CN108423508A - A kind of operation program monitor for elevator equipment - Google Patents
A kind of operation program monitor for elevator equipment Download PDFInfo
- Publication number
- CN108423508A CN108423508A CN201810195466.XA CN201810195466A CN108423508A CN 108423508 A CN108423508 A CN 108423508A CN 201810195466 A CN201810195466 A CN 201810195466A CN 108423508 A CN108423508 A CN 108423508A
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- China
- Prior art keywords
- transmission
- positioning
- driving
- gear
- right end
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B66—HOISTING; LIFTING; HAULING
- B66B—ELEVATORS; ESCALATORS OR MOVING WALKWAYS
- B66B5/00—Applications of checking, fault-correcting, or safety devices in elevators
- B66B5/0006—Monitoring devices or performance analysers
- B66B5/0018—Devices monitoring the operating condition of the elevator system
- B66B5/0025—Devices monitoring the operating condition of the elevator system for maintenance or repair
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K7/00—Constructional details common to different types of electric apparatus
- H05K7/20—Modifications to facilitate cooling, ventilating, or heating
- H05K7/20009—Modifications to facilitate cooling, ventilating, or heating using a gaseous coolant in electronic enclosures
- H05K7/20136—Forced ventilation, e.g. by fans
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- Engineering & Computer Science (AREA)
- Microelectronics & Electronic Packaging (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Types And Forms Of Lifts (AREA)
Abstract
The invention discloses a kind of operation program monitor for elevator equipment,Its structure includes internal regulation device,Thermovent,Shell,Display screen,Power supply indicator,Bump rubber,Rotate external connection bar,Body,Internal regulation device is mounted on internal body,Display screen side is embedded in inside body front end,Body front end side is with enclosure using excessively cooperation,Power supply indicator is mounted on body front end,Bump rubber medial surface is fixedly connected with shell lower half end lateral surface,Rotation external connection bar left end is connected to through body inside internal regulation device,A kind of internal regulation device of operation program monitor for elevator equipment of the present invention,The device can carry out angular adjustment after equipment is installed and fixed,Convenience when staff uses can be increased in this way,Equipment is internally provided with radiator simultaneously,The device can increase the time that equipment persistently uses,Improve the use value of equipment.
Description
Technical field
The present invention is a kind of operation program monitor for elevator equipment, belongs to operation program monitor for elevator equipment field.
Background technology
Existing elevator parts are more, and circuit is complicated, and the operation control of lift car needs to open by many relays etc.
Device is closed to realize, whether the state of the switching devices such as these relays can reflect that lift facility is working properly.In general,
The state of the switching devices such as above-mentioned relay be not can easily observe, meanwhile, overhauling elevator personnel generally require
It is time-consuming and laborious come failure judgement where, in this way, rapidly repair elevator just have actual difficulty.If can learn at any time each
The state of the switching devices such as relay is having event then can also grasp the substantially situation of lift facility working procedure at any time
When barrier, an experienced service personnel thereby easily finds out guilty culprit.
Existing operation program monitor for elevator equipment is not easy to be adjusted after installation is fixed, in this way when being used
The use difficulty of staff can be increased, reduce use value.
Invention content
In view of the deficienciess of the prior art, it is an object of the present invention to provide a kind of operation program monitor for elevator equipment, with
It is not perfect to solve the prior art, existing operation program monitor for elevator equipment is not easy to be adjusted after installation is fixed, in this way
The difficulty that uses of staff can be increased when being used, reduce use value.
To achieve the goals above, the present invention is to realize by the following technical solutions:A kind of lift facility work journey
Sequence monitor, structure include internal regulation device, thermovent, shell, display screen, power supply indicator, bump rubber, rotation
External connection bar, body, the internal regulation device are mounted on internal body, and the display screen side is embedded in body front end
Portion, with enclosure using excessively cooperation, the power supply indicator is mounted on body front end, described slow for body front end side
It rushes rubber block medial surface to be fixedly connected with shell lower half end lateral surface, the rotation external connection bar left end is connected to through body
Inside internal regulation device, the thermovent is in turn connected into rectangle structure and is arranged at the top of body;The internal regulation dress
It sets and is made of radiator, tumbler, puller system, linkage, driving device;Connection at the top of the tumbler right end
To heat sink interior, tumbler bottom right end is fixedly connected with puller system left end, and the linkage left end connects
It is connected to inside puller system right end, the driving device left end is sequentially connected with linkage bottom end.
Further, the radiator is by motor, positioning transmission bar, drive link, toothed disc, transmission gear bar, positioning
Rack, transmission belt, connecting rod, exhaust fan, L-shaped supporting rack composition.
Further, be meshed on the left of motor right end top side and positioning transmission bar bottom end, described drive link one end with
It is sequentially connected on the right side of positioning transmission bar bottom end, is meshed on front side of other end side and toothed disc outer ring, the transmission gear
It is meshed on front side of bar left end trailing flank and toothed disc outer ring, the transmission gear bar right end is carried out with positioning rack bottom end side
Be sequentially connected, the transmission belt both ends are connected respectively to end side surface in positioning rack and connecting rod, the connecting rod bottom with
Vertical connection at the top of connecting rod left end is fixedly connected inside the connecting rod top and exhaust fan.
Further, the tumbler by pull strap, driving cog wheel disc, fixed block, sleeve, transmission bottom connector rails,
Both sides Connection Bracket, bottom Composite Transmission frame, intermediate transmission connecting rod, bottom adjust drive plate, spring, internal activity block group
At.
Further, described pull strap one end is connected to toothed disc front end side, before the other end is fixed on driving cog wheel disc
End side surface is meshed on front side of the intermediate transmission connecting rod right end side and driving cog wheel disc outer ring, inside the fixed block with
Intermediate transmission connecting rod right end side vertical connection, the spring one end are connected to fixed block left end side, and the other end is connected to
Sleeve right end side, the inner surface of the internally positioned movable block of the bottom Composite Transmission frame left end and passes through internal activity block
Drive plate secure fit is adjusted with bottom to link together, the bottom Composite Transmission frame right end and intermediate transmission connecting rod middle-end
Inside grooves are slidably connected, and the bottom Composite Transmission frame right end is welded with sleeve left end, the transmission bottom connector rails top
Inside is gap-matched with cartridges sides, and the both sides Connection Bracket right end is vertical with bottom adjusting drive plate upper and lower ends
Connection, the rotation external connection bar are connected to inside the Connection Bracket of both sides.
Further, the puller system is driven by drive lugs, bottom driving gear, left end driving connecting rod, fulcrum
Block, pulling force drive connection frame, lifting moving rack, right end fixed pulley composition, the drive lugs back and bottom driving gear
Inner ring leading flank vertical connection, the pulling force drive connection frame right end inside are flexibly connected with drive lugs side, the pulling force
Drive connection frame middle-end bottom is rotatablely connected with fulcrum drive block front end, and the pulling force drive connection frame left end connects with transmission bottom
Welding, bottom driving gear side are meshed with lifting moving rack left end side on the right side of extension bar bottom end, and the lifting moves
It is welded with right end fixed pulley left end on the right side of carry-over bar upper half end.
Further, the linkage turns to driving wheel by positioning, is fixedly connected with ear, pulling force rope, center force transmission
Frame, positioning stablity gear, lower rotation control cage composition.
Further, described be fixedly connected between ear is mutually parallel and bottom is welded with both ends at the top of the force gear frame of center
It connects, described pulling force rope one end, which is connected to, to be fixedly connected inside ear, and the other end is connected to right end around positioning steering driving wheel and slides surely
Wheel is internal, and end side surface is meshed with positioning stablity gear side in the center force gear frame, positioning stablity gear bottom
End is internal to be flexibly connected with lower rotation control cage top back.
Further, the driving device is by driving motor, positioning linkage gear bar, positioning of bottom driving cog wheel disc, bottom
Portion's transmission belt, the second driving cog wheel disc, third driving cog wheel disc, intermediate connection drive link, the second bottom conveying belt composition, it is described
Driving motor bottom end is meshed by positioning on front side of linkage gear bar and positioning of bottom driving cog wheel disc outer ring, the bottom driving
Band both ends are connected respectively to positioning of bottom driving cog wheel disc and the second driving cog wheel disc front end side face, the second driving cog wheel disc
Drive link right end side is connect on front side of outer ring with centre to be meshed, the intermediate connection drive link left end trailing flank is driven with third
It is meshed on front side of toothed disc outer ring, the third driving cog wheel disc passes through the second bottom conveying belt and lower rotation control cage bottom end
Front side is sequentially connected.
Further, the driving motor can generate driving torque as power source.
Further, one end of pulling force rope can be fixed in the ear that is fixedly connected.
Advantageous effect
A kind of operation program monitor for elevator equipment of the present invention, it would be desirable to driving torque be generated by motor and be used as power
Source, motor are rotated by the transmission belt moving teeth wheel disc between positioning transmission bar, drive link, and toothed disc is by passing through transmission gear bar
Positioning rack rotation is driven, then drives exhaust fan to carry out rotation work, such energy by the transmission between transmission belt, connecting rod
Enough increase the radiating rate inside equipment, increases the time that equipment persistently uses, improve the use value of equipment, toothed disc passes through
Pull strap band nutating gear disk is rotated, to drive the rotation of intermediate transmission connecting rod, such intermediate transmission connecting rod
It will continue to rotate, when equipment being needed integrally to be rotated, driving motor drives positioning of bottom to pass by positioning linkage gear bar
Moving teeth wheel disc is rotated, and positioning of bottom driving cog wheel disc passes through bottom conveying belt, the second driving cog wheel disc, intermediate connection transmission
Transmission between bar drives the rotation of third driving cog wheel disc, third driving cog wheel disc to control bottom by the second bottom conveying belt and turn
The rotation of dynamic control cage, lower rotation control cage are capable of the rise and fall of control centre's force gear frame, center by rotation
For force gear frame by pulling force rope by the past pull-up of lifting moving rack, lifting moving rack can drive lifting moving rack to turn
Dynamic, then pulling force drive connection frame is turned right pressure by drive lugs, transmission bottom connector rails are turned left movement with moving sleeve, and bottom is multiple
Gear frame is closed by being connected together inside internal activity block and bottom adjusting drive plate, bottom adjusts drive plate and can follow
Intermediate transmission connecting rod rotates, and to realize the adjusting of angle automatically, can increase convenience when staff uses in this way.
A kind of internal regulation device of operation program monitor for elevator equipment of the present invention, the device can be installed solid in equipment
Angular adjustment is carried out after fixed, convenience when staff uses can be increased in this way, while equipment is internally provided with radiator,
The device can increase the time that equipment persistently uses, and improve the use value of equipment.
Description of the drawings
Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other feature of the invention,
Objects and advantages will become more apparent upon:
Fig. 1 is a kind of structural schematic diagram of operation program monitor for elevator equipment of the present invention.
Fig. 2 is the structural schematic diagram of internal regulation device of the present invention.
Fig. 3 is the structural schematic diagram of internal regulation device of the present invention refinement.
Fig. 4 is the structural schematic diagram of internal regulation working state of device of the present invention.
In figure:Internal regulation device -1, thermovent -2, shell -3, display screen -4, power supply indicator -5, bump rubber -
6, rotation external connection bar -7, body -8, radiator -11, tumbler -12, puller system -13, linkage -14, drive
Dynamic device -15, motor -111, positioning transmission bar -112, drive link -113, toothed disc -114, transmission gear bar -115, positioning tooth
Take turns bar -116, transmission belt -117, connecting rod -118, exhaust fan -119, L-shaped supporting rack -1110, pull strap -121, transmission gear
Disk -122, fixed block -123, sleeve -124, transmission bottom connector rails -125, both sides Connection Bracket -126, bottom Composite Transmission
Frame -127, intermediate transmission connecting rod -128, bottom adjusting drive plate -129, spring -1210, internal activity block -1211, transmission are convex
Block -131, bottom driving gear -132, left end driving connecting rod -133, fulcrum drive block -134, pulling force drive connection frame -135,
Lifting moving rack -136, right end fixed pulley -137, positioning turn to driving wheel -141, be fixedly connected ear -142, pulling force rope -143,
Center force gear frame -144, positioning stablity gear -145, lower rotation control cage -146, driving motor -151, positioning linkage
Rack -152, positioning of bottom driving cog wheel disc -153, bottom conveying belt -154, the second driving cog wheel disc -155, third transmission
Toothed disc -156, intermediate connection drive link -157, the second bottom conveying belt -158.
Specific implementation mode
To make the technical means, the creative features, the aims and the efficiencies achieved by the present invention be easy to understand, with reference to
Specific implementation mode, the present invention is further explained.
- Fig. 4 is please referred to Fig.1, the present invention provides a kind of operation program monitor for elevator equipment technical solution:Its structure includes
Internal regulation device 1, thermovent 2, shell 3, display screen 4, power supply indicator 5, bump rubber 6, rotation external connection bar 7,
Body 8, the internal regulation device 1 are mounted on inside body 8, and 4 side of the display screen is embedded in inside 8 front end of body, institute
8 front end side of body is stated with 3 inside of shell using excessively cooperation, the power supply indicator 5 is mounted on 8 front end of body, described slow
It rushes 6 medial surface of rubber block to be fixedly connected with 3 lower half end lateral surface of shell, 7 left end of rotation external connection bar connects through body 8
It is connected to inside internal regulation device 1, the thermovent 2 is in turn connected into rectangle structure and is arranged in 8 top of body;The inside
Regulating device 1 is made of radiator 11, tumbler 12, puller system 13, linkage 14, driving device 15;Described turn
It is connected to inside radiator 11 at the top of 12 right end of dynamic device, 12 bottom right end of the tumbler is solid with 13 left end of puller system
Fixed connection, 14 left end of the linkage are connected to inside 13 right end of puller system, and 15 left end of the driving device is filled with linkage
It sets 14 bottom ends to be sequentially connected, the radiator 11 is by motor 111, positioning transmission bar 112, drive link 113, toothed disc
114, transmission gear bar 115, positioning rack 116, transmission belt 117, connecting rod 118, exhaust fan 119,1110 groups of L-shaped supporting rack
At, it is meshed on the left of 111 right end top side of the motor and 112 bottom end of positioning transmission bar, 113 one end of the drive link and positioning biography
It is sequentially connected on the right side of 112 bottom end of lever, is meshed on front side of other end side and 114 outer ring of toothed disc, the transmission gear
It is meshed on front side of 115 left end trailing flank of bar and 114 outer ring of toothed disc, 115 right end of transmission gear bar and positioning rack 116
Bottom end side is sequentially connected, and 117 both ends of the transmission belt are connected respectively to positioning rack 116 and 118 middle-end of connecting rod
Side, 118 bottom of the connecting rod and vertical connection, 118 top of the connecting rod and exhaust fan at the top of 118 left end of connecting rod
It is fixedly connected inside 119, the tumbler 12 is by pull strap 121, driving cog wheel disc 122, fixed block 123, sleeve 124, biography
Dynamic bottom connector rails 125, both sides Connection Bracket 126, bottom Composite Transmission frame 127, intermediate transmission connecting rod 128, bottom tune
It saves drive plate 129, spring 1210, internal activity block 1211 to form, 121 one end of the pull strap is connected to 114 front end of toothed disc
Side, the other end are fixed on 122 front end side of driving cog wheel disc, 128 right end side of intermediate transmission connecting rod and driving cog
It is meshed on front side of 122 outer ring of wheel disc, 123 inside of the fixed block and 128 right end side vertical connection of intermediate transmission connecting rod, institute
It states 1210 one end of spring and is connected to 123 left end side of fixed block, the other end is connected to 124 right end side of sleeve, and the bottom is multiple
It closes the inner surface of the internally positioned movable block of 127 left end of gear frame 1211 and passes through internal activity block 1211 and adjusted with bottom and pass
129 secure fit of Moving plate links together, and 127 right end of bottom Composite Transmission frame and 128 middle-end of intermediate transmission connecting rod are recessed
Slot internal slide connects, and 127 right end of bottom Composite Transmission frame is welded with 124 left end of sleeve, the transmission bottom connector rails
It is gap-matched with 124 side of sleeve inside 125 tops, 126 right end of both sides Connection Bracket is adjusted with bottom and is driven
129 upper and lower ends vertical connection of disk, the rotation external connection bar 7 are connected to inside both sides Connection Bracket 126, the pulling force
Device 13 is driven by drive lugs 131, bottom driving gear 132, left end driving connecting rod 133, fulcrum drive block 134, pulling force
Link 135, lifting moving rack 136, right end fixed pulley 137 form, 131 back of the drive lugs and bottom driving gear
132 inner ring leading flank vertical connections, 135 right end of the pulling force drive connection frame inside are flexibly connected with 131 side of drive lugs,
The 135 middle-end bottom of pulling force drive connection frame is rotatablely connected with 134 front end of fulcrum drive block, the pulling force drive connection frame
It is welded on the right side of 135 left ends and 125 bottom end of transmission bottom connector rails, 132 side of bottom driving gear and lifting moving rack
136 left end sides are meshed, and are welded with 137 left end of right end fixed pulley on the right side of 136 upper half end of the lifting moving rack, described
Device 14 is moved to turn to driving wheel 141 by positioning, be fixedly connected with ear 142, pulling force rope 143, center force gear frame 144, positioning surely
Fixed gear 145, lower rotation control cage 146 form, and described be fixedly connected between ear 142 is mutually parallel and bottom exerts a force with center
144 top both ends of gear frame are welded, and 143 one end of the pulling force rope, which is connected to, to be fixedly connected inside ear 142, and the other end is around positioning
It turns to driving wheel 141 to be connected to inside right end fixed pulley 137, end side surface and positioning stablity in the center force gear frame 144
145 side of gear is meshed, 145 bottom inner portion of positioning stablity gear and the activity of 146 top back of lower rotation control cage
Connection, the driving device 15 is by driving motor 151, positioning linkage gear bar 152, positioning of bottom driving cog wheel disc 153, bottom
Transmission belt 154, the second driving cog wheel disc 155, third driving cog wheel disc 156, intermediate connection drive link 157, the second bottom driving
Band 158 forms, and 151 bottom end of the driving motor is by positioning linkage gear bar 152 and 153 outer ring of positioning of bottom driving cog wheel disc
Front side is meshed, and 154 both ends of the bottom conveying belt are connected respectively to positioning of bottom driving cog wheel disc 153 and the second transmission gear
155 front end side of disk, 155 outer ring of the second driving cog wheel disc front side connect 157 right end side of drive link with centre and are meshed,
It is meshed on front side of the intermediate connection 157 left end trailing flank of drive link and 156 outer ring of third driving cog wheel disc, the third transmission
Toothed disc 156 on front side of the second bottom conveying belt 158 and 146 bottom end of lower rotation control cage by being sequentially connected, the drive
Dynamic motor 151 can generate driving torque as power source, it is described be fixedly connected ear 142 can to one end of pulling force rope 143 into
Row is fixed.
It is carrying out in use, we need to be used as power source by the generation of motor 111 driving torque, motor 111 passes through fixed
Transmission belt moving teeth wheel disc 114 between position drive link 112, drive link 113 rotates, and toothed disc 114 is by passing through transmission gear bar
115 drive positioning rack 116 to rotate, then drive exhaust fan 119 to carry out by the transmission between transmission belt 117, connecting rod 118
Rotation work can increase the radiating rate inside equipment in this way, increase the time that equipment persistently uses, improve the use of equipment
Value, toothed disc 114 is rotated by pull strap 121 with nutating gear disk 122, to drive intermediate transmission connecting rod
128 rotation, such intermediate transmission connecting rod 128 will continue to rotate, when equipment being needed integrally to be rotated, driving motor
151 drive positioning of bottom driving cog wheel disc 153 to be rotated by positioning linkage gear bar 152, positioning of bottom driving cog wheel disc
153 drive third to pass by the transmission between bottom conveying belt 154, the second driving cog wheel disc 155, intermediate connection drive link 157
Moving teeth wheel disc 156 rotates, and third driving cog wheel disc 156 controls lower rotation control cage 146 by the second bottom conveying belt 158
Rotation, lower rotation control cage 146 are capable of the rise and fall of control centre's force gear frame 144, center force by rotation
For gear frame 144 by pulling force rope 143 by the past pull-up of lifting moving rack 136, lifting moving rack 136 can drive lifting moving
Rack 136 rotates, then pulling force drive connection frame 135 is turned right pressure by drive lugs 131, the transmission drive of bottom connector rails 125
Toward moving left, bottom Composite Transmission frame 127 adjusts 129 inside of drive plate by internal activity block 1211 and bottom and blocks sleeve 124
It is connected together, bottom, which adjusts drive plate 129, can follow intermediate transmission connecting rod 128 to rotate, to realize angle automatically
It adjusts, convenience when staff uses can be increased in this way.
Problems solved by the invention is that the prior art is not perfect, and existing operation program monitor for elevator equipment is fixed in installation
After be not easy to be adjusted, can increase the difficulty that uses of staff when being used in this way, reduce use value, the present invention
By being combined with each other for above-mentioned component, which can carry out angular adjustment after equipment is installed and fixed, and can increase work in this way
Make convenience when personnel's use, while equipment is internally provided with radiator, the device can increase that equipment persistently uses when
Between, improve the use value of equipment.
The above shows and describes the basic principles and main features of the present invention and the advantages of the present invention, for this field skill
For art personnel, it is clear that invention is not limited to the details of the above exemplary embodiments, and without departing substantially from the present invention spirit or
In the case of essential characteristic, the present invention can be realized in other specific forms.Therefore, in all respects, should all incite somebody to action
Embodiment regards exemplary as, and is non-limiting, the scope of the present invention by appended claims rather than on state
Bright restriction, it is intended that including all changes that come within the meaning and range of equivalency of the claims in the present invention
It is interior.Any reference signs in the claims should not be construed as limiting the involved claims.
In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped
Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should
It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art
The other embodiment being appreciated that.
Claims (9)
1. a kind of operation program monitor for elevator equipment, structure include internal regulation device (1), thermovent (2), shell (3),
Display screen (4), power supply indicator (5), bump rubber (6), rotation external connection bar (7), body (8), it is characterised in that:
The internal regulation device (1) is mounted on body (8) inside, and display screen (4) side is embedded in body (8) front end
Portion, body (8) the front end side are mounted on body with inside shell (3) using excessively cooperation, the power supply indicator (5)
(8) front end, bump rubber (6) medial surface are fixedly connected with shell (3) lower half end lateral surface, the rotation external connection
Bar (7) left end is connected to internal regulation device (1) inside through body (8), and the thermovent (2) is sequentially connected rectangularity knot
Structure is arranged at the top of body (8);
The internal regulation device (1) by radiator (11), tumbler (12), puller system (13), linkage (14),
Driving device (15) forms;
It is internal that radiator (11) is connected at the top of tumbler (12) right end, tumbler (12) the bottom right end with
Puller system (13) left end is fixedly connected, and linkage (14) left end is connected to inside puller system (13) right end, described
Driving device (15) left end is sequentially connected with linkage (14) bottom end.
2. a kind of operation program monitor for elevator equipment according to claim 1, it is characterised in that:The radiator
(11) by motor (111), positioning transmission bar (112), drive link (113), toothed disc (114), transmission gear bar (115), positioning
Rack (116), transmission belt (117), connecting rod (118), exhaust fan (119), L-shaped supporting rack (1110) composition.
3. a kind of operation program monitor for elevator equipment according to claim 2, it is characterised in that:The motor (111)
It is meshed on the left of right end top side and positioning transmission bar (112) bottom end, described drive link (113) one end and positioning transmission bar (112)
It is sequentially connected on the right side of bottom end, is meshed on front side of other end side and toothed disc (114) outer ring, the transmission gear bar
(115) it is meshed on front side of left end trailing flank and toothed disc (114) outer ring, transmission gear bar (115) right end and positioning gear
Bar (116) bottom end side is sequentially connected, and transmission belt (117) both ends are connected respectively to positioning rack (116) and connect
End side surface in extension bar (118), connecting rod (118) bottom and vertical connection at the top of connecting rod (118) left end, the connecting rod
(118) it is fixedly connected inside top and exhaust fan (119).
4. a kind of operation program monitor for elevator equipment according to claim 1, it is characterised in that:The tumbler
(12) by pull strap (121), driving cog wheel disc (122), fixed block (123), sleeve (124), transmission bottom connector rails (125),
Both sides Connection Bracket (126), bottom Composite Transmission frame (127), intermediate transmission connecting rod (128), bottom adjust drive plate
(129), spring (1210), internal activity block (1211) composition.
5. a kind of operation program monitor for elevator equipment according to claim 4, it is characterised in that:The pull strap
(121) one end is connected to toothed disc (114) front end side, and the other end is fixed on driving cog wheel disc (122) front end side, in described
Between be meshed on front side of driving connecting rod (128) right end side and driving cog wheel disc (122) outer ring, the fixed block (123) is internal
With intermediate transmission connecting rod (128) right end side vertical connection, described spring (1210) one end is connected to fixed block (123) left end
Side, the other end are connected to sleeve (124) right end side, the internally positioned movable block of bottom Composite Transmission frame (127) left end
(1211) it inner surface and drive plate (129) secure fit is adjusted by internal activity block (1211) and bottom is connected to one
It rises, bottom Composite Transmission frame (127) right end is slidably connected with intermediate transmission connecting rod (128) middle-end inside grooves, described
Bottom Composite Transmission frame (127) right end and sleeve (124) left end weld, inside transmission bottom connector rails (125) top and
Sleeve (124) side is gap-matched, and both sides Connection Bracket (126) right end is adjusted with bottom on drive plate (129)
Lower both ends vertical connection, it is internal that the rotation external connection bar (7) is connected to both sides Connection Bracket (126).
6. a kind of operation program monitor for elevator equipment according to claim 1, it is characterised in that:The puller system
(13) by drive lugs (131), bottom driving gear (132), left end driving connecting rod (133), fulcrum drive block (134), drawing
Power drive connection frame (135), lifting moving rack (136), right end fixed pulley (137) composition, drive lugs (131) back
With bottom driving gear (132) inner ring leading flank vertical connection, pulling force drive connection frame (135) the right end inside and transmission are convex
Block (131) side is flexibly connected, and pulling force drive connection frame (135) the middle-end bottom is rotated with fulcrum drive block (134) front end
It is welded on the right side of connection, pulling force drive connection frame (135) left end and transmission bottom connector rails (125) bottom end, the bottom passes
Moving gear (132) side is meshed with lifting moving rack (136) left end side, lifting moving rack (136) the upper half end
It is welded with right end fixed pulley (137) left end on right side.
7. a kind of operation program monitor for elevator equipment according to claim 1, it is characterised in that:The linkage
(14) driving wheel (141) turned to by positioning, be fixedly connected with ear (142), pulling force rope (143), center force gear frame (144), fixed
Stablize gear (145), lower rotation control cage (146) composition in position.
8. a kind of operation program monitor for elevator equipment according to claim 7, it is characterised in that:It is described to be fixedly connected with ear
(142) it is mutually parallel between and bottom is welded with both ends at the top of center force gear frame (144), described pulling force rope (143) one end
It is connected to and is fixedly connected with ear (142) inside, the other end turns to driving wheel (141) around positioning and is connected to right end fixed pulley (137)
Inside, end side surface is meshed with positioning stablity gear (145) side in center force gear frame (144), and the positioning is surely
Fixed gear (145) bottom inner portion is flexibly connected with lower rotation control cage (146) top back.
9. a kind of operation program monitor for elevator equipment according to claim 1, it is characterised in that:The driving device
(15) by driving motor (151), positioning linkage gear bar (152), positioning of bottom driving cog wheel disc (153), bottom conveying belt
(154), the second driving cog wheel disc (155), third driving cog wheel disc (156), intermediate connection drive link (157), the second bottom pass
Dynamic band (158) forms, and driving motor (151) bottom end is by positioning linkage gear bar (152) and positioning of bottom transmission gear
It is meshed on front side of disk (153) outer ring, bottom conveying belt (154) both ends are connected respectively to positioning of bottom driving cog wheel disc
(153) with second driving cog wheel disc (155) front end side, the second driving cog wheel disc (155) outer ring front side is connect with centre
Drive link (157) right end side is meshed, intermediate connection drive link (157) the left end trailing flank and third driving cog wheel disc
(156) it is meshed on front side of outer ring, the third driving cog wheel disc (156) passes through the second bottom conveying belt (158) and lower rotation
It is sequentially connected on front side of control cage (146) bottom end.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201810195466.XA CN108423508A (en) | 2018-03-09 | 2018-03-09 | A kind of operation program monitor for elevator equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201810195466.XA CN108423508A (en) | 2018-03-09 | 2018-03-09 | A kind of operation program monitor for elevator equipment |
Publications (1)
Publication Number | Publication Date |
---|---|
CN108423508A true CN108423508A (en) | 2018-08-21 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109002153A (en) * | 2018-09-27 | 2018-12-14 | 李丹丹 | A kind of notebook arc-shaped radiator |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN2071172U (en) * | 1989-11-08 | 1991-02-13 | 朱鸿鹗 | Operation program monitor for elevator equipment |
CN104575276A (en) * | 2015-01-08 | 2015-04-29 | 池州易创电子科技有限公司 | Display screen with angle adjustment device |
CN205281327U (en) * | 2015-12-07 | 2016-06-01 | 重庆市涪陵区傅记商贸有限公司 | Novel computer display |
CN206862382U (en) * | 2017-05-26 | 2018-01-09 | 衢州欧科自动化仪表有限公司 | A kind of parameter measurement transmitter |
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2018
- 2018-03-09 CN CN201810195466.XA patent/CN108423508A/en active Pending
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2071172U (en) * | 1989-11-08 | 1991-02-13 | 朱鸿鹗 | Operation program monitor for elevator equipment |
CN104575276A (en) * | 2015-01-08 | 2015-04-29 | 池州易创电子科技有限公司 | Display screen with angle adjustment device |
CN205281327U (en) * | 2015-12-07 | 2016-06-01 | 重庆市涪陵区傅记商贸有限公司 | Novel computer display |
CN206862382U (en) * | 2017-05-26 | 2018-01-09 | 衢州欧科自动化仪表有限公司 | A kind of parameter measurement transmitter |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109002153A (en) * | 2018-09-27 | 2018-12-14 | 李丹丹 | A kind of notebook arc-shaped radiator |
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