CN107654087A

CN107654087A - If the sentry box of telescope

Info

Publication number: CN107654087A
Application number: CN201710904003.1A
Authority: CN
Inventors: 徐登文
Original assignee: Quzhou Creative Industrial Design Co Ltd
Current assignee: Quzhou Creative Industrial Design Co Ltd
Priority date: 2017-09-29
Filing date: 2017-09-29
Publication date: 2018-02-02

Abstract

The present invention relates to sentry box.A kind of sentry box for setting telescope, including bottom wall, side wall and roof, the side wall is provided with window, the roof is translucent construction, and the lower section of the roof is provided with some support beams, the heat conduction cloth for sheltering from the roof is shelved with the support beam, the side of the heat conduction cloth is provided with light-absorption layer, opposite side is provided with reflector layer, the bottom wall is provided with annular groove, and elevating lever is slidably connected in the chute, telescope is connected with the elevating lever.First purpose of the present invention aims to provide a kind of situation for being able to observe that a distant place and the adjustable sentry box for setting telescope of heat-insulated daylighting effect, solves the problems, such as that existing sentry box needs to find out sentry box it is impossible to meet the different demands under Different climate and a distant place and goes to check.

Description

If the sentry box of telescope

Technical field

The present invention relates to sentry box, more particularly to a kind of sentry box for setting telescope.

Background technology

Sentry box can be usually used when security personnel and traffic-police etc. carry out duty.The board structure in sentry box includes bottom wall, side Wall and roof, the side wall are provided with window.Duty easily on bottom wall and in sentry box, through window go to observe by station during use The situation in duty region.Existing sentry box has the following disadvantages：The heat-insulated daylighting effect of roof does not change, it is impossible to meets different Different demands under weather, the situation of the remote other side of booth of leaving the post does not observe goes to check, it is necessary to find out sentry box.

The content of the invention

First purpose of the present invention aims to provide a kind of situation for being able to observe that a distant place and heat-insulated daylighting effect can The sentry box for setting telescope adjusted, solve existing sentry box needs to look for it is impossible to meet the different demands under Different climate and a distant place Go out the problem of sentry box is gone to check.

Second object of the present invention be further intended to improve it is a kind of telescope can be heated set telescope Sentry box, solve the problems, such as that existing theodolite can not be heated come the environment that keeps out the cold to telescope.

Above technical problem is that solved by following technical proposal：A kind of sentry box for setting telescope, including bottom wall, side wall And roof, the side wall are provided with window, it is characterised in that the roof is translucent construction, and the lower section of the roof is provided with some Support beam, is shelved with the heat conduction cloth for sheltering from the roof in the support beam, and the side of the heat conduction cloth is provided with light-absorption layer, another Side is provided with reflector layer, and the bottom wall is provided with annular groove, elevating lever is slidably connected in the chute, is connected on the elevating lever It is connected to telescope.In use, change the height of telescope by making lifter rod lifting, by slided in chute elevating lever come Change the orientation of telescope, the situation that window goes to an observation distant place is passed through by telescope so that go to check without finding out sentry box.Root According to different climatic environments, user can remove heat conduction cloth so that sunlight be irradiated to through roof in sentry box improve daylighting and Heating, heat conduction cloth can be made to be shelved on progress sunshade in support beam in a manner of upward by reflector layer and reflect away sunlight, also may be used Carry out sunshade to make heat conduction cloth be shelved on by light-absorption layer in a manner of upward in support beam and the heat absorption of sunlight is increased into hilllock Temperature in booth.

Preferably, being arranged with outer barrel outside the telescope, one end of the outer barrel links together with the telescope And be provided with out wind-tunnel, be equipped with inner cylinder in the other end and be provided with into wind-tunnel, one end of the inner cylinder is provided with cylindrical support section, another End rotationally links together with telescope, and the surface of the cylindrical support section is provided with friction section, the interior table of the outer barrel Face is provided with frictional layer, and the outer barrel is supported in the friction section by the frictional layer and linked together with the inner cylinder, institute The outer surface for stating inner cylinder is provided with drive after entering wind-tunnel and entering provided with certain driving air-flow out of the blade for going out wind-tunnel blowout, the outer barrel The drive mechanism that dynamic inner cylinder rotates.In use, when influenceing the observation effect of telescope when environment temperature is too low, pass through driving machine Structure driving inner cylinder rotates, and blade produces wind and causes wind enters from air inlet to flow through behind telescope surface from air outlet when inner cylinder rotates Outflow.Due to being supported by friction section between inner cylinder and outer barrel, so frictional heating can be produced when rotating, frictional heating production Raw heat takes heating of the telescope surface realization to telescope to by wind.

Preferably, the drive mechanism includes the external toothing being coaxially disposed with inner cylinder, the gear being engaged on external toothing With the motor for driving the pinion rotation.In use, motor-driven gear rotates, gear driving external toothing rotates, and external toothing drives Dynamic inner cylinder rotates.

Preferably, the outer barrel includes canned paragraph and active segment, one end of the canned paragraph connects with the telescope Together, the end face of the other end be provided with along canned paragraph circumferentially extend annular groove, it is described go out wind-tunnel be arranged on the canned paragraph And two side walls of insertion annular groove, one end of the active segment links together with the inner cylinder, the other end is provided with and is plugged on institute State the annular connector in annular groove, the active segment can be moved to the connector close it is described enter wind-tunnel, the cylinder Minute surface section is additionally provided with supporting section, when the connector close it is described enter wind-tunnel when, the frictional layer be supported on the minute surface Duan Shang, when the connector disengage to it is described enter wind-tunnel closing when, the frictional layer is supported in the friction section.Work as needs During heating, close up active segment to canned paragraph along the axial direction of telescope so that inner cylinder and outer barrel are supported by friction section, now Air outlet is opened, and then drives drive mechanism to cause inner cylinder to drive wind to be rotated from the direction for going out wind-tunnel blowout, so as to the production that rubs Telescope is heated on the surface that heat and heat flow through telescope.If environment temperature is high, active segment is moved to inner cylinder It is supported with outer barrel by minute surface section, now air outlet is closed, and then drives drive mechanism to cause inner cylinder to drive wind from entering The direction of wind-tunnel blowout rotates, and so as to be taken away the air between outer barrel and telescope and form vacuum, plays vacuum heat-insulation Effect.

Preferably, the inner cylinder is located at the objective end of the telescope, the inner surface of the inner cylinder is the conical surface, described interior The inner surface of cylinder is provided with specular layer.When under the sun in use, the light that can be emitted onto in inner cylinder is reflected away and formed Qiang Guang, play a part of reminding other staff.

Preferably, the inner cylinder is provided with inner and outer tubes, said inner tube and outer tube sphere are hinged, the minute surface Layer is arranged on the inner surface of said inner tube.The direction of inner tube can be adjusted so that photograph of the observed direction of telescope with the sun , also can be anti-to realize by the direction for adjusting inner side when the relation penetrated between direction is irradiated in inner tube it is impossible to meet light Project strong light and realize prompting.

Preferably, said inner tube protrudes from the inner surface of the outer tube.Put forth effort when rotating inner tube conveniently.

Clamped preferably, the both sides of the roof are provided with magnet and adsorbed in the presence of magnet on roof The press strip that firmly ferromagnet of heat conduction cloth is made.

Present invention tool has the advantage that：A distant place can be observed；The heat-insulated daylighting effect of roof can be changed；Can Telescope is heated, to reduce influence of the temperature to telescope using effect.

Brief description of the drawings

Fig. 1 is the structural representation of the embodiment of the present invention one.

Fig. 2 is the schematic diagram of the telescope in embodiment one.

Fig. 3 is the close-up schematic view at Fig. 2 A.

Fig. 4 is the close-up schematic view at the B in Fig. 2.

Fig. 5 is the schematic diagram of the inner cylinder in embodiment two.

In figure：Stop body 1, telescope 11, roof 12, magnet 121, press strip 122, side wall 13, window 131, elevating lever 14, Support beam 15, heat conduction cloth 16, light-absorption layer 161, reflector layer 162, bottom wall 10, chute 101, outer barrel 3, canned paragraph 31, annular groove 311, Go out wind-tunnel 312, active segment 32, in-flanges 321, enter wind-tunnel 322, frictional layer 323, annular connector 324, inner cylinder 4, specular layer 41st, blade 42, cylindrical support section 43, friction section 431, minute surface section 432, outer tube 44, inner tube 45, drive mechanism 5, external toothing 51, Gear 52, motor 53, cavity S.

Embodiment

The present invention is further illustrated with embodiment below in conjunction with the accompanying drawings.

Embodiment one, referring to Fig. 1, a kind of sentry box for setting telescope includes being surrounded by bottom wall 10, roof 12 and 4 side walls 13 Stop body 1.Side wall 13 is provided with window 131.The both sides of roof 12 are provided with magnet 121 and the press strip 122 adsorbed by magnet. Roof 12 is translucent construction.The lower section of roof 12 is provided with some support beams 15.It is shelved with support beam 15 and shelters from leading for roof Hot cloth 16.The side of heat conduction cloth 16 is provided with light-absorption layer 161, opposite side is provided with reflector layer 162.The both ends of heat conduction cloth 16 pass through press strip 122 are pressed on roof 12.Bottom wall 10 is provided with the chute 101 of annular.Elevating lever 14 is slidably connected in chute 101.Elevating lever 14 On be connected with elevating lever 14.

In use, changing the height of telescope by making lifter rod lifting, changed by sliding elevating lever in chute Become the orientation of telescope, the situation that window goes to an observation distant place is passed through by telescope so that go to check without finding out sentry box.According to Different climatic environments, user can remove heat conduction cloth so that sunlight is irradiated in sentry box through roof to improve daylighting and take It is warm, heat conduction cloth can be made to be shelved on progress sunshade in support beam in a manner of upward by reflector layer and reflect away sunlight, can also Make heat conduction cloth be shelved in a manner of upward in support beam by light-absorption layer to carry out sunshade and the heat absorption of sunlight is increased into sentry box Interior temperature.

Referring to Fig. 2, the outer barrel of telescope 11 is provided with outer barrel 3.Outer barrel 3 is positioned at circle.Outer barrel 3 includes canned paragraph 31 and active segment 32.The right-hand member of canned paragraph 31 is sealed connected together with end where the eyepiece of telescope 11.The same active segment of left end of canned paragraph 31 32 right-hand member links together.The left end of active segment 32 is set on the left end of inner cylinder 4.The inner surface of inner cylinder 4 is the big right side of left end Hold small circular conical surface.The inner surface of inner cylinder 4 is provided with specular layer 41.Inner cylinder 4 is located at end where the object lens of telescope.Outside inner cylinder 4 Side face is provided with blade 42.The right-hand member of inner cylinder 4 is rotationally sealedly connected on the left side of telescope 11.Inner cylinder 4, outer barrel 3 Cavity S is surrounded with telescope 11.Drive mechanism 5 is provided with cavity S.Drive mechanism 5 includes external toothing 51, gear 52 and motor 53.External toothing 51 and inner cylinder 4 are coaxial.External toothing 51 is connected on the right-hand member of inner cylinder 4.Gear 52 is engaged on external toothing 51.Electricity Machine 53 is used for drive gear 52.

Referring to Fig. 3, active segment 32 is provided with in-flanges 321.In-flanges 321 is communicated with the air intake of cavity S and exterior space Hole 322.The inner peripheral surface of in-flanges 321 is provided with frictional layer 323.The left end of inner cylinder 4 is provided with cylindrical support section 43.Cylindrical support section 43 It is provided with the friction section 431 and minute surface section 432 being axially sequentially distributed from left to right along inner cylinder 4.

Referring to Fig. 4, the end face of the left end of canned paragraph 31 is provided with annular groove 311.Annular groove 311 circumferentially extends along canned paragraph.Gu Determine to be additionally provided with the left end of section 31 it is some go out wind-tunnel 312.Go out wind-tunnel 312 along the circumferentially distributed of canned paragraph.Go out wind-tunnel 31 and penetrate ring Two side walls of groove 311.The right-hand member of active segment 32 is provided with annular connector 324.Annular connector 324 is plugged in annular groove 311.

Referring to Fig. 4, Fig. 2 and Fig. 3, when needing to be heated, in-flanges is arrived along the active segment 32 that slides axially of telescope 321 are supported in friction section 431 by frictional layer, are now gone out wind-tunnel 312 and are in opening.Then the sliding tooth of motor 53 is passed through Wheel 52 rotates forward, gear 52 drives external toothing 51 to rotate forward, external toothing 51 drives inner cylinder 4 to rotate forward.Rubbed during rotation Friction is produced between layer 323 and friction section 431 and heat, blade 42 flow into cavity S and then from going out wind-tunnel 312 through air inlet 322 The wind of outflow.Heat transfer caused by friction is realized into the heating to telescope to telescope 11 during wind flow.

When needing heat-insulated when temperature is too high, pass through friction to in-flanges 321 along the active segment 32 that slides axially of telescope Layer is supported in minute surface section 432, and now annular connector 324 inserts the depth increase of annular groove 311 and closes out wind-tunnel 312. Then rotated backward by the drive gear 52 of motor 53, gear 52 drives external toothing 51 to rotate backward, external toothing 51 drives inner cylinder 4 Rotate backward.Generation friction is small between frictional layer 323 and minute surface section 432 during rotation causes almost empty calory generation., during blade 42 Air of the air through air inlet 322 in cavity S is taken away and forms vacuum, plays a part of vacuum heat-insulation.

Need not heat with it is heat-insulated when, stop the rotation of motor.

Embodiment two, the difference with embodiment one are：

Referring to Fig. 5, inner cylinder 4 includes inner tube 45 and outer tube 44.External toothing 51 makes to be connected on outer tube 44.Inner cylinder 4 is by outer Pipe is rotatably connected with telescope.The sphere of inner tube 45 is hinged in outer tube 44.Specular layer 41 is arranged on the interior of inner tube 45 On surface.Inner tube 45 protrudes from the inner surface of outer tube 44.When using by rotate inner tube 45 come light to greatest extent according to It is mapped on specular layer and is reflected.

Claims

1. a kind of sentry box for setting telescope, including bottom wall, side wall and roof, the side wall is provided with window, it is characterised in that described Roof is translucent construction, and the lower section of the roof is provided with some support beams, is shelved with the support beam and shelters from the roof Heat conduction cloth, the side of the heat conduction cloth is provided with light-absorption layer, opposite side is provided with reflector layer, and the bottom wall is provided with annular groove, institute State and elevating lever is slidably connected in chute, telescope is connected with the elevating lever.

2. the sentry box according to claim 1 for setting telescope, it is characterised in that be arranged with outer barrel outside the telescope, institute One end of outer barrel is stated to link together with the telescope and be provided with out wind-tunnel, be equipped with inner cylinder in the other end and be provided with air intake Hole, one end of the inner cylinder rotationally link together provided with cylindrical support section, the other end with telescope, the cylindrical support The surface of section is provided with friction section, and the inner surface of the outer barrel is provided with frictional layer, and the outer barrel is supported on by the frictional layer Linked together in the friction section with the inner cylinder, the outer surface of the inner cylinder is provided with certain driving air-flow after entering wind-tunnel and entering The drive mechanism that driving inner cylinder rotates is provided with out of the blade for going out wind-tunnel blowout, the outer barrel.

3. the sentry box according to claim 2 for setting telescope, it is characterised in that the drive mechanism includes coaxial with inner cylinder The motor of the external toothing of setting, the gear being engaged on external toothing and the driving pinion rotation.

4. the sentry box for setting telescope according to Claims 2 or 3, it is characterised in that the outer barrel includes canned paragraph and work Dynamic section, one end of the canned paragraph links together with the telescope, the end face of the other end is provided with and circumferentially prolonged along canned paragraph The annular groove stretched, it is described go out wind-tunnel be arranged on the canned paragraph and two side walls of insertion annular groove, one end of the active segment are same The inner cylinder links together, the other end is provided with the annular connector being plugged in the annular groove, and the active segment can move To the connector close it is described enter wind-tunnel, minute surface section is additionally provided with the cylindrical support section, when the connector closes It is described enter wind-tunnel when, the frictional layer be supported in the minute surface section, when the connector disengage to it is described enter wind-tunnel closing When, the frictional layer is supported in the friction section.

5. the sentry box for setting telescope according to Claims 2 or 3, it is characterised in that the inner cylinder is located at the telescope Objective end, the inner surface of the inner cylinder is the conical surface, and the inner surface of the inner cylinder is provided with specular layer.

6. the sentry box according to claim 5 for setting telescope, it is characterised in that the inner cylinder is provided with inner and outer tubes, institute It is hinged to state inner and outer tubes sphere, the specular layer is arranged on the inner surface of said inner tube.

7. the sentry box according to claim 6 for setting telescope, it is characterised in that said inner tube protrudes from the interior of the outer tube Surface.

8. according to the sentry box for setting telescope described in claim 1 or 2 or 3, it is characterised in that the both sides of the roof, which are provided with, inhales Iron-stone and in the presence of magnet absorption the press strip that the ferromagnet of heat conduction cloth is made is clamped on roof.