporting strip 705 is fixedly connected between an upper inner wall and a lower inner wall of the thermal cavity, a plurality of thermal deformation bags 701 are fixedly connected to the supporting strip 705, a heat absorption bead 702 is fixedly connected to the thermal deformation bags 701, and heat absorption beads 702 are fixedly connected to the upper end and the lower end of the heat absorption bead 702, and thermal contraction strips 703 connected to the thermal deformation bags 701 are fixedly connected to the upper inner wall and the lower inner wall of the thermal deformation bags 701, so that the deformation direction of the thermal deformation strip 7 can be limited and guided by the cooperation of the thermal deformation bags 701, the thermal contraction beads 702 and the thermal contraction strips 703, the contraction stability of the thermal deformation arc-shaped sleeve 4 is further improved, the position precision of the conical top block 5 and the elastic sealing sheet 6 is improved, the air volume and the air flow velocity of the temperature sensing cylinder 3 are improved, the impact force of bottom hot air is improved, the balance formed between the bottom hot air and the downstream cold air is broken, and the heat exchange rate of the communication device 2 is improved.

Referring to fig. 8, the outer end of the thermal deformation capsule 701 is fixedly connected with a plurality of flexible dragging strips 704, one ends of the flexible dragging strips 704, which are far away from the thermal deformation capsule 701, are fixedly connected with the wall surface of the thermal chamber, and the flexible dragging strips 704 keep and recover the deformation condition of the thermal deformation capsule 701, protect the thermal deformation capsule 701, and reduce the elastic loss of the thermal deformation capsule 701.

Please refer to fig. 5, fig. 6 and fig. 9, involve subassembly 9 including stator 901, reciprocal trachea 301 keeps away from 3 one side inner walls fixedly connected with stators 901 of a temperature sensing section of thick bamboo, stator 901 is close to 3 one end fixedly connected with retraction spring 903 of a temperature sensing section of thick bamboo, retraction spring 903 is close to 3 one end fixedly connected with rotor 902 of a temperature sensing section of thick bamboo, rotor 902 is close to 3 one end fixedly connected with of a temperature sensing section of thick bamboo and involves strip 904, it extends to in 3 to involve strip 904 is close to 3 one end of a temperature sensing section of thick bamboo, and with sealing plate 404 fixed connection, when giving vent to anger at temperature sensing section of thick bamboo 3, the slip of rotor 902 in 3 of a temperature sensing section of thick bamboo, can extrude the hot-air through a temperature sensing section of thick bamboo 3 and deformation strip hole 601 department and discharge, when concentrating the pressure boost to bottom hot-air, improve the bottom heat exchange efficiency of computer lab body 1.

Referring to fig. 6, a forced resetting sleeve 905 positioned inside the contracting spring 903 is further fixedly connected between the stator 901 and the rotor 902, electromagnetic attraction blocks 9051 are fixedly connected to both left and right inner walls of the forced resetting sleeve 905, a plurality of end-to-end spliced deformation blocks 9053 are fixedly connected between the two electromagnetic attraction blocks 9051, a communicating cavity 9052 is formed in the spliced deformation block 9053, a flexible breakpoint wire 9056 penetrating through the plurality of end-to-end spliced deformation blocks 9053 is fixedly connected between the two electromagnetic attraction blocks 9051, and the communicating cavity 9052 can forcibly reset the rotor 902 through magnetic adsorption, so that the temperature sensing cylinder 3 can perform air storage through the hot air guide pipe 302, and when the temperature at the bottom of the machine room body 1 is continuously high, the repeatability of instantaneous air outlet impact of the temperature sensing cylinder 3 is maintained, and the effectiveness of heat dissipation of the machine room body 1 is effectively improved.

Referring to fig. 6, a connecting cavity 9052 is formed in the splicing deformation block 9053, the upper and lower inner walls of the connecting cavity 9052 are fixedly connected with abutting contact pieces 9055, a pair of limiting threads 9054 is fixedly connected between the two corresponding abutting contact pieces 9055, the limiting threads 9054 are fixedly connected with the positions of breakpoints on the flexible breakpoint lead 9056, electromagnetic controllers electrically connected with the flexible breakpoint lead 9056 and the electromagnetic attraction block 9051 are installed in the temperature sensing bottom plate 101, and through the cooperation of the abutting contact pieces 9055 and the flexible breakpoint lead 9056, when the moving piece 902 moves to the splicing deformation block 9053 and is deformed and enlarged, the abutting contact pieces 9055 perform low-voltage connection on the flexible breakpoint lead 9056, so that the flexible breakpoint lead 9056 is powered on, temperature data in the machine room body 1 is transmitted through electric signals, magnetic adsorption generated by rapid power supply between the electromagnetic contact pieces 9051 is effectively realized, forced reset of the forced reset sleeve 905 is facilitated, and the induction efficiency of the forced reset sleeve 905 is improved, and then improve the degree of automation of computer lab body 1, improve its radiating suitability, effectively be applicable to outdoor environment's use, reduce the frequency of artifical maintenance.

Referring to fig. 5 and 9, the inner wall of the hot air guiding tube 302 is fixedly connected with the inner core 8 of the tapered hole, the inner core 8 of the tapered hole is slidably connected with the blocking floating ball 801, the lower inner wall of the inner core 8 of the tapered hole is fixedly connected with a pair of supporting bars 802 matched with the blocking floating ball 801, and the inner core 8 of the tapered hole is matched with the blocking floating ball 801, so that the hot air guiding tube 302 can form a one-way flowing effect, and further effectively assist the temperature sensing tube 3 to store and give off air, thereby improving the exchange effect of the temperature sensing tube 3 on the hot air at the bottom of the machine room body 1 and improving the heat exchange effect of the communication device 2.

Referring to fig. 3, 5 and 9, the upper end of the conical ejector block 5 is fixedly connected with the anti-slip ejector ball 502, the lower end of the elastic sealing piece 6 is fixedly connected with the concave fixing column 602 matched with the anti-slip ejector ball 502, and the deformation regularity of the elastic sealing piece 6 can be improved by matching the anti-slip ejector ball 502 with the concave fixing column 602, so that the stability of the air flow when the temperature sensing cylinder 3 is vented is maintained, and the impact effect of the temperature sensing cylinder is improved.

Please refer to fig. 3, the flexible strip 403 that draws is evenly fixedly connected with in both ends around the thermal deformation arc cover 4, and a plurality of and flexible strip 403 sliding connection's deformation is drawn and is drawn groove 304 is seted up to 3 inner walls of temperature sensing section of thick bamboo, and the flexible strip 403 that draws and the cooperation that the groove 304 is drawn in the deformation, further restricts the deformation direction of thermal deformation arc cover 4, improves the cap liner 404 to the smooth degree of dragging the strip 904, reduces the movable plate 902 probability that the card pause appears.

Referring to fig. 1-9, when the communication device 2 in the machine room body 1 continuously works, hot air at the bottom of the machine room body 1 continuously accumulates, so that the temperature at the lower end of the communication device 2 continuously rises, the heat conduction contact piece 402 and the heat collection fin 401 transmit heat, the stay 705 and the thermal deformation bag 701 transmit heat, the thermal contraction strip 703 is heated and contracts towards the heat absorption bead 702, so that the thermal deformation strip 7 is shortened, the thermal deformation arc-shaped sleeve 4 is driven to contract towards the temperature sensing ring 303, and the traction push plate 501 and the conical push block 5 are driven to move towards the temperature sensing ring 303 under the limitation of the flexible guide strip 403 and the deformation guide groove 304, so that the anti-skid push ball 502 sets up the concave surface fixed column 602, the elastic sealing piece 6 generates upward convex deformation, the pores of the deformation strip hole 601 are increased, meanwhile, the sealing piece 404 removes the blocking of the reciprocating air pipe 301, and moves by pulling the traction strip 904, the moving plate 902 moves towards the direction of the temperature sensing cylinder 3 in the reciprocating air pipe 301, at the moment, the contracting spring 903 is stretched to push the gas in the reciprocating air pipe 301 into the temperature sensing cylinder 3 and discharge the gas from the deformation strip hole 601, so that the temperature sensing cylinder 3 generates instantaneous impact airflow (see fig. 9), the auxiliary impact is performed on the hot air which forms pressing balance with the downstream cold air, the pressing balance is broken, the rising of the hot air is assisted, the heat exchange efficiency in the machine room body 1 is improved, the heat dissipation effect is effectively improved, the phenomenon of false low-temperature environment in the machine room body 1 is further reduced, and the normal operation of the communication equipment 2 is effectively ensured;

After the temperature at the bottom of the machine room body 1 is gradually reduced, the thermal deformation strip 7 can be deformed again, under the action of the restoring deformation of the contraction spring 903, the moving plate 902 can move towards the direction of the fixed plate 901, the thermal deformation arc-shaped sleeve 4 moves towards the direction far away from the temperature sensing cylinder 3, the deformation effect on the elastic sealing piece 6 is relieved by the conical ejecting block 5, the reciprocating air pipe 301 absorbs a small amount of gas through the deformation strip hole 601, and absorbs a large amount of gas through the hot air guide pipe 302, so that the temperature sensing cylinder 3 has a gas storage effect (please refer to fig. 5), and then the reciprocating air pipe 301 is continuously blocked by the sealing piece 404, so that the effect of the repeated effect of the subsequent temperature sensing cylinder 3 is kept;

when the temperature at the bottom of the machine room body 1 is high, the thermal deformation strip 7 can be continuously contracted, then the moving plate 902 can be continuously pulled, then the splicing deformation block 9053 in the forced reset sleeve 905 can be continuously deformed, so that the connection cavity 9052 can be deformed, the two abutting contact pieces 9055 can be continuously close to and then contact with the flexible breakpoint wire 9056 fixed to the limiting screw 9054, so that the flexible breakpoint wire 9056 can be connected, then current is introduced into the electromagnetic attraction block 9051, the two electromagnetic attraction blocks 9051 generate heteropolar electromagnetism to generate adsorbability, and then the moving plate 902 can be forcibly reset, wherein an electromagnetic controller of the electromagnetic attraction block 9051 can be arranged, after the flexible breakpoint wire 9056 is connected, the cycle times of power-on and power-off circulation of the electromagnetic attraction block 9051 can be kept, so that after the moving plate 902 is forcibly reset by the action of the magnetic attraction block 9051, the cycle times of power-on and power-off circulation can be passed, effectively realize moving plate 902 at thermal deformation and reciprocating motion in hot gas induction pipe 302 under the effect of magnetic adsorption, form instantaneous impact many times, break the equilibrium that forms between hot-air and the down cold air, improve communication equipment 2's heat transfer rate to improve computer lab body 1's degree of automation, improve its radiating suitability, effectively be applicable to outdoor environment's use, reduce the frequency of artifical maintenance.

The foregoing is only a preferred embodiment of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims (7)

1. The utility model provides a high heat transfer nature's outdoor communication computer lab, includes computer lab body (1), its characterized in that: the machine room comprises a machine room body (1), wherein a temperature sensing bottom plate (101) is fixedly connected to the lower inner wall of the machine room body (1), a communication device (2) is arranged at the upper end of the temperature sensing bottom plate (101), a plurality of temperature sensing barrels (3) matched with the communication device (2) are fixedly connected to the inner side of the temperature sensing bottom plate (101), the upper end of each temperature sensing barrel (3) extends to the outer side of the temperature sensing bottom plate (101), reciprocating air pipes (301) communicated with the temperature sensing barrels are fixedly connected to the left end and the right end of each temperature sensing barrel (3), a dragging assembly (9) is arranged on the inner wall of one side, far away from the temperature sensing barrels (3), of each reciprocating air pipe (301), a hot air guide pipe (302) communicated with the reciprocating air pipes (301) is fixedly connected to the upper end of each hot air guide pipe (302), the upper end of each hot air guide pipe (302) extends to the outer side of the temperature sensing bottom plate (101), a temperature sensing barrel (3) upper end is fixedly connected with a temperature sensing ring (303), and a pair of thermal deformation arc-shaped sleeves (4) is fixedly connected to the lower end of the temperature sensing ring (303), a plurality of thermal deformation strips (7) are fixedly connected in the thermal deformation arc-shaped sleeve (4), one end, far away from the two thermal deformation arc-shaped sleeves (4), of each thermal deformation arc-shaped sleeve is fixedly connected with a sealing sheet (404) matched with the hot gas lead pipe (302), one end, close to the two thermal deformation arc-shaped sleeves (4), of each thermal deformation arc-shaped sleeve is fixedly connected with a traction push plate (501), a conical ejector block (5) is fixedly connected between the two traction push plates (501), an elastic sealing sheet (6) matched with the conical ejector block (5) is fixedly connected to the inner end of the temperature sensing ring (303), and a plurality of deformation strip holes (601) are formed in the elastic sealing sheet (6);

The dragging component (9) comprises a stator plate (901), the inner wall of one side, far away from the temperature sensing cylinder (3), of the reciprocating air pipe (301) is fixedly connected with the stator plate (901), one end, close to the temperature sensing cylinder (3), of the stator plate (901) is fixedly connected with a contraction spring (903), one end, close to the temperature sensing cylinder (3), of the contraction spring (903) is fixedly connected with a movable plate (902), one end, close to the temperature sensing cylinder (3), of the movable plate (902) is fixedly connected with a dragging strip (904), one end, close to the temperature sensing cylinder (3), of the dragging strip (904) extends into the temperature sensing cylinder (3) and is fixedly connected with a sealing plate (404), a forced resetting sleeve (905) located on the inner side of the contraction spring (903) is fixedly connected between the stator plate (901) and the movable plate (902), electromagnetic attraction blocks (9051) are fixedly connected to the left inner wall and the right inner wall of the forced resetting sleeve (905), and a plurality of deformation blocks (9053) connected end to end are fixedly connected between the two electromagnetic attraction blocks (9051), the electromagnetic suction type temperature-sensing device is characterized in that a flexible breakpoint wire (9056) penetrating through a plurality of head-to-tail connection splicing deformation blocks (9053) is fixedly connected between the two electromagnetic suction blocks (9051), a connection cavity (9052) is formed in the splicing deformation blocks (9053), the upper inner wall and the lower inner wall of the connection cavity (9052) are fixedly connected with abutting contact sheets (9055), a pair of limiting wires (9054) is fixedly connected between the abutting contact sheets (9055) correspondingly, the upper breakpoint positions of the limiting wires (9054) and the flexible breakpoint wire (9056) are fixedly connected, and electromagnetic controllers electrically connected with the flexible breakpoint wire (9056) and the electromagnetic suction blocks (9051) are installed in the temperature-sensing bottom plate (101).

2. The outdoor communication machine room with high heat exchange performance as claimed in claim 1, wherein: the solar heat collecting device is characterized in that the upper end of the thermal deformation arc-shaped sleeve (4) is fixedly connected with a heat collecting fin (401), the lower end of the heat collecting fin (401) is fixedly connected with the thermal deformation strip (7), the upper end of the heat collecting fin (401) is fixedly connected with a plurality of heat conduction contact pieces (402), and the upper ends of the heat conduction contact pieces (402) extend to the outer side of the temperature sensing ring (303).

3. The outdoor communication machine room with high heat exchange performance as claimed in claim 1, wherein: a thermal cavity is formed in the thermal deformation strip (7), a supporting bar (705) is fixedly connected between the upper inner wall and the lower inner wall of the thermal cavity, a plurality of thermal deformation capsules (701) are fixedly connected to the supporting bar (705), heat absorption beads (702) are fixedly connected to the inner portions of the thermal deformation capsules (701), and thermal contraction strips (703) connected with the thermal deformation capsules (701) are fixedly connected to the upper ends and the lower ends of the heat absorption beads (702).

4. The outdoor communication machine room with high heat exchange performance as claimed in claim 3, wherein: the outer end of the thermal deformation capsule (701) is fixedly connected with a plurality of flexible dragging strips (704), and one end, far away from the thermal deformation capsule (701), of each flexible dragging strip (704) is fixedly connected with the wall surface of the thermal cavity.

5. The outdoor communication machine room with high heat exchange performance as claimed in claim 1, wherein: the hot air guide pipe (302) is characterized in that a conical hole inner core (8) is fixedly connected to the inner wall of the hot air guide pipe (302), a blocking floating ball (801) is connected to the conical hole inner core (8) in a sliding mode, and a pair of supporting strips (802) matched with the blocking floating ball (801) are fixedly connected to the lower inner wall of the conical hole inner core (8).

6. The outdoor communication machine room with high heat exchange performance as claimed in claim 1, wherein: toper kicking block (5) upper end fixedly connected with antiskid kicking ball (502), elasticity mounting (6) lower extreme fixedly connected with and antiskid kicking ball (502) matched with concave surface stationary mast (602).

7. The outdoor communication machine room with high heat exchange performance as claimed in claim 1, wherein: the flexible leading strips (403) are fixedly connected to the front end and the rear end of the thermal deformation arc-shaped sleeve (4), and a plurality of deformation leading grooves (304) which are connected with the flexible leading strips (403) in a sliding mode are formed in the inner wall of the temperature sensing cylinder (3).

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