CN115468067A - Freely angle-adjustable electronic equipment for monitoring building carbon emission - Google Patents

Abstract

The invention relates to electronic equipment for monitoring building carbon emission, in particular to electronic equipment for monitoring building carbon emission, and the angle of the electronic equipment can be freely adjusted. The utility model provides a can freely adjust the angle and the length that extends, can carry out diversified monitoring, but the little electronic equipment for building carbon emission monitoring of freely adjusting the angle of limitation. An electronic device for monitoring building carbon emission with a freely adjustable angle comprises a base, a rotating seat, a rotating column and the like; the base right side is installed through the bolt and is rotated the seat, rotates the seat internal rotation formula and installs and rotate the post. The rotary ring drives the sliding block to move rightwards, the long clamping rod is driven to be separated from the first clamping hole and then separated from the arc-shaped block, the arc-shaped block drives the short clamping rod to move rightwards under the action of the second spring and then separated from the second clamping hole, the knob is reversely rotated to the rough surface of the hollow pipe to be separated, then the hollow casing is moved rightwards to drive the casing and the air collector to move rightwards, and therefore the angle and the extending length of the air collector can be freely adjusted.

Description

Freely angle-adjustable electronic equipment for monitoring building carbon emission

Technical Field

The invention relates to electronic equipment for monitoring building carbon emission, in particular to electronic equipment for monitoring building carbon emission, and the angle of the electronic equipment can be freely adjusted.

Background

It is becoming clear that a dramatic increase in carbon dioxide emissions will lead to global warming, which can pose a serious threat to the survival and development of the entire human population. In fact, the urban carbon emissions, 60%, derive from the building maintenance function itself, while the traffic cars account for only 30%.

Consequently need increase the monitoring dynamics to carbon emission to carry out effectual control carbon emission, however current carbon emission monitoring electronic equipment can only fixed mounting on the wall body, can not freely angle regulation and the length of extension, can not diversified monitoring, and the limitation is very big, has restricted the monitoring that carbon emission monitoring electronic equipment discharged carbon.

Therefore, it is necessary to invent an electronic device for monitoring carbon emission of a building, which can freely adjust an angle and an extension length, can perform multi-directional monitoring, and has small limitation and can freely adjust the angle.

Disclosure of Invention

In order to overcome the defects that the angle and the extending length cannot be freely adjusted, multi-directional monitoring cannot be realized, the limitation is large, and the monitoring of carbon emission by electronic equipment for monitoring carbon emission is limited, the invention has the technical problems that: the electronic equipment for monitoring the carbon emission of the building, which can freely adjust the angle and the extending length, can monitor in multiple directions and has small limitation, is provided.

The technical implementation scheme of the invention is as follows: the utility model provides a free angle of adjustment's electronic equipment for building carbon emission monitoring, which comprises a base, rotate the seat, rotate the post, the swing post, the fixed column, angle adjusting device and length adjusting device, the base right side is installed through the bolt and is rotated the seat, it installs the rotation post to rotate the seat internal rotation formula, the rotation post right part is worn out and is rotated the seat, the swing post is installed to rotation post right part rotary type, the fixed column is installed to swing post right part, the fixed column, the swing post with rotate and install angle adjusting device between the seat, angle adjusting device is used for adjusting the angle between rotation post and the swing post, length adjusting device is installed on the fixed column right side, length adjusting device is used for adjusting the length that air collector extends.

More preferably, the angle adjusting device comprises a sliding block, a rotating ring, a first spring, a long clamping rod, an arc-shaped block, a short clamping rod and a second spring, wherein a sliding groove is formed in a fixed column, the sliding block is installed in the sliding groove in a sliding manner, the rotating ring is sleeved on the fixed column in a sliding manner and can also rotate on the fixed column, the upper end and the lower end of the sliding block are connected with the inner wall of the rotating ring in a sliding manner, two first springs are connected between the right side of the sliding block and the fixed column, five first clamping holes are formed in the right part of the rotating column, the long clamping rod is welded on the left side of the sliding block, the long clamping rod sequentially penetrates through the fixed column and the rotating column and is clamped into the first clamping hole in the middle, the sliding block and the long clamping rod are driven to move rightwards through the rotating ring, the long clamping rod is pulled out to be separated from the first clamping hole, and then, alright adjust the angle of swing post, the arc piece is installed to the post slidingtype in the rotation, be connected with the second spring between arc piece left side and the rotation post, arc piece left side welding has two short kellies, two short kellies all pass the rotation post, the even spaced apart ten second card holes of left side along circumference in the rotation seat, the long kellies passes and promotes arc piece and two short kellies and move left behind the first card hole, the second spring compresses thereupon, two short kellies block respectively in two second card holes at diagonal angle, move right through the long kellies and break away from with the arc piece, under the effect of second spring, the arc piece drives two short kellies and moves right and break away from with the second card hole, so, alright drive rotation post is in rotation seat internal rotation.

More preferably, the length adjusting device comprises a hollow tube, a double-groove slide rod, a third spring, a hollow casing, a knob, a shell, a long shaft, a short cable, an air collector and a long cable, wherein the right side of the fixed column is welded with the hollow tube, the front side surface of the hollow tube is a rough surface, the double-groove slide rod is installed in the hollow tube in a sliding mode, the third spring is connected between the left side in the hollow tube and the right side in the double-groove slide rod, the hollow casing is welded at the right part of the double-groove slide rod, the knob is rotatably installed at the left part of the hollow casing, the initial state of the knob is a forward rotation screwing state, the rear part of the knob penetrates through the hollow casing to be tightly attached to the rough surface of the hollow tube, the shell is welded at the right part of the hollow casing, the long shaft is rotatably installed in the shell, the long cable penetrates through the base, the long cable is wound in the shell, the air collector is welded at the right side of the shell, the hollow casing can be driven to move left and right through the hollow casing, the double-groove slide rod can move, the extending length of the air collector can be adjusted, the hollow casing can be fixed through the knob, the hollow casing, the extending length of the hollow casing can be fixed through the hollow casing, the extending length of the air collector can be loosened through reverse rotation, the hollow casing can be adjusted through the short cable, the short cable is electrically connected with the long cable, and the short cable is electrically connected with the long cable in the short cable in a rotary type.

More preferably, the wire arranging device comprises a rotating shaft, a column gear, racks, a wire spool and a transmission assembly, the rotating shaft is symmetrically arranged at the front and back of the left part in the double-groove slide rod, the column gear is rotatably arranged on the two rotating shafts, the upper and lower sides of the two column gears penetrate through the double-groove slide rod, the two racks are symmetrically arranged at the front and back of the upper part in the hollow tube, the front and back racks are engaged with the front and back column gears, the double-groove sliding rod is moved left and right, under the action of the rack, the column gear can be driven to rotate positively and negatively, the wire spool is installed in the shell in a rotating mode, the transmission assemblies are connected between the front side and the rear side of the wire spool and two rotating shafts respectively, each transmission assembly is composed of a large chain wheel, a small chain wheel and a chain, and the wire spool can be driven to rotate positively and negatively through the positive and negative rotation of the column gear through the transmission assemblies, so that long cables can be collected and released.

More preferably, the hydraulic oil-driven hydraulic cylinder further comprises a driving device, the driving device comprises an L-shaped hollow frame, a rotating block, a square piston rod, a piston cylinder, a circular piston rod, a fourth spring and a spiral guide frame, the rotating block is welded on the lower side of the left portion of the L-shaped hollow frame, the rotating block is rotatably installed on the right portion of the fixing column, the L-shaped hollow frame is installed on the rotating block, the right portion of the L-shaped hollow frame is located between the top of a hollow tube and a hollow casing, the left portion of the L-shaped hollow frame penetrates out of the upper right portion of a rotating ring, hydraulic oil is fully filled in the L-shaped hollow frame, the square piston rod is slidably installed at the vertical portion of the left portion of the L-shaped hollow frame, the piston cylinder is fixedly connected to the right side of the L-shaped hollow frame and communicated with the L-shaped hollow frame, the circular piston rod penetrates out of the top of the piston cylinder, the square piston rod is pressed downwards, the circular piston rod can be driven to move downwards through hydraulic oil, the fourth spring is connected between the bottom of the circular piston rod and the piston cylinder, the hollow sleeve is welded to the inner wall of the hollow casing, the spiral guide frame, the circular piston rod is in a contact fit with the spiral guide frame, the circular piston rod and the spiral guide frame, and the hollow casing are driven to move downwards through rotation of the L-shaped hollow frame, the hollow casing, the circular piston rod, the hollow casing.

More preferably, still including locking mechanism, locking mechanism is including the bull stick, magnetism cam and magnetism fixture block, and the rotary rod is installed to square piston rod upper portion rotary type, and rotary rod bottom fixed mounting has the magnetism cam, and the magnetism fixture block is installed to the left and right sides wall slidingtype in the square piston rod, and the nearly heart-end and the inboard absorption cooperation of magnetism fixture block of magnetism cam both sides, through rotating the adjustable magnetism fixture block position of rotary rod and magnetism cam to can open or lock square piston rod.

More preferred is, still including self-adaptation mechanism, self-adaptation mechanism is including rubber slab and fifth spring, and base left side longitudinal symmetry formula is opened has two elliptical troughs, and the rubber slab is all installed to slidingtype in two elliptical troughs, all is connected with three piece at least fifth springs between two rubber slab right sides and the elliptical trough.

More preferably, still including laborsaving mechanism, laborsaving mechanism has welded the dead lever respectively including dead lever, rubber ball, swivel front side, rear side and downside, and the rubber ball is all installed to three dead lever outer ends.

More preferably, the cable guide device further comprises a lead frame, the lead frame is welded on the lower right side of the hollow casing, and the long cable penetrates through the lead frame.

Compared with the prior art, the invention has the following advantages: according to the invention 1, the rotating ring drives the sliding block to move rightwards to drive the long clamping rod to be separated from the first clamping hole, the long clamping rod is separated from the first clamping hole and then separated from the arc-shaped block, the arc-shaped block drives the short clamping rod to move rightwards under the action of the second spring and then separated from the second clamping hole, the knob is reversely rotated to the rough surface of the hollow pipe to be separated, then the hollow casing shell moves rightwards, and the hollow casing shell moves rightwards to drive the casing and the air collector to move rightwards, so that the angle and the extending length of the air collector can be freely adjusted.

2. Through rack drive post gear just reversing, post gear just reversing drives the wire reel just reversing through drive assembly, and the wire reel just reverses and receive and release long cable reel, so, alright coil the orderly coiling of long cable in the casing to guarantee air collector's normal operating.

3. Through the hollow frame reversal of the drive L shape with the swivel reversal, the hollow frame reversal of L shape drives piston cylinder and circular piston rod reversal, under the contact mating reaction of spiral leading truck and circular piston rod, the spiral leading truck drives hollow cover shell and turns right the removal, hollow cover shell alright drive casing and air collector turn right the removal, so, alright more accurate, more stable drive hollow cover shell drives casing and air collector and turns right the removal, thereby more accurate, the length that more stable regulation air collector extends.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a partial sectional structural schematic diagram of the present invention.

Fig. 3 is a schematic view of a first structure of the angle adjusting mechanism of the present invention.

Fig. 4 is a schematic cross-sectional structure of the present invention.

Fig. 5 is an enlarged view of part a of the present invention.

Fig. 6 is a schematic perspective view of the rotating column and the first engaging hole of the present invention.

Fig. 7 is a schematic perspective view of the base and the rotating base according to the present invention.

Fig. 8 is a schematic perspective view of a second angle adjustment mechanism of the present invention.

Fig. 9 is a schematic perspective view of the slider and the swivel according to the present invention.

Fig. 10 is a schematic perspective view of the fixing post and the sliding chute according to the present invention.

Fig. 11 is a schematic perspective view of a first structure of the length adjusting device and the wire arranging device of the invention.

Fig. 12 is a schematic perspective view of a first structure of the wire arranging device and the driving device of the present invention.

Fig. 13 is a schematic perspective view of a second structure of the wire arranging device and the driving device of the present invention.

Fig. 14 is a schematic perspective view of a second structure of the length adjusting device and the wire arranging device of the invention.

Fig. 15 is a schematic perspective view of the L-shaped hollow frame and the square piston rod according to the present invention.

Fig. 16 is a schematic perspective view of the L-shaped hollow frame and the rotary rod of the present invention.

Fig. 17 is a schematic perspective view of the rotary rod and the magnetic cam according to the present invention.

Fig. 18 is a schematic perspective view of a first embodiment of the adaptive mechanism and the labor-saving mechanism of the present invention.

Fig. 19 is a schematic perspective view of a second embodiment of the adaptive mechanism and the labor-saving mechanism of the present invention.

The parts are labeled as follows: 1. a base, 2, a rotating seat, 3, a rotating column, 4, a swinging column, 5, a fixing column, 6, an angle adjusting device, 61, a sliding chute, 62, a sliding block, 63, a rotating ring, 64, a first spring, 65, a long clamping rod, 66, a first clamping hole, 67, an arc-shaped block, 68, a short clamping rod, 69, a second spring, 610, a second clamping hole, 7, a length adjusting device, 71, a hollow tube, 72, a double-groove sliding rod, 73, a third spring, 74, a hollow casing, 75, a knob, 76, a shell, 761, a long shaft, 762, a short cable, 77, an air collector, 78, a long cable, 8 and a wire arranging device, 81, a rotating shaft, 82, a column gear, 83, a rack, 84, a wire spool, 85, a transmission assembly, 9, a driving device, 91, an L-shaped hollow frame, 911, a rotating block, 92, a square piston rod, 93, a piston cylinder, 94, a circular piston rod, 95, a fourth spring, 96, a spiral guide frame, 10, a locking mechanism, 101, a rotating rod, 102, a magnetic cam, 103, a magnetic clamping block, 11, an adaptive mechanism, 111, an elliptical groove, 112, a rubber plate, 113, a fifth spring, 12, a labor-saving mechanism, 121, a fixing rod, 122, a rubber ball, 13 and a wire guide frame.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Examples

The utility model provides a free angle regulation's electronic equipment for building carbon emission monitoring, as figure 1, figure 2 and figure 3 are shown, including base 1, rotate seat 2, rotate post 3, swing post 4, fixed column 5 angle adjusting device 6 and length adjusting device 7, base 1 right side is installed through the bolt and is rotated seat 2, it installs rotation post 3 to rotate 2 internal rotation formulas of seat, 3 right parts of rotation post are worn out and are rotated seat 2, 3 right parts rotary types of rotation post are installed swing post 4, fixed column 5 is installed in 4 right parts of swing post, fixed column 5, swing post 4 and rotate and install angle adjusting device 6 between the seat 2, angle adjusting device 6 is used for adjusting the angle between rotation post 3 and the swing post 4, length adjusting device 7 is installed on 5 right sides of fixed column, length adjusting device 7 is used for adjusting the length that air collector 77 extends.

As shown in fig. 1, 2, 3, 4, 5, 6, 7, 8, 9 and 10, the angle adjusting device 6 includes a sliding block 62, a rotating ring 63, a first spring 64, a long clamping bar 65, an arc-shaped block 67, a short clamping bar 68 and a second spring 69, a sliding slot 61 is provided in the fixed column 5, the sliding block 62 is slidably mounted in the sliding slot 61, the rotating ring 63 is slidably sleeved on the fixed column 5, the rotating ring 63 can also rotate on the fixed column 5, the upper and lower ends of the sliding block 62 are slidably connected with the inner wall of the rotating ring 63, two first springs 64 are connected between the right side of the sliding block 62 and the fixed column 5, five first clamping holes 66 are provided on the right portion of the rotating column 3, the long clamping bar 65 is welded on the left side of the sliding block 62, the long clamping bar 65 sequentially passes through the first clamping holes 66 which are centrally clamped in the fixed column 5 and the rotating column 3, the sliding block 62 and the long clamping bar 65 are driven by the rotating ring 63 to move to the right, pull out long kelly 65 and make it break away from with first calorie of hole 66, so, alright adjust the angle of swing post 4, rotate post 3 internal sliding type and install arc piece 67, be connected with second spring 69 between arc piece 67 left side and the rotation post 3, arc piece 67 left side welding has two short kellies 68, two short kellies 68 all pass and rotate post 3, the left side has ten second calorie of holes 610 along circumference evenly spaced in the rotation seat 2, long kelly 65 passes and promotes arc piece 67 and two short kellies 68 after first calorie of hole 66 and move to the left, second spring 69 compresses thereupon, two short kellies 68 block respectively in two second calorie of holes 610 at diagonal angle, break away from with arc piece 67 through long kelly 65 moving to the right, under the effect of second spring 69, arc piece 67 drives two short kellies 68 and moves to the right and breaks away from with second calorie of hole 610, so, drive rotation post 3 is in rotation seat 2 internal rotation.

As shown in fig. 1, 5, 8, 12 and 13, the length adjustment device 7 includes a hollow tube 71, a double-groove sliding rod 72, a third spring 73, a hollow casing 74, a knob 75, a housing 76, a long shaft 761, a short cable 762, an air collector 77 and a long cable 78, the hollow tube 71 is welded on the right side of the fixed column 5, the front side of the hollow tube 71 is a rough surface, the double-groove sliding rod 72 is slidably installed in the hollow tube 71, the third spring 73 is connected between the left side of the hollow tube 71 and the right side of the double-groove sliding rod 72, the hollow casing 74 is welded on the right side of the double-groove sliding rod 72, the knob 75 is rotatably installed on the left part of the hollow casing 74, the initial state of the knob 75 is a forward rotation screwing state, the rear part of the knob 75 passes through the hollow casing 74 and is tightly attached to the rough surface of the hollow tube 71, hollow cover 74 right part welding has casing 76, major axis 761 is installed to the internal rotation formula of casing 76, it has long cable 78 to wear out on the base 1, long cable 78 penetrates inside major axis 761, long cable 78 rolling is in casing 76, casing 76 right side welding has air collector 77, through controlling hollow cover 74 and move, can drive double flute slide bar 72 and remove about, thereby adjust the length that air collector 77 extends, through corotation knob 75, can be fixed with hollow cover 74, thereby the length that fixed air collector 77 extends, through reversal knob 75, can loosen hollow cover 74, thereby adjust the length that air collector 77 extends, air collector 77 is connected with short cable 762 with major axis 761 front end axle center department rotary type, short cable 762 and long cable 78 and electric connection.

Firstly, an operator installs a base 1 at a preset position of a wall body through an expansion screw, then holds a rotating ring 63, moves the rotating ring 63 to the right, the rotating ring 63 moves to the right to drive a slide block 62 to move to the right, a first spring 64 is compressed therewith, the slide block 62 moves to the right to drive a long clamping rod 65 to move to the right, when the long clamping rod 65 is separated from a first clamping hole 66, the operator can swing the rotating ring 63 up and down, the swinging rotary ring 63 drives a swinging post 4 and a fixed post 5 to swing up or down to the preset position through the swinging rotating ring 63, when the long clamping rod 65 moves to the right to separate from the first clamping hole 66, the long clamping rod 65 is separated from an arc-shaped block 67, under the elastic force of a second spring 69, the arc-shaped block 67 drives a short clamping rod 68 to move to the right, when the short clamping rod 68 is separated from a second clamping hole 610, the operator holds the swinging post 4, and drives the rotating post 3 to rotate to the preset position through the swinging post 4, then the operator loosens the rotating ring 63, under the action of the first spring 64, the slider 62 moves left to drive the rotating ring 63 and the long clamping rod 65 to move left, the long clamping rod 65 moves left to be clamped into the first clamping hole 66 again, the long clamping rod 65 is clamped into the first clamping hole 66 and then contacts with the arc block 67 again, the arc block 67 is pushed left, the arc block 67 moves left to drive the short clamping rod 68 to move left to be clamped into the second clamping hole 610 again, the second spring 69 is compressed therewith, thus the rotating angle of the rotating column 3 and the swinging angle of the swinging column 4 can be adjusted, the swinging angle of the air collector 77 is adjusted, when the extending length of the air collector 77 needs to be adjusted, the operator firstly rotates the knob 75 reversely, the knob 75 rotates reversely to be separated from the rough surface of the hollow tube 71, the hollow sleeve 74 moves right to drive the double-slot sliding rod 72 to move right in the hollow tube 71, the double-slotted slide bar 72 is used for guiding, the third spring 73 is stretched along with the double-slotted slide bar 72, the hollow casing 74 moves towards the right, the long cable 78 is discharged from the casing 76, the double-slotted slide bar 72 moves towards the right to drive the casing 76 and the air collector 77 to move towards the right, when the air collector 77 moves towards the right to a preset position, the operator rotates the knob 75 forwards again to enable the rear part of the knob 75 to contact with the rough surface of the hollow pipe 71 again and clamp the rough surface, the outward extending length of the air collector 77 can be prolonged, the air in a certain area is collected by the air collector 77, data is transmitted through the short cable 762 and the long cable 78 for further analysis, when the extending length of the air collector 77 needs to be shortened, the knob 75 rotates reversely, after the knob 75 is separated from the rough surface of the hollow pipe 71, the double-slotted slide bar 72 drives the hollow casing 74 to move towards the left under the action of the third spring 73, and when the hollow casing 74 moves towards the left to drive the casing 76 and the air collector 77 to move towards the left to a preset position, and then the air collector 77 is adjusted by the long cable 78 again to monitor the air in the preset position of the air collector 77 and collect the air. Drive slider 62 through change 63 and move to the right, drive long calorie of pole 65 and first calorie of hole 66 and break away from, long calorie of pole 65 breaks away from back and arc piece 67 with first calorie of hole 66, arc piece 67 drives short calorie of pole 68 and breaks away from with second calorie of hole 610 after moving to the right under the effect of second spring 69, break away from as to the rough surface of hollow tube 71 through reversing knob 75, move hollow shell 74 to the right again, hollow shell 74 moves to the right and drives casing 76 and air collector 77 and move to the right, so, alright free adjustment air collector 77's angle and the length of extension.

As shown in fig. 11, 12, 13 and 14, the cable winding device 8 further includes a rotating shaft 81, a column gear 82, a rack 83, a wire winding disc 84 and a transmission assembly 85, the rotating shaft 81 is symmetrically installed at the front and back of the left portion in the double-groove sliding rod 72, the column gear 82 is rotatably installed on the two rotating shafts 81, the double-groove sliding rod 72 penetrates through the two column gears 82 at the upper and lower sides, two racks 83 are symmetrically installed at the front and back of the upper portion in the hollow tube 71, the front and back racks 83 are engaged with the front and back column gears 82, the front and back racks 83 move left and right through the double-groove sliding rod 72, the column gear 82 can be driven to rotate forward and backward under the action of the racks 83, the wire winding disc 84 is rotatably installed in the housing 76, the transmission assembly 85 is connected between the front and back sides of the wire winding disc 84 and the two rotating shafts 81, the transmission assembly 85 is composed of a large chain wheel, a small chain wheel and a chain, and the transmission assembly 85 can drive the wire winding disc 84 to rotate forward and backward through the rotation of the column gear 82, so as to wind and unwind the long cable 78.

As shown in fig. 1, 2, 3, 13, 14, 15 and 16, the device comprises a driving device 9, the driving device 9 comprises an L-shaped hollow frame 91, a rotating block 911, a square piston rod 92, a piston cylinder 93, a round piston rod 94, a fourth spring 95 and a spiral guide frame 96, the lower side of the left part of the L-shaped hollow frame 91 is welded with the rotating block 911, the rotating block 911 is rotatably installed at the right part of a fixed column 5, the L-shaped hollow frame 91 is installed on the rotating block 911, the right part of the L-shaped hollow frame 91 is positioned between the top of a hollow tube 71 and a hollow sleeve 74, the left part of the L-shaped hollow frame 91 penetrates through the upper right part of a rotating ring 63, the L-shaped hollow frame 91 is filled with hydraulic oil, the square piston rod 92 is slidably installed at the vertical part of the left part of the L-shaped hollow frame 91, the right side of the L-shaped hollow frame 91 is fixedly connected with the piston cylinder 93, piston cylinder 93 communicates with the hollow frame 91 of L shape, circular piston rod 94 is installed to piston cylinder 93 internal sliding formula, circular piston rod 94 wears out piston cylinder 93 top, through pressing square piston rod 92 down, accessible hydraulic oil drive circular piston rod 94 moves down, be connected with fourth spring 95 between circular piston rod 94 bottom and the piston cylinder 93, the welding of hollow cover shell 74 inner wall has spiral guide frame 96, circular piston rod 94 and the cooperation of spiral guide frame 96 contact, it is rotatory with circular piston rod 94 to drive piston cylinder 93 through rotatory L shape hollow frame 91, under spiral guide frame 96's guide effect, can drive hollow cover shell 74 and move the extension to the right.

Firstly, an operator winds the long cable 78 to the wire spool 84, when the hollow casing 74 and the double-groove sliding rod 72 move rightwards, the column gear 82 is driven to move rightwards, the column gear 82 rotates reversely under the action of the rack 83, the column gear 82 rotates reversely to drive the wire spool 84 to rotate reversely through the transmission component 85 to discharge the wound long cable 78, when the casing 76 drives the wire spool 84 to move rightwards together, the long cable 78 is discharged along the left part of the casing 76 due to the fact that the long cable 78 is fixed on the base 1, when the hollow casing 74 and the double-groove sliding rod 72 move leftwards, the column gear 82 is driven to move leftwards, the rack 83 drives the column gear 82 to rotate forwards, the column gear 82 rotates forwards to drive the wire spool 84 to rotate forwards through the transmission component 85, the wire spool 84 rotates forwards to wind the long cable 78 again, and the long cable 78 can be wound in the casing 76 regularly, the long cable 78 is prevented from being wound and accumulated in the casing 76, damage or breakage to the long cable 78 caused by long pulling is avoided, and normal operation of the air collector 77 is influenced. The rack 83 drives the column gear 82 to rotate forward and backward, the column gear 82 rotates forward and backward to drive the wire spool 84 to rotate forward and backward through the transmission assembly 85, the wire spool 84 rotates forward and backward to reel the long cable 78, and therefore the long cable 78 can be wound in the shell 76 in order, and the air collector 77 can operate normally.

When the hollow casing 74 and the double-groove sliding rod 72 need to move rightwards, an operator holds the rotating ring 63 to rotate backwards, the rotating ring 63 rotates backwards to drive the L-shaped hollow frame 91 to rotate backwards, the L-shaped hollow frame 91 rotates backwards to drive the piston cylinder 93 and the circular piston rod 94 to rotate backwards, under the contact and matching action of the spiral guide frame 96 and the circular piston rod 94, the spiral guide frame 96 drives the hollow casing 74 to move rightwards, the third spring 73 extends along with the hollow casing 74, the hollow casing 74 can drive the casing 76 and the air collector 77 to move rightwards, when the hollow casing 74 and the double-groove sliding rod 72 need to move leftwards and reset, the operator presses the square piston rod 92 downwards, the circular piston rod 94 is driven to move downwards by hydraulic oil filled in the L-shaped hollow frame 91, the fourth spring 95 is compressed along with the circular piston rod 94, after the circular piston rod 94 moves downwards to be separated from the spiral guide frame 96, under the action of the third spring 73, the hollow casing 74 and the double-groove sliding rod 72 move leftwards and reset, after the hollow casing 74 and the double-groove sliding rod 72 reset, the hollow casing 74 and the double-groove sliding rod 72 move rightwards, the hollow casing 74 can move upwards more accurately and the hollow casing 77 and the hollow piston rod 94 can be driven by the air collector 77 and the hollow piston rod 94, so that the hollow casing 74 can move more accurately and the hollow casing 74 can be stably adjusted. The operator is through driving the hollow frame 91 reversal of L shape with swivel 63 reversal, the hollow frame 91 reversal of L shape drives piston cylinder 93 and circular piston rod 94 reversal, under the contact mating reaction of spiral leading truck 96 and circular piston rod 94, spiral leading truck 96 drives hollow cover shell 74 and turns right the removal, hollow cover shell 74 alright drive casing 76 and air collector 77 turn right the removal, so, alright more accurate, more stable drive hollow cover shell 74 drives casing 76 and air collector 77 and turns right the removal, thereby more accurate, the length that more stable regulation air collector 77 extends.

As shown in fig. 16 and 17, the locking mechanism 10 further includes a locking mechanism 10, the locking mechanism 10 includes a rotating rod 101, a magnetic cam 102 and a magnetic latch 103, the rotating rod 101 is rotatably installed on the upper portion of the square piston rod 92, the magnetic cam 102 is fixedly installed at the bottom of the rotating rod 101, the magnetic latch 103 is slidably installed on the left side wall and the right side wall of the square piston rod 92, the proximal ends of the two sides of the magnetic cam 102 are in suction fit with the inner side of the magnetic latch 103, and the position of the magnetic latch 103 can be adjusted by rotating the rotating rod 101 and the magnetic cam 102, so that the square piston rod 92 can be opened or locked.

As shown in fig. 18 and fig. 19, the mobile phone further comprises an adaptive mechanism 11, the adaptive mechanism 11 comprises a rubber plate 112 and fifth springs 113, two elliptical grooves 111 are symmetrically formed in the left side of the base 1 in an up-down manner, the rubber plate 112 is slidably mounted in each of the two elliptical grooves 111, and at least three fifth springs 113 are connected between the right sides of the two rubber plates 112 and the elliptical grooves 111.

As shown in fig. 18 and 19, the power saving mechanism 12 further comprises a fixing rod 121 and a rubber ball 122, the fixing rod 121 is welded to the front side, the rear side and the lower side of the swivel 63, and the rubber ball 122 is mounted at the outer ends of the three fixing rods 121.

As shown in fig. 12, 13 and 14, the cable guide device further comprises a cable guide frame 13, the cable guide frame 13 is welded to the lower right side of the hollow casing 74, and the long cable 78 passes through the cable guide frame 13.

When the square piston rod 92 needs to be pressed downwards, an operator holds the rotating rod 101, rotates the rotating rod 101 by ninety degrees to drive the magnetic cam 102 to rotate by ninety degrees, the magnetic cam 102 attracts and moves the magnetic clamping block 103 inwards under the magnetic action of the magnetic cam 102, after the magnetic clamping block 103 moves inwards and is separated from the L-shaped hollow frame 91, the square piston rod 92 can be pressed downwards, so that the circular piston rod 94 is driven to move downwards, when the square piston rod 92 needs to be locked, the circular piston rod 94 moves upwards under the action of the fourth spring 95, the square piston rod 92 is driven to move upwards through hydraulic oil, after the square piston rod 92 is reset, the rotating rod 101 rotates by ninety degrees again, the rotating rod 101 rotates by ninety degrees to drive the magnetic cam 102 to rotate by ninety degrees, the magnetic clamping block 103 ejects the magnetic clamping block 103 outwards, the square piston rod 92 is clamped by the magnetic clamping block 103 and cannot move downwards, so that the square piston rod 92 is locked by mistake, and the square piston rod 92 is prevented from contacting the square piston rod 92 when the rotating rotary ring 63.

When installing base 1 on the wall body, through the left rubber slab 112 of base 1 and fifth spring 113, but some unevenness's wall of self-adaptation to let base 1 more firm the installation on the wall body.

When the operator needs to drive the swivel 63, the operator repeatedly and alternately dials the fixing rod 121 and the rubber ball 122, passes through the fixing rod 121 and the rubber ball 122, and drives the swivel 63, so that the operator can drive the swivel 63 more easily.

The long cable 78 can be better protected by the lead frame 13 at the lower right side of the hollow casing 74, and the long cable 78 can be prevented from being folded to be damaged, so that the normal operation of the air collector 77 is influenced.

The technical principle of the embodiment of the present invention is described above in conjunction with the specific embodiments. The description is made for the purpose of illustrating the principles of embodiments of the present invention and should not be construed in any way as limiting the scope of embodiments of the present invention. Based on the explanations herein, those skilled in the art will be able to conceive of other specific embodiments of the present invention without inventive step, and such embodiments will fall within the scope of the embodiments of the present invention.

Claims (9)

1. The utility model provides a free angle of adjustment's electronic equipment for building carbon emission monitoring, including base (1), rotate seat (2), rotate post (3), swing post (4) and fixed column (5), base (1) right side is installed and is rotated seat (2), it installs rotation post (3) to rotate seat (2) internal rotation formula, it wears out rotation seat (2) to rotate post (3) right part, swing post (4) are installed to rotation post (3) right part rotary type, fixed column (5) are installed to swing post (4) right part, its characterized in that: still including angle adjusting device (6) and length adjusting device (7), install angle adjusting device (6) that are used for adjusting the angle between rotation post (3) and swing post (4) between fixed column (5), swing post (4) and rotation seat (2), fixed column (5) right side is installed and is used for adjusting length adjusting device (7) that air collector (77) extended.

2. The electronic device for monitoring carbon emission of a freely-adjustable building as claimed in claim 1, wherein: the angle adjusting device (6) comprises a sliding block (62), a rotating ring (63), a first spring (64), a long clamping rod (65), an arc-shaped block (67), a short clamping rod (68) and a second spring (69), a sliding groove (61) is formed in the fixed column (5), the sliding block (62) is installed in the sliding groove (61) in a sliding manner, the rotating ring (63) used for adjusting the angle of the swinging column (4) and driving the rotating column (3) to rotate in the rotating seat (2) is sleeved on the fixed column (5) in a sliding manner, the rotating ring (63) can also rotate on the fixed column (5), the upper end and the lower end of the sliding block (62) are connected with the inner wall of the rotating ring (63) in a sliding manner, two first springs (64) are connected between the right side of the sliding block (62) and the fixed column (5), five first clamping holes (66) are formed in the right part of the rotating column (3), the long clamping rod (65) is fixedly connected to the left side of the sliding block (62), the long clamping rod (65) sequentially penetrates through the fixed column (5) and the rotating column (3) and is clamped into the first clamping holes (66) in the center, the inner side of the rotating column (3), the short clamping rod (67) is installed on the left side of the rotating column (67), the rotating column (3), the second clamping rod (67) and the second clamping block (67) are fixedly connected between the rotating column (67), rotate seat (2) interior left side and evenly spaced along circumference and have ten second calorie of holes (610), long calorie of pole (65) pass first calorie of hole (66) after promote arc piece (67) and two short calorie of poles (68) and move to the left, second spring (69) compress thereupon, two short calorie of poles (68) are blocked respectively in two second calorie of holes (610) at diagonal angle.

3. The electronic device for monitoring carbon emission of a freely-adjustable building as claimed in claim 2, wherein: the length adjusting device (7) comprises a hollow pipe (71), a double-groove sliding rod (72), a third spring (73), a hollow casing (74), a knob (75), a shell (76), a long shaft (761), a short cable (762), an air collector (77) and a long cable (78), the hollow pipe (71) is fixedly connected to the right side of a fixing column (5), the front side surface of the hollow pipe (71) is a rough surface, the double-groove sliding rod (72) is installed in the hollow pipe (71) in a sliding manner, the third spring (73) is connected between the left side in the hollow pipe (71) and the right side in the double-groove sliding rod (72), the hollow casing (74) used for adjusting the extending length of the air collector (77) is fixedly connected to the right part of the double-groove sliding rod (72), the knob (75) is rotatably installed at the left part of the hollow casing (74) and used for fixing the extending length of the air collector (77), the initial state of the knob (75) is a screwing state, the rear part of the knob (75) penetrates through the hollow casing (74) to be tightly attached to the rough surface of the hollow casing (71), the casing (76) is fixedly connected to the casing (74), the casing (76) rotatably installed in a forward rotation manner, the long shaft (76), the long shaft (761) penetrates through the long cable (78), and penetrates through the long shaft (761) and penetrates through the long cable (78), an air collector (77) is fixedly connected to the right side of the shell (76), the air collector (77) is rotatably connected with a short cable (762) at the front end of the long shaft (761), and the short cable (762) is electrically connected with the long cable (78).

4. The electronic device for monitoring carbon emission of a freely-adjustable building as claimed in claim 3, wherein: the cable arranging device comprises a rotating shaft (81), column gears (82), racks (83), wire reels (84) and transmission assemblies (85), wherein the rotating shaft (81) is symmetrically installed in the front and back of the left part in the double-groove sliding rod (72), the column gears (82) used for winding and unwinding the long cables (78) are rotatably installed on the two rotating shafts (81), the upper sides and the lower sides of the two column gears (82) penetrate through the double-groove sliding rod (72), the two racks (83) used for driving the column gears (82) to rotate in the forward and reverse directions are symmetrically installed on the front and back of the upper part in the hollow tube (71), the front and back two racks (83) are meshed with the front and back column gears (82), the wire reels (84) are rotatably installed in the shell (76), the transmission assemblies (85) are respectively connected between the front and back sides of the wire reels (84) and the two rotating shafts (81), and the transmission assemblies (85) are composed of large chain wheels, small chain wheels and chains.

5. The electronic device for monitoring carbon emission of a freely-adjustable building as claimed in claim 4, wherein: the hydraulic oil-saving device is characterized by further comprising a driving device (9), the driving device (9) comprises an L-shaped hollow frame (91), a rotating block (911), a square piston rod (92), a piston cylinder (93), a circular piston rod (94), a fourth spring (95) and a spiral guide frame (96), the rotating block (911) is fixedly connected to the lower side of the left part of the L-shaped hollow frame (91), the rotating block (911) is rotatably installed on the right part of a fixed column (5), the L-shaped hollow frame (91) used for driving a hollow casing (74) to move and extend rightwards is installed on the rotating block (911), the right part of the L-shaped hollow frame (91) is located between the top of a hollow tube (71) and the hollow casing (74), the left part of the L-shaped hollow frame (91) penetrates out of the upper right part of a rotating ring (63), hydraulic oil is fully contained in the L-shaped hollow frame (91), the square piston rod (92) used for driving the circular piston rod (94) to move downwards is slidably installed at the vertical position of the left part of the L-shaped hollow frame (91), the right part of the L-shaped hollow frame (91) is fixedly connected with the piston cylinder (93), the piston cylinder (94), the circular piston rod (94) is connected with the bottom of the piston cylinder (94), the piston cylinder (93), a spiral guide frame (96) is fixedly connected to the inner wall of the hollow casing (74), and the circular piston rod (94) is in contact fit with the spiral guide frame (96).

6. The electronic device for monitoring carbon emission of a freely-adjustable building as claimed in claim 5, wherein: the locking mechanism (10) comprises a rotating rod (101), a magnetic cam (102) and a magnetic clamping block (103), the rotating rod (101) used for opening or locking the square piston rod (92) is rotatably installed on the upper portion of the square piston rod (92), the magnetic cam (102) is fixedly installed at the bottom of the rotating rod (101), the magnetic clamping block (103) is installed on the left side wall and the right side wall of the square piston rod (92) in a sliding mode, and the core ends of the two sides of the magnetic cam (102) are in adsorption fit with the inner side of the magnetic clamping block (103).

7. The electronic device for monitoring carbon emission of a freely-adjustable building as claimed in claim 6, wherein: still including self-adaptation mechanism (11), self-adaptation mechanism (11) are opened two elliptical grooves (111) including rubber slab (112) and fifth spring (113), base (1) left side longitudinal symmetry formula, and all slidingly install rubber slab (112) in two elliptical grooves (111), all is connected with three piece at least fifth spring (113) between two rubber slab (112) right sides and elliptical groove (111).

8. The electronic device for monitoring carbon emission of a freely-adjustable building as claimed in claim 7, wherein: the novel rotary ring is characterized by further comprising a labor-saving mechanism (12), wherein the labor-saving mechanism (12) comprises fixing rods (121) and rubber balls (122), the fixing rods (121) are fixedly connected to the front side, the rear side and the lower side of the rotary ring (63) respectively, and the rubber balls (122) are mounted at the outer ends of the three fixing rods (121).

9. The electronic device for monitoring carbon emission of a freely-adjustable building as claimed in claim 8, wherein: the cable connector also comprises a lead frame (13), the right lower side of the hollow casing (74) is fixedly connected with the lead frame (13), and a long cable (78) penetrates through the lead frame (13).

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