CN118201259A - Carbon emission optimizing device and method thereof - Google Patents

Abstract

The invention discloses a carbon emission optimizing device and a method thereof, comprising the following steps: the first functional mechanism comprises a bottom frame and a carrying part, wherein the bottom frame is provided with two bottom frames, two bidirectional threaded rods are respectively connected between the opposite inner surface walls of the two sides of each bottom frame in a rotating mode, two movable blocks are respectively connected with the outer surfaces of the two bidirectional threaded rods in a threaded mode, and a connecting frame is fixedly connected to the bottom of each movable block. According to the invention, when the power equipment is used, according to the actual structure of the existing power equipment, the two bottom frames are respectively attached to two sides of the existing power equipment, and the first carrier plate, the extension plate and the second carrier plate can be effectively inserted below the existing power equipment by increasing and decreasing the extension plates, and the rotating adjusting bolt can be used for moving the adjusting clamping plate by rotating the adjusting bolt, so that the first carrier plate and the second carrier plate can be firmly connected with the bottom frames, and the bottom frames, the first carrier plate, the extension plate and the second carrier plate can form an effective supporting and limiting effect.

Description

Carbon emission optimizing device and method thereof

Technical Field

The invention belongs to the technical field of carbon emission optimizing equipment, and particularly relates to a carbon emission optimizing device and a carbon emission optimizing method.

Background

The electric appliance needs to consume electric energy in the use process, the electric energy is derived from a power plant, a large amount of carbon dioxide is generated by burning coal in the thermal power plant, and the environment carbon pollution is caused by the large-amount discharge of the carbon dioxide.

However, in the prior art, in order to adjust the carbon emission generated by actual power generation, the maintenance and replacement of the existing power equipment are needed according to the actual production conditions, the actual structure of the existing power equipment is fixed, if replacement and maintenance are needed, the existing large hoisting equipment is matched, the actual required space of the large existing hoisting equipment is large, the requirements of different occasions cannot be met, the actual replacement and maintenance of the existing power equipment are difficult, and the actual maintenance and replacement effect is poor.

Disclosure of Invention

The invention aims at: the carbon emission optimizing device and the carbon emission optimizing method can be used for conveniently adjusting the structure of the carbon emission optimizing device according to the existing power generation equipment, and further can be used for maintaining and replacing the existing power generation equipment under the effective space condition.

The technical scheme adopted by the invention is as follows: a carbon emission optimization device comprising: the first functional mechanism comprises a bottom frame and carrying parts, wherein the bottom frame is provided with two bottom frames, two bidirectional threaded rods are respectively connected between the opposite inner surface walls of the two sides of the bottom frame in a rotating mode, the outer surfaces of the two bidirectional threaded rods are respectively connected with two moving blocks in a threaded mode, the bottoms of the moving blocks are respectively fixedly connected with a connecting frame, supporting frames are respectively connected between the opposite inner surface walls of the two sides of the connecting frame in a rotating mode, supporting wheels are respectively connected to the outer surfaces of the two sides of the supporting frames in a rotating mode, and the carrying parts are arranged on the two bottom frames; and

The second functional mechanism comprises a first fixed frame, a second fixed frame and two third fixed frames, wherein the tops of the first fixed frame, the second fixed frame and the two third fixed frames are fixedly connected with sliding frames, lifting threaded rods are rotatably connected to the tops of the first fixed frame, the second fixed frame and the two third fixed frames, the lifting threaded rods are divided into two groups, two lifting threaded rods are connected to lifting frames in an outer surface of each group through threads, lifting rods are rotatably connected to inner surface walls of two sides of each lifting frame, lifting plates are sleeved on the outer surfaces of the lifting rods, and lifting worm wheels are sleeved on the outer surfaces of the lifting rods.

Wherein, every spacing groove has all been seted up to supporting frame one side surface, every the equal fixedly connected with of underframe both sides surface supports the frame, every support and all fixedly connected with gag lever post between the relative interior table wall in frame both sides, every gag lever post one end all slides and runs through corresponding spacing groove.

Wherein, two of them support frame one side surface all fixedly connected with traction ring, every support frame top all threaded connection has the locating lever.

Wherein, every the underframe bottom all rotates and is connected with the connecting axle, every the connecting axle surface all overlaps and is equipped with adjusting gear and adjusts the worm wheel.

And each moving gear is sleeved on the outer surface of each bidirectional threaded rod, and each moving gear is meshed with the corresponding adjusting gear.

Wherein, every the equal rotation of underframe bottom is connected with the regulation worm, every the regulation worm with correspond the regulation worm wheel and all mesh, every the equal fixedly connected with mobile motor of underframe bottom, every the output of mobile motor and the equal fixed connection of corresponding regulation worm one end.

The two groups of carrying components are arranged together, each group of carrying components comprises a first carrying plate and a second carrying plate, an extension plate is fixedly connected between one side outer surface of the first carrying plate and one side outer surface of the second carrying plate through bolts, one end of the first carrying plate and one end of the second carrying plate are respectively extended to the inside of a corresponding bottom frame, the top of the first carrying plate and the top of the second carrying plate are respectively fixedly connected with mounting plates, two outer surfaces of one side of the mounting plates are respectively connected with an adjusting bolt in a threaded manner, two ends of the adjusting bolts are respectively connected with a clamping plate in a rotating manner, two supporting rods are respectively fixedly connected with the outer surfaces of the first carrying plate and the outer surfaces of the second carrying plate, and connecting pipes are respectively connected with one ends of the supporting rods in a threaded manner.

Wherein, every the hoisting frame both ends extend to respectively inside the corresponding sliding frame, every the equal fixedly connected with of hoisting frame bottom promotes the motor, every the equal cover of output of hoisting motor is equipped with the promotion gear, every the inside bottom surface of hoisting frame is all rotated and is connected with the promotion worm, every it all meshes to promote the worm with correspond the promotion worm wheel, every it all fixedly connected with connecting gear to promote worm one end, every connecting gear all meshes with corresponding promotion gear.

Wherein each lifting threaded rod outer surface is sleeved with a rotary conical gear, two outer surfaces of the second fixed frame are respectively connected with rotating rings in a rotating way, each outer surface of the third fixed frame is respectively connected with rotating rings in a rotating way, two outer surfaces of the first fixed frame are respectively connected with a first rotating rod and a second rotating rod in a rotating way, one outer surface of one side of the second fixed frame is also connected with a first rotating rod in a rotating way, one end of each first rotating rod is connected with a first sliding rod in a threaded way, one end of each first sliding rod is connected with two corresponding rotating rings in a sliding way, each first sliding rod outer surface is provided with a first conical gear in a sliding way, and every first conical gear and correspond the interior table wall in fixed frame one side rotate and connect, every first rotating rod surface also overlaps and is equipped with first conical gear, every first conical gear and correspond rotatory conical gear meshing, second rotating rod one end threaded connection has the second slide bar, second slide bar one end slip runs through and corresponds two swivel rings, second slide bar surface slip cover is equipped with second conical gear, second rotating rod surface also overlaps and is equipped with second conical gear, every second conical gear and correspond rotatory conical gear and all mesh, first fixed frame one side surface fixedly connected with driving motor, driving motor's output and second rotating rod one end fixed connection.

A method of using a carbon emission optimization device, comprising the steps of:

S1, moving and transferring: according to the actual structure of the existing power equipment, two bottom frames are respectively attached to two sides of the existing power equipment, the first carrier plate, the extension plate and the second carrier plate can be inserted below the existing power equipment through increasing and decreasing the extension plates, the rotating adjusting bolts can move the adjusting clamping plates through rotating the adjusting bolts, the first carrier plate and the second carrier plate can be firmly connected with the bottom frames, the first carrier plate, the extension plate and the second carrier plate can form supporting and limiting effects, the mobile motor is further started through control, the mobile motor can drive the linkage shaft to rotate through the adjusting worm and the adjusting worm wheel, the linkage shaft can drive the bidirectional threaded rod to rotate through the adjusting gear and the moving gear, the rotating bidirectional threaded rod can move the using position of the corresponding moving block, the moving block can move one end of the supporting frame in cooperation with the connecting frame, the supporting frame can effectively support the lifting bottom frames through the supporting wheels under the position limitation of the limiting grooves and the limiting rods, and the existing power equipment can be effectively lifted off the ground;

S2, lifting maintenance: through remove first functional mechanism to lifting rod one side, and then make the butt pole can block into the lifting disc inside, and then through control start lifting motor, and then make lifting motor can effectively drive the lifting worm through lifting gear and connecting gear and rotate, and then make lifting worm cooperation lifting worm wheel can drive the lifting rod and rotate, rotatory lifting rod rotates through driving the lifting disc, and then make the lifting disc can move into second functional mechanism inside through butt pole lifting with first functional mechanism one end, until the lifting disc homoenergetic of second functional mechanism carries out the joint with the butt pole of first functional mechanism, the rethread control starts lifting motor, and then make first functional mechanism can bear current power equipment and lift off the ground together, and then through control start driving motor, and then make driving motor can drive the lifting threaded rod through second bull stick, the second slide bar, first bull stick, first slide bar, rotating cone gear, first cone gear and second cone gear are synchronous to be rotated, and then make lifting threaded rod can remove and adjust lifting frame use height.

In summary, due to the adoption of the technical scheme, the beneficial effects of the invention are as follows:

In the invention, when in use, according to the actual structure of the prior power equipment, the two bottom frames are respectively attached to the two sides of the prior power equipment, the first carrier plate, the extension plate and the second carrier plate can be effectively inserted under the prior power equipment by increasing or decreasing the extension plates, the rotating adjusting bolt can be used for moving the adjusting clamping plate by rotating the adjusting bolt, the first carrier plate and the second carrier plate can be firmly connected with the bottom frames, the first carrier plate, the extension plate and the second carrier plate can form effective supporting and limiting effects, the mobile motor is further controlled to start, the mobile motor can effectively drive the connecting shaft to rotate through the adjusting worm and the adjusting worm gear, the connecting shaft can effectively drive the bidirectional threaded rod to rotate through the adjusting gear and the mobile gear, the rotating bidirectional threaded rod can effectively move the corresponding use position of the mobile block, and then make movable block cooperation connecting frame can effectively remove supporting frame one end, and then under the position restriction of spacing groove and gag lever post, make the supporting frame can effectively support lifting underframe service height through the supporting wheel, and then can effectively lift off current power equipment ground, and then can conveniently carry out the removal transfer of current power equipment service position, conveniently carry out the removal replacement of current power equipment, simultaneously through remove first functional mechanism to lifting rod one side, and then make the supporting rod can effectively block into the lifting disc inside, and then through control start lifting motor, and then make lifting motor can effectively drive lifting worm through lifting gear and connecting gear and rotate, and then make lifting worm cooperation lifting worm wheel can effectively drive lifting rod rotate, rotatory lifting rod rotates through driving the lifting disc, and then make the lifting disk can move into second functional mechanism inside through supporting the pole lifting with first functional mechanism one end, until the lifting disk homoenergetic of second functional mechanism carries out the joint with the supporting pole of first functional mechanism, the rethread control starts hoist motor, and then make first functional mechanism can bear current power equipment and lift off the ground together, and then through control start driving motor, and then make driving motor can rotate through second bull stick, the second slide bar, first bull stick, first slide bar, rotatory bevel gear, first bevel gear and second bevel gear synchronous drive promotion threaded rod, and then make the promotion threaded rod can effectively remove and adjust the lifting frame and use highly, and then the maintenance of current power equipment is convenient, make equipment can high-efficiently carry out the realization of effect function.

Drawings

FIG. 1 is a front perspective view of the present invention;

FIG. 2 is a rear perspective view of the present invention;

FIG. 3 is a front cross-sectional perspective view of the present invention;

FIG. 4 is an expanded perspective view in elevation and cross-section of a first functional mechanism of the present invention;

FIG. 5 is an enlarged view of portion A of FIG. 4 in accordance with the present invention;

FIG. 6 is a front cross-sectional perspective view of a second functional mechanism of the present invention;

FIG. 7 is an enlarged view of portion B of FIG. 6 in accordance with the present invention;

FIG. 8 is an enlarged view of portion C of FIG. 6 in accordance with the present invention;

Fig. 9 is an enlarged view of portion D of fig. 6 in accordance with the present invention.

The marks in the figure: 1. a first functional mechanism; 101. a bottom frame; 102. a two-way threaded rod; 103. a moving block; 104. a connection frame; 105. a support frame; 106. a support wheel; 107. a clamping plate; 108. abutting against the frame; 109. a traction ring; 110. a moving gear; 111. an adjusting gear; 112. adjusting a worm wheel; 113. a moving motor; 114. a positioning rod; 115. a first carrier plate; 116. a second carrier plate; 117. an extension plate; 118. a supporting rod; 119. an extension rod; 120. a connecting pipe; 121. an adjusting bolt; 2. a second functional mechanism; 201. a first fixing frame; 202. a second fixing frame; 203. a third fixing frame; 204. a sliding frame; 205. lifting the threaded rod; 206. a lifting frame; 207. a lifting rod; 208. a lifting plate; 209. lifting the motor; 210. lifting the worm wheel; 211. a connecting gear; 212. a first rotating lever; 213. rotating the bevel gear; 214. a second rotating rod; 215. a second bevel gear; 216. a second slide bar; 217. a driving motor; 218. a first slide bar; 219. a swivel; 220. a first bevel gear.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Example 1

Referring to fig. 1-9: a carbon emission optimization device comprising: the first functional mechanism 1 and the second functional mechanism 2, the first functional mechanism 1 comprises a bottom frame 101 and a carrying part, the bottom frame 101 is set up to provide the installation foundation for setting other functional parts of the equipment, the bottom frame 101 is provided with two in total, two bidirectional threaded rods 102 are rotatably connected between the opposite inner surface walls of two sides of each bottom frame 101, the setting up of the bidirectional threaded rods 102 can effectively move and adjust the use position of the moving block 103, two moving blocks 103 are threadedly connected to the outer surface of each bidirectional threaded rod 102, the setting up of the moving block 103 can effectively move and adjust the use position of the connecting frame 104, the bottom of each moving block 103 is fixedly connected with the connecting frame 104, the setting up of the connecting frame 104 can effectively move and adjust the use position of one end of the supporting frame 105, the setting up of the supporting frame 105 is rotatably connected between the opposite inner surface walls of two sides of each connecting frame 104, the setting up of the supporting wheel 106 of the supporting frame 105 can carry out the supporting movement of the first functional mechanism 1, the outer surfaces of two sides of each supporting frame 105 are respectively and rotatably connected with supporting wheels 106, the object carrying parts are arranged on the two bottom frames 101, the second functional mechanism 2 comprises a first fixed frame 201, a second fixed frame 202 and two third fixed frames 203, the first fixed frame 201, the second fixed frame 202 and the third fixed frame 203 are conveniently arranged for installing other functional parts of equipment, the tops of the first fixed frame 201, the second fixed frame 202 and the two third fixed frames 203 are respectively and fixedly connected with a sliding frame 204, the tops of the first fixed frame 201, the second fixed frame 202 and the two third fixed frames 203 are respectively and rotatably connected with lifting threaded rods 205, the lifting threaded rods 205 can effectively move and adjust the use height of the lifting frames 206, the four lifting threaded rods 205 are divided into two groups, lifting frames 206 are respectively and threadably connected between the outer surfaces of the two lifting threaded rods 205 of each group, the setting up of hoisting frame 206 is convenient carries out the installation setting of other functional units of equipment, all rotates between the relative interior table wall in every hoisting frame 206 both sides and is connected with lifting rod 207, and every lifting rod 207 surface all overlaps and is equipped with lifting disk 208, and the setting up of lifting disk 208 cooperates the supporting rod 118 and can carry out the firm support of first functional mechanism 1, and every lifting rod 207 surface all overlaps and is equipped with lifting worm wheel 210.

Referring to fig. 3-9: a limit groove is formed on the outer surface of one side of each supporting frame 105, the limit grooves are formed to enable the supporting frames 108 to limit the use angle of the supporting frames 105 through limit rods, the supporting frames 108 are fixedly connected to the outer surfaces of two sides of each bottom frame 101, limit rods are fixedly connected between the opposite inner surface walls of two sides of each supporting frame 108, one end of each limit rod penetrates through the corresponding limit groove in a sliding mode, traction rings 109 are fixedly connected to the outer surfaces of one side of the two supporting frames 108, the traction rings 109 are conveniently arranged to carry out position movement traction movement of the first functional mechanism 1, locating rods 114 are connected to the tops of the supporting frames 108 in a threaded mode, the setting of the positioning rods 114 can effectively fix and limit the use angle of the supporting frame 105, the bottom of each bottom frame 101 is rotationally connected with a connecting shaft, the setting of the connecting shaft is convenient for the installation and setting of other functional components of the equipment, the outer surface of each connecting shaft is sleeved with an adjusting gear 111 and an adjusting worm wheel 112, the outer surface of each bidirectional threaded rod 102 is sleeved with a moving gear 110, each moving gear 110 is meshed with the corresponding adjusting gear 111, the bottom of each bottom frame 101 is rotationally connected with an adjusting worm, each adjusting worm is meshed with the corresponding adjusting worm wheel 112, the bottom of each bottom frame 101 is fixedly connected with a moving motor 113, the setting up of the mobile motors 113 provides power required by the rotation of the bidirectional threaded rods 102, the output end of each mobile motor 113 is fixedly connected with one end of the corresponding adjusting worm, two groups of carrying components are arranged, each group of carrying components comprises a first carrying plate 115 and a second carrying plate 116, the setting up of the first carrying plate 115 is matched with the second carrying plate 116 and the extending plate 117 to carry out stable bearing of the existing power equipment, the extending plate 117 is fixedly connected between the outer surface of one side of the first carrying plate 115 and the outer surface of one side of the second carrying plate 116 through bolts, one end of the first carrying plate 115 and one end of the second carrying plate 116 are respectively extended into the corresponding bottom frame 101, the top of the first carrier plate 115 and the top of the second carrier plate 116 are fixedly connected with mounting plates, the outer surfaces of one side of the two mounting plates are respectively connected with an adjusting bolt 121 in a threaded manner, the adjusting bolts 121 can effectively move the use positions of the adjusting clamping plates 107, and further stabilize the use positions of the first carrier plate 115 and the second carrier plate 116, one ends of the two adjusting bolts 121 are respectively and rotatably connected with the clamping plates 107, the outer surfaces of the first carrier plate 115 and the second carrier plate 116 are respectively and fixedly connected with a supporting rod 118, an extension rod 119 is inserted between one ends of the two supporting rods 118, a connecting pipe 120 is respectively and rotatably connected between the outer surfaces of the extension rod 119 and the outer surfaces of the two supporting rods 118, the two ends of each lifting frame 206 extend into the corresponding sliding frame 204 respectively, the bottom of each lifting frame 206 is fixedly connected with a lifting motor 209, the lifting motor 209 is set up to provide power required by the rotation of a lifting rod 207, the output end of each lifting motor 209 is sleeved with a lifting gear, the bottom surface of the inside of each lifting frame 206 is rotationally connected with a lifting worm, each lifting worm is meshed with a corresponding lifting worm wheel 210, one end of each lifting worm is fixedly connected with a connecting gear 211, each connecting gear 211 is meshed with a corresponding lifting gear, the outer surface of each lifting threaded rod 205 is sleeved with a rotary conical gear 213, the outer surfaces of the two sides of the second fixed frame 202 are respectively and rotatably connected with a swivel 219, the swivel 219 is arranged to enable the first slide bar 218 and the second slide bar 216 to rotate, the outer surfaces of the two sides of each third fixed frame 203 are respectively and rotatably connected with a swivel 219, the outer surfaces of the two sides of the first fixed frame 201 are respectively and rotatably connected with a first rotating rod 212 and a second rotating rod 214, the outer surface of one side of the second fixed frame 202 is also rotatably connected with a first rotating rod 212, one end of each first rotating rod 212 is connected with a first slide bar 218 in a threaded manner, one end of each first slide bar 218 is in sliding penetration with the corresponding two swivel 219, the outer surface of each first slide bar 218 is in sliding sleeve arrangement with a first conical gear 220, and each first conical gear 220 is rotatably connected with the inner surface wall on one side of the corresponding third fixed frame 203, the outer surface of each first rotating rod 212 is also sleeved with a first conical gear 220, each first conical gear 220 is meshed with the corresponding rotating conical gear 213, one end of each second rotating rod 214 is in threaded connection with a second sliding rod 216, one end of each second sliding rod 216 slides through the corresponding two rotating rings 219, the outer surface of each second sliding rod 216 is slidably sleeved with a second conical gear 215, the outer surface of each second rotating rod 214 is also sleeved with a second conical gear 215, each second conical gear 215 is meshed with the corresponding rotating conical gear 213, the outer surface of one side of the first fixing frame 201 is fixedly connected with a driving motor 217, and the output end of the driving motor 217 is fixedly connected with one end of the second rotating rod 214.

The following describes in detail the method for using the carbon emission optimization device provided by the embodiment of the invention, and the method for using the carbon emission optimization device comprises the following steps:

Step one, mobile transfer: according to the actual structure of the existing power equipment, two bottom frames 101 are respectively attached to two sides of the existing power equipment, the extension plates 117 are increased or decreased, the first carrier plate 115, the extension plates 117 and the second carrier plate 116 can be effectively inserted into the lower portion of the existing power equipment, the rotary adjusting bolts 121 are rotated, the rotary adjusting bolts 121 can move the adjusting clamping plates 107, the first carrier plate 115 and the second carrier plate 116 can be firmly connected with the bottom frames 101, the first carrier plate 115, the extension plates 117 and the second carrier plate 116 can form an effective supporting and limiting effect, the movable motor 113 is controlled to be started, the movable motor 113 can effectively drive the connecting shaft to rotate through the adjusting worm and the adjusting worm gear 112, the connecting shaft can effectively drive the bidirectional threaded rod 102 to rotate through the adjusting gear 111 and the movable gear 110, the corresponding movable block 103 can effectively move the using position of the threaded rod 102, the movable block 103 can effectively move one end of the supporting frame 105 in cooperation with the connecting frame 104, the supporting frame 105 can be effectively lifted from the existing power equipment through the supporting wheel 106 under the position limitation of the limiting groove and the limiting rod, and the conventional power equipment can be conveniently and conveniently moved;

Step two, lifting and maintaining: through removing first functional mechanism 1 to lifting bar 207 one side, and then make supporting rod 118 can effectively block into inside lifting disc 208, and then through control start lifting motor 209, and then make lifting motor 209 can effectively drive lifting worm through lifting gear and connecting gear 211 and rotate, and then make lifting worm cooperation lifting worm wheel 210 can effectively drive lifting bar 207 and rotate, rotatory lifting bar 207 rotates through driving lifting disc 208, and then make lifting disc 208 can be with first functional mechanism 1 one end through supporting rod 118 lifting move into second functional mechanism 2 inside, until the lifting disc 208 homoenergetic of second functional mechanism 2 carries out the joint with supporting rod 118 of first functional mechanism 1, and then through control start lifting motor 209, and then make first functional mechanism 1 can bear current power equipment and lift off the ground together, and then through control start driving motor 217, and then make driving motor 217 can drive lifting 205 through second bull stick 214, second bull stick 216, first bull stick 212, first threaded rod 218, rotating conical gear 213, first conical gear 220 and second conical gear 215 are synchronous, and then make lifting disc 208 can carry out 205 lifting with the lifting rod 118, and then make high-efficient maintenance of the high-efficient lifting frame can carry out high maintenance of equipment.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (10)

1. A carbon emission optimization apparatus, characterized by comprising:

The multifunctional device comprises a first functional mechanism (1), wherein the first functional mechanism (1) comprises a bottom frame (101) and object carrying components, the bottom frame (101) is provided with two in total, two bidirectional threaded rods (102) are respectively connected between the opposite inner surface walls on two sides of the bottom frame (101) in a rotating mode, two moving blocks (103) are respectively connected to the outer surfaces of the bidirectional threaded rods (102) in a threaded mode, a connecting frame (104) is respectively fixedly connected to the bottoms of the moving blocks (103), supporting frames (105) are respectively connected between the opposite inner surface walls on two sides of the connecting frame (104) in a rotating mode, supporting wheels (106) are respectively connected to the outer surfaces on two sides of the supporting frames (105) in a rotating mode, and the object carrying components are arranged on the two bottom frames (101); and

The second functional mechanism (2), second functional mechanism (2) are including first fixed frame (201), fixed frame (202) of second and two third fixed frames (203), all fixedly connected with sliding frame (204) in fixed frame (201), fixed frame (202) of second and two third fixed frames (203) top, all rotate at fixed frame (201), fixed frame (202) of second and two third fixed frames (203) top and are connected with promotion threaded rod (205), four promotion threaded rod (205) divide into two altogether, every two in groups equal threaded connection has lifting frame (206) between lifting threaded rod (205) surface, every all rotate between lifting frame (206) both sides relative interior table wall and be connected with lifting rod (207), every lifting rod (207) surface all overlaps and is equipped with lifting disc (208), every lifting rod (207) surface all overlaps and is equipped with promotion worm wheel (210).

2. A carbon emission optimization apparatus as defined in claim 1, wherein: limiting grooves are formed in the outer surface of one side of each supporting frame (105), each supporting frame (108) is fixedly connected to the outer surface of two sides of each bottom frame (101), limiting rods are fixedly connected between the inner surface walls of the two sides of each supporting frame (108), and one end of each limiting rod penetrates through the corresponding limiting groove in a sliding mode.

3. A carbon emission optimization apparatus as defined in claim 2, wherein: wherein two support frame (108) one side surface all fixedly connected with traction ring (109), every support frame (108) top all threaded connection has locating lever (114).

4. A carbon emission optimization apparatus as defined in claim 3, wherein: the bottom of each bottom frame (101) is rotationally connected with a connecting shaft, and an adjusting gear (111) and an adjusting worm wheel (112) are sleeved on the outer surface of each connecting shaft.

5. A carbon emission optimization apparatus as defined in claim 4, wherein: and each of the two-way threaded rods (102) is sleeved with a moving gear (110) on the outer surface, and each moving gear (110) is meshed with a corresponding adjusting gear (111).

6. A carbon emission optimization apparatus as defined in claim 5, wherein: every all rotate in underframe (101) bottom is connected with the regulation worm, every the regulation worm with correspond regulation worm wheel (112) and all mesh, every all fixedly connected with mobile motor (113) in underframe (101) bottom, every the output of mobile motor (113) and correspond the equal fixed connection of regulation worm one end.

7. A carbon emission optimization apparatus as defined in claim 6, wherein: the two groups of carrying components are arranged, each group of carrying components comprises a first carrying plate (115) and a second carrying plate (116), an extension plate (117) is fixedly connected between the outer surface of one side of the first carrying plate (115) and the outer surface of one side of the second carrying plate (116) through bolts, one end of the first carrying plate (115) and one end of the second carrying plate (116) respectively extend into the corresponding bottom frame (101), the top of the first carrying plate (115) and the top of the second carrying plate (116) are fixedly connected with mounting plates, two equal threaded connection of mounting piece one side surface has adjusting bolt (121), two equal rotation of adjusting bolt (121) one end is connected with splint (107), equal fixedly connected with of first carrier plate (115) surface and second carrier plate (116) surface supports pole (118), two it has extension rod (119) to insert between pole (118) one end, equal threaded connection has connecting pipe (120) between extension rod (119) surface and two support pole (118) surfaces.

8. A carbon emission optimization apparatus as defined in claim 7, wherein: every hoisting frame (206) both ends extend to respectively and correspond sliding frame (204) inside, every hoisting frame (206) bottom all fixedly connected with promotes motor (209), every the output of promoting motor (209) all overlaps and is equipped with the promotion gear, every the inside bottom surface of hoisting frame (206) all rotates and is connected with the promotion worm, every it all meshes to promote worm and corresponds promotion worm wheel (210), every it all fixedly connected with connecting gear (211) to promote worm one end, every connecting gear (211) all meshes with corresponding promotion gear.

9. A carbon emission optimization apparatus as defined in claim 8, wherein: each lifting threaded rod (205) is sleeved with a rotary conical gear (213), the outer surfaces of two sides of the second fixed frame (202) are rotationally connected with rotary rings (219), each outer surface of two sides of the third fixed frame (203) is rotationally connected with rotary rings (219), the outer surfaces of two sides of the first fixed frame (201) are rotationally connected with a first rotary rod (212) and a second rotary rod (214) respectively, the outer surface of one side of the second fixed frame (202) is rotationally connected with a first rotary rod (212), one end of each first rotary rod (212) is in threaded connection with a first sliding rod (218), one end of each first sliding rod (218) is in sliding penetration with corresponding two rotary rings (219), each outer surface of each first sliding rod (218) is in sliding penetration with a first conical gear (220), each first conical gear (220) is in sliding penetration with a second conical gear (216), each first conical gear (220) is in sliding connection with a corresponding inner surface of one side of the third fixed frame (203), each first rotary rod (212) is also in sliding with a first conical gear (220) is in sliding sleeve, the outer surface of the second rotating rod (214) is also sleeved with second bevel gears (215), each second bevel gear (215) is meshed with the corresponding rotating bevel gear (213), a driving motor (217) is fixedly connected to the outer surface of one side of the first fixed frame (201), and the output end of the driving motor (217) is fixedly connected with one end of the second rotating rod (214).

10. A method of using a carbon emission optimization device according to any one of claims 1-9, comprising the steps of:

s1, moving and transferring: according to the actual structure of the prior power equipment, two bottom frames (101) are respectively attached to two sides of the prior power equipment, the extension plates (117) are further increased or decreased, the first carrier plate (115), the extension plates (117) and the second carrier plate (116) can be inserted below the prior power equipment, further, through the rotary adjusting bolts (121), the rotary adjusting bolts (121) can move the adjusting clamping plates (107), the first carrier plate (115) and the second carrier plate (116) can be firmly connected with the bottom frames (101), the first carrier plates (115), the extension plates (117) and the second carrier plates (116) can form a supporting limiting effect, the moving motor (113) is further controlled to be started, the moving motor (113) can drive the connecting shaft to rotate through the adjusting worm and the adjusting worm wheel (112), the connecting shaft can drive the bidirectional threaded rod (102) to rotate through the adjusting gear (111) and the moving gear (110), the rotating bidirectional threaded rod (102) can move the corresponding moving block (103) to be used in position, the moving block (103) can be matched with the connecting block (104) to move the supporting frame (105) to limit the supporting frame (105) to be further high in the supporting frame (105) to limit the supporting frame (106), thereby effectively lifting the existing power equipment off the ground;

S2, lifting maintenance: through moving first function mechanism (1) to lifting rod (207) one side, and then make supporting rod (118) can block into lifting disc (208) inside, and then through control start lifting motor (209), and then make lifting motor (209) can effectively drive lifting worm through lifting gear and connecting gear (211) and rotate, and then make lifting worm cooperation lifting worm wheel (210) can drive lifting rod (207) and rotate, rotatory lifting rod (207) is through driving lifting disc (208) and rotate, and then make lifting disc (208) can be with first function mechanism (1) one end through supporting rod (118) lifting move into second function mechanism (2) inside, until lifting disc (208) homoenergetic of second function mechanism (2) carries out the joint with supporting rod (118) of first function mechanism (1), and then through control start lifting motor (209), and then make first function mechanism (1) can bear current power equipment and lift off the ground together, and then through control start driving motor (217), and then make driving motor (217) can drive through second slide bar (214), second slide bar (216), first taper gear (212), first taper gear (220) and first taper gear (213) rotation synchronous threaded rod (220), thereby enabling the lifting threaded rod (205) to move and adjust the use height of the lifting frame (206).