CN206556620U - The Z-axis transmission balance regulator of three coordinate measuring machine - Google Patents
The Z-axis transmission balance regulator of three coordinate measuring machine Download PDFInfo
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- CN206556620U CN206556620U CN201720242205.XU CN201720242205U CN206556620U CN 206556620 U CN206556620 U CN 206556620U CN 201720242205 U CN201720242205 U CN 201720242205U CN 206556620 U CN206556620 U CN 206556620U
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Abstract
The utility model proposes a kind of Z-axis transmission balance regulator for three coordinate measuring machine.The device is on the balladeur train of three coordinate measuring machine X-axis, including cylinder, including fixed cylinder and the scalable expansion link in fixed cylinder one end, and fixed cylinder is fixed on balladeur train vertically, and expansion link is located at cylinder top;First pulley component is fixed on cylinder top, including at least one first pulley, and first pulley can be in vertical rotation in surface;At least one the first wire line thimbles include fixing end and movable end around first pulley, the first steel wire rope, and fixing end is fixed on fixed cylinder, and movable end can move up and down relative to fixing end;And power connector plate is located at the movable end of the first steel wire rope, power connector plate is used to connect the power drive unit that driving power connector plate moves up and down.The Z-axis transmission balance regulator improves the stability and measurement accuracy of three coordinate measuring machine, reduces processing and the difficulty installed, and then reduce cost.
Description
Technical field
The utility model is related to three coordinate measuring machine technical field, more particularly to a kind of Z-axis transmission of three coordinate measuring machine
Balance regulator.
Background technology
Three coordinate measuring machine be mainly used in the industries such as machinery, Aero-Space, auto parts and components, hardware, mould profile and
Surface configuration size, angle and position, gear, cam, worm gear, worm screw, blade, curve, measurement of curved surface, can also be to workpiece
Size, shape and form and position tolerance carry out Precision measurement, so as to complete the tasks such as piece test, profile measurement, process control.
Measuring apparatus balladeur train in the three coordinate measuring machine of prior art is located on crossbeam, and balance adjustment mechanism is fixed on
On balladeur train, the application of Z-axis transmission balance adjustment mechanism ensure that machine is operated steadily, high progress is moved, convenient to manipulate, so that
Measuring apparatus Z axis moves up and down relative to balladeur train, forms Z-direction motion.In three coordinate measuring machine, Z-axis transmission mechanism is typically adopted
Take cylinder, motor transmission.Good performance requirement can be reached in small, medium-sized machine, but in heavy-duty machines, machine Z
Axle stroke is increased, and cylinder can produce power all around when being rigidly connected of Z axis causes the equipment to run to the top, so that Z
Axle precision is reduced.The Z axis weight of one side three coordinate measuring machine is big, and increase X-axis rocks dynamics, causes measurement accuracy low;Separately
One side profile is uncoordinated compared with apperance, causes processing inconvenience and material cost high, client's installation is more not easy to, so as to can cause
The defect that the measurement accuracy of three coordinate measuring machine is relatively low and cost is high.
Therefore, it is necessary to a kind of Z-axis transmission balance adjustment mechanism for three coordinate measuring machine be studied, so as to improve three seats
The stability and measurement accuracy of co-ordinate measuring machine, reduction are processed and installation cost.
It should be noted that information is only used for strengthening to background of the present utility model disclosed in above-mentioned background section
Understanding, therefore can include not constituting information to prior art known to persons of ordinary skill in the art.
Utility model content
The purpose of this utility model is to overcome at least one of above-mentioned prior art is not enough to be used for three coordinates there is provided one kind
The Z-axis transmission balance regulator of measuring machine.
To realize above-mentioned utility model purpose, the utility model is adopted the following technical scheme that:
According to one side of the present utility model, there is provided a kind of Z-axis transmission balance adjustment dress for three coordinate measuring machine
Put, on the balladeur train of three coordinate measuring machine X-axis, the Z-axis transmission balance regulator include cylinder, first pulley component,
At least one the first steel wire rope and power connector plates;Cylinder includes fixed cylinder and scalable in the flexible of described fixed cylinder one end
Bar, the fixed cylinder is fixed on the balladeur train vertically, and the expansion link is located at the cylinder top;First pulley component is consolidated
Due to the cylinder top, including at least one first pulley, the first pulley can be in vertical rotation in surface;At least one
First wire line thimble includes fixing end and movable end around the first pulley, first steel wire rope, and the fixing end is fixed on
The fixed cylinder, the movable end can move up and down relative to the fixing end;And power connector plate is located at first steel
The movable end of cord, the power connector plate is used to connect the power drive unit that the driving power connector plate moves up and down.
In a kind of exemplary embodiment of the present utility model, the Z-axis transmission balance regulator also includes:Second slides
Wheel assembly and at least one the second steel wire ropes;Second pulley component is connected to the movable end of first steel wire rope, and with institute
State power connector plate to be fixedly connected, the second pulley component includes at least one second pulley, the second pulley can turn
It is dynamic;At least one the second wire line thimbles are around the second pulley, and second steel wire rope includes fixing end and movable end, and described the
The fixing end of two steel wire ropes is fixed on the balladeur train, and the movable end of second steel wire rope is connected to the survey of three coordinate measuring machine
Head.
In a kind of exemplary embodiment of the present utility model, the second pulley component also includes:Pulley bracket, bearing pin
And pad;Pulley bracket top is connected to the movable end of first steel wire rope, the pulley bracket and the power connector
Plate is fixedly connected;Bearing pin level is fixed on the pulley bracket, and rotationally coaxial sleeve is located at the pin to the second pulley
On axle;Pad is located between the second pulley and the pulley bracket.
In a kind of exemplary embodiment of the present utility model, the Z-axis transmission balance regulator also includes gauge head and connected
Fishplate bar, located at Z axis bottom, is connected to the movable end of second steel wire rope.
In a kind of exemplary embodiment of the present utility model, the Z-axis transmission balance regulator also includes turning to sliding
Wheel assembly, the corner between the gauge head connecting plate and second pulley component, for being carried out to second steel wire rope
Turn to.
In a kind of exemplary embodiment of the present utility model, the Z-axis transmission balance regulator, which also includes cylinder, pacifies
Plate is filled, is fixed on the balladeur train, the fixing end for fixing the cylinder and second steel wire rope.
In a kind of exemplary embodiment of the present utility model, the Z-axis transmission balance regulator also includes cylinder branch
Seat is supportted, is fixed on the cylinder mounting plate, for fixing the fixed cylinder.
In a kind of exemplary embodiment of the present utility model, the Z-axis transmission balance regulator is also solid including steel wire
Determine mechanism, be fixed on the cylinder mounting plate, positioned at side of the second pulley component away from the first pulley component, use
In the fixing end of fixed second steel wire rope.
In a kind of exemplary embodiment of the present utility model, the Z-axis transmission balance regulator also includes support frame
And cylinder connection bent plate;On the rectangular triangle of support frame, the top end face for being fixed on the balladeur train;Cylinder connection bent plate is fixed
In on the support frame, the cylinder connection bent plate is the bending mechanism with orthogonal vertical plate and level board, described
Vertical plate is fixed on the support frame, and the level board fixes the top of the fixed cylinder.
In a kind of exemplary embodiment of the present utility model, the first pulley component also include pulley support seat and
Rotary shaft;Pulley support seat is located at the expansion link upper end;Rotary shaft level is on pulley support seat, the rotary shaft
The fixed first pulley.
As shown from the above technical solution, the utility model possesses at least one of advantages below and good effect:
As shown from the above technical solution, a kind of Z-axis transmission balance adjustment for three coordinate measuring machine of the present utility model
The advantage and good effect of device are:A kind of Z-axis transmission for three coordinate measuring machine that the utility model is provided, which is balanced, to be adjusted
Regulating device, on the balladeur train of three coordinate measuring machine X-axis, including the cylinder being vertically placed on balladeur train, fixation can turn on cylinder
Dynamic pulley assembly, the power connector plate for surrounding the steel wire rope of the pulley assembly and being connected with the steel wire rope movable end, this Z axis
The power connector plate of balance regulator is driven as power moves up and down, while living above and below steel wire rope and pulley assembly meeting
Dynamic, cylinder can also stop up and down when power stops.
On the one hand, because cylinder is arranged on balladeur train, support arm is eliminated, the weight of Z-axis transmission bascule is alleviated,
Center of gravity is reduced, the stability of three coordinate measuring machine is added.
On the other hand, the device reduces the total kilometres of cylinder, cylinder shortens, so that machine height is reduced, good
Operating stationarity is controlled, the measurement accuracy of three coordinate measuring machine is further improved.
Another further aspect, such a design reduces processing and the difficulty installed, and then reduces cost.
It should be appreciated that the general description of the above and detailed description hereinafter are only exemplary and explanatory, not
The utility model can be limited.
Brief description of the drawings
Its example embodiment is described in detail by referring to accompanying drawing, above and other feature and advantage of the present utility model will
Become readily apparent from.
Fig. 1 is the Facad structure of the embodiment of Z-axis transmission balance regulator one of the utility model three coordinate measuring machine
Schematic diagram.
Fig. 2 is the left side structure of the embodiment of Z-axis transmission balance regulator one of the utility model three coordinate measuring machine
Schematic diagram.
Fig. 3 is the second pulley of the embodiment of Z-axis transmission balance regulator one of the utility model three coordinate measuring machine
Modular construction schematic diagram.
Main element description of reference numerals is as follows in figure:1st, cylinder;101st, fixed cylinder;102nd, expansion link;11st, pulley support
Seat;12nd, rotary shaft;13rd, cylinder supports seat;2nd, first pulley component;21st, the first steel wire rope;22nd, steel wire hanging plate;3rd, power connects
Fishplate bar;4th, second pulley component;401st, second pulley;402nd, pulley bracket;403rd, bearing pin;404th, pad;405th, bearing;41、
Second steel wire rope;42nd, fixation with steel wire mechanism;5th, balladeur train;6th, Z axis stone;7th, gauge head connecting plate;81st, the first angle pulley;82、
Second angle pulley;9th, cylinder mounting plate;91st, support frame;92nd, cylinder connection bent plate.
Embodiment
Example embodiment is described more fully with referring now to accompanying drawing.However, example embodiment can be with a variety of shapes
Formula is implemented, and is not understood as limited to embodiment set forth herein;On the contrary, thesing embodiments are provided so that this practicality is new
The design of example embodiment fully and completely, and will comprehensively be conveyed to those skilled in the art by type.Identical in figure
Reference represents same or similar structure, thus will omit their detailed description.
A kind of Z-axis transmission balance regulator for three coordinate measuring machine is provide firstly in this example embodiment,
Shown in reference picture 1, Fig. 2, this kind is used for the Z-axis transmission balance regulator of three coordinate measuring machine, located at three coordinate measuring machine X-axis
Balladeur train 5 on, can include:The first pulley component 2 that fixation can be rotated on the cylinder 1 on balladeur train 5, cylinder 1 is vertically placed to,
Around the first steel wire rope 21 and the power connector plate 3 located at the movable end of the first steel wire rope 21 of the first pulley component 2.
According to a kind of Z-axis transmission balance regulator for three coordinate measuring machine in this example embodiment, on the one hand,
Because cylinder 1 is arranged on balladeur train 5, support arm is eliminated, the weight of Z-axis transmission bascule is alleviated, center of gravity is reduced, increased
The stability of three coordinate measuring machine is added;On the other hand, the device reduces the total kilometres of cylinder 1, cylinder 1 shortens, so as to drop
Low machine height, the good measurement accuracy for controlling operating stationarity, further increasing three coordinate measuring machine;Again
On the one hand, such a design reduces processing and the difficulty installed, and then reduces processing and installation cost.
Below, by a kind of Z-axis transmission balance regulator for three coordinate measuring machine in this example embodiment
It is further detailed.
In the prior art, the mechanical system of three coordinate measuring machine is typically made up of three orthogonal linear motion axis, wherein,
Y-direction guide rail system is filled on the table, and X direction guiding rail systems are set to move bridge beam, and X is mutually perpendicular to Y-axis for horizontal direction
Two axles, Z-direction guide track system is mounted in central balladeur train, is vertical direction.In the present embodiment, X direction guiding rails system is horizontal in X-axis
On beam install can horizontal direction movement balladeur train 5, Z-direction guide track system include supportive body Z axis stone 6, gauge head be located at Z axis stone
6 bottoms;Z-axis transmission balance regulator is then arranged on balladeur train 5, is connected with gauge head, and Z axis is steady in being run for control
Property.
In the present embodiment, described in reference picture 1,2, cylinder 1 is tubular, and the action direction of cylinder 1 is vertical direction, therefore
Cylinder 1 can be vertically arranged on balladeur train 5, and cylinder 1 includes fixed cylinder 101 and the scalable expansion link 102 in fixed cylinder one end,
Fixed cylinder 101 can be fixed on balladeur train 5, and due to being limited by structure and function, cylinder 1 need to overcome device gravity and pulling force,
And gravity direction is straight down, therefore expansion link 102 may be provided at the top of cylinder 1, can do flexible fortune up and down on vertical direction
It is dynamic.
Further, because balladeur train 5 is limited by self structure, processing technology and installation, possibly gas can not be supported completely
Cylinder 1, therefore in the present embodiment, cylinder mounting plate 9 can also be set on the vertical plane of balladeur train 5, cylinder mounting plate 9 may be provided at
On rear end face of the balladeur train 5 away from Z axis, the shape of cylinder mounting plate 9 can coordinate the shape and peace of balladeur train 5, cylinder 1 and miscellaneous part
Position design is filled, rectangle is may be designed as, trapezoidal or other shapes, this example embodiment does not do particular determination herein.
In a kind of exemplary embodiment of the present utility model, the bottom of 1 fixed cylinder of cylinder 101 can also pass through cylinder supports
Seat 13 is fixedly supported on 9 on cylinder mounting plate, and cylinder supports seat 13 may be configured as right angled triangle support base, and one vertical plate can
It is screwed on cylinder mounting plate 9, its another level board can be used to support cylinder 1, can equally pass through screw and cylinder
The bottom of fixed cylinder 101 is fixedly connected.
Further, since cylinder 1 is longer, in order to keep stable, the top of 1 fixed cylinder of cylinder 101 also needs a fixing point to fix
Cylinder 1, it is contemplated that the present apparatus needs to mitigate own wt as far as possible, to lower the center of gravity, and improves stability, can be in the upper surface of balladeur train 5
One support frame 91 is set, and the support frame 91 can be used to fix the top of 1 fixed cylinder of cylinder 101.In the present embodiment, support frame 91 can
Rectangular triangle, one right-angle side horizontally through screw or can be weldingly fixed on the upper surface of balladeur train 5, and another right-angle side can be with
Cylinder mounting plate 9 is located on same vertical plane, to ensure that cylinder 1 is in vertical direction.
Further, support frame 91 can also connect bent plate 92 to fix support cylinder 1, cylinder connection bent plate by cylinder
92 may be configured as the orthogonal bending mechanism with level board and vertical plate, such as near " L " font, wherein cylinder connecting bending
The vertical plate of plate 92 can be fixed on support frame 91 by screw, and the level board of cylinder connection bent plate 92 can pass through screw and gas
The top of the fixed cylinder 101 of cylinder 1 is fixedly connected.
In a kind of exemplary embodiment that the utility model is provided, first pulley component 2 can also be included, with cylinder 1
Expansion link 102 be fixedly connected, first pulley component 2 can include two first pulleys, and first pulley can be in vertical plane
Rotate, and the diameter of first pulley is slightly larger compared with cylinder fixed cylinder 101, to ensure that the first steel wire rope 21 bypasses first pulley component 2
When do vertical motion.
First pulley component 2 can also include pulley support seat 11 and rotary shaft 12, for connecting Telescopic-cylinder bar 102,
Pulley support seat 11 can be located at the upper end of expansion link 102 and is connected with first pulley by rotary shaft 12.Wherein rotary shaft 12 can water
Flat to be located on pulley support seat 11 and be fixedly connected with pulley support seat 11, first pulley is then rotatably located at rotary shaft 12
On.
First steel wire rope 21, including fixing end and movable end, wherein fixing end are fixed on the bottom of cylinder fixed cylinder 101, living
Moved end bypasses first pulley and in the vertical direction moves up and down.The quantity of first steel wire rope 21 can match with first pulley
For two.
A steel wire hanging plate 22, the steel wire hanging plate 22 and cylinder supports 13 level boards one of seat also can be set on cylinder supports seat 13
Side is fixedly connected, and above sets through hole, and the fixing end of the first steel wire rope 21 is fixed by screw, wiring connector etc., preferable to obtain
Stability, the setting of the steel wire hanging plate 22 will make fixation with steel wire end side also keep vertical direction.
Power connector plate 3, is connected with the movable end of the first steel wire rope 21, and power connector plate 3 is used to connect driving power company
The power drive unit that fishplate bar 3 moves up and down.Specifically, in the three coordinate measuring machine of prior art, Z axis is provided with gauge head,
And do vertical to movement from power drive unit control gauge head, Z-axis transmission balance regulator provided by the utility model
It is mainly used in adjusting balance of the gauge head in moving process, and the power resources of its movement are in power drive unit, further
Power drive unit is connected with the power connector plate 3 that the utility model is provided, and is conducted power to gauge head by power connector plate 3
Attachment means are gauge head connecting plate 7, and provided with transmission bascule between power connector plate 3 and gauge head connecting plate 7, so as to control
Operating stationarity is made.
Second pulley component 4 can also be included in the present embodiment, the movable end of the first steel wire rope 21 is connected to, and with moving
Power connecting plate 3 is fixedly connected.In the present embodiment, the movable end of the first steel wire rope 21, power connector plate 3 and second pulley group
The connected mode of part 4 is that the top of second pulley component 4 is connected with the movable end of the first steel wire rope 21, further second pulley
The side plate of component 4 is connected to obtain the power of vertical direction with power connector plate 3.In other embodiments, the phase of above-mentioned three
Position and annexation can be designed according to actual conditions, such as power connector plate can connect with the movable end of the first steel wire rope 21
Connect, further second pulley component 4 can be connected with power connector plate 3, every power connector that can be realized in the utility model
Plate 3 drives the movable end and the up and down combination connecting mode of second pulley component 4 of the first steel wire rope 21, new in this practicality
Within the protection domain of type.
Second pulley component 4 includes at least one second pulley 401, and in the present embodiment, the quantity of second pulley 401 can
For two, with stability higher in remaining on.And survey is connected by the second steel wire rope 41 for bypassing second pulley component 4
Head connecting plate 7 is to control the displacement of gauge head.
Shown in reference picture 3, the detailed construction of second pulley component 4 is as follows, and pulley assembly main body frame is pulley bracket
402, in cuboid, two opposites of vertical direction of framework open up through hole so that the second steel wire rope 41 passes through, pulley bracket 402
The settable connection hanging plate with through hole in top is used to connect the movable end of the first steel wire rope 21, the vertical side of pulley bracket 402
It is fixedly connected to obtain driving force with power connector plate 3;Bearing pin 403, is horizontally inserted the middle part of pulley bracket 402, the overcoat of bearing pin 403
If bearing 405, the inner ring of bearing 405 is fixedly connected with bearing pin 403, the outer ring of bearing 405 is fixedly connected with second pulley 401, and can
Rotated relative to bearing pin 403;Pad 404 also can be set between pulley bracket 402 and the two ends of bearing pin 403, for fixed cunning
Wheel support 402 and bearing 405.
Second steel wire rope 41, including fixing end and movable end, the quantity of the second steel wire rope 41 is at least one, in this implementation
In example, to coordinate the quantity of second pulley 401 to be securable to using two second steel wire ropes 41, the fixing end of the second steel wire rope 41
On cylinder mounting plate 9, movable end bypasses second pulley 401 and is connected to the gauge head of three coordinate measuring machine.
Further, fixation with steel wire mechanism 42 can be also provided with cylinder mounting plate 9, for fixing the second steel wire rope 41
Fixing end.Fixation with steel wire mechanism 42 can include the vertical plate for being fixed on cylinder mounting plate 9 vertically by screw, and for connecing
That receives the fixing end of the second steel wire rope 41 protrudes upward hanging plate.
Embodiment of the present utility model can also include gauge head connecting plate 7, be arranged on Z axis bottom, the two of gauge head connecting plate 7
Side is respectively used to connect the movable end and gauge head of the second steel wire rope 41, to reach the purpose of control gauge head.
Because the balance transmission device is arranged far from the rear end face of balladeur train 5 of Z axis in the present embodiment, balance drive dress
Put and be not at the gauge head connecting plate 7 positioned at Z axis bottom on same vertical plane, the turning of the bottom of balladeur train 5 is also included between the two
And balladeur train 5 and the turning of Z axis junction.Therefore diverting pulley pack also can be set in the present embodiment to be used for the second steel wire rope
41 are turned to, it may include the first angle pulley 81 and the second angle pulley 82, can be threadably secured connected mode and be set successively
Corner between second pulley component 4 and gauge head connecting plate 7.
Above-mentioned described feature, structure or characteristic can be combined in one or more embodiment party in any suitable manner
It is characterized in interchangeable discussed in each embodiment if possible in formula.There is provided many specific thin in superincumbent description
Section fully understands so as to provide to embodiment of the present utility model.It will be appreciated, however, by one skilled in the art that can be real
The technical solution of the utility model is trampled without one or more in the specific detail, or others side can be used
Method, component, material etc..In other cases, it is not shown in detail or describes known features, material or operates to avoid obscuring this
The each side of utility model.
Although use the term of relativity in this specification, such as " on " " under " describes a component of icon for another
The relativeness of one component, but these terms are used in this specification merely for convenient, for example with reference to the accompanying drawings described in show
The direction of example.Be appreciated that, if making it turn upside down the upset of the device of icon, describe " on " component will
As " under " component.The term of other relativities, also makees have similar meaning such as " top " " bottom ".When certain structure is at it
Its structure " on " when, it is possible to refer to that certain structural integrity is formed in other structures, or refer to certain structure " direct " be arranged on it is other
In structure, or refer to certain structure and be arranged on by another structure " indirect " in other structures.
In this specification, term " one ", " one ", "the" and " described " are to represent there is one or more elements/group
Into part/etc.;Term "comprising", " comprising " and " having " to represent the open meaning being included and refer to except
The key element/part/listed also may be present outside waiting other key element/part/etc.;Term " first " and " second " etc.
Only used as mark, be not the quantity limitation to its object.
It should be appreciated that the utility model be not limited in its application to this specification proposition part detailed construction and
Arrangement.The utility model can have other embodiment, and can realize and perform in many ways.It is foregoing to become
Shape form and modification fall in the range of the utility model.It should be appreciated that this disclosure and this reality limited
Mentioned or all alternative groups of two or more obvious independent features with the new text and/or drawings that extend to
Close.All these different combinations constitute multiple alternative aspects of the present utility model.Embodiment described in this specification is said
Understand and become known for realizing best mode of the present utility model, and those skilled in the art will be enable new using this practicality
Type.
Claims (10)
1. a kind of Z-axis transmission balance regulator for three coordinate measuring machine, on the balladeur train of three coordinate measuring machine X-axis,
Characterized in that, the Z-axis transmission balance regulator includes:
Cylinder, including fixed cylinder and the scalable expansion link in described fixed cylinder one end, the fixed cylinder are fixed on described vertically
On balladeur train, and the expansion link is located at the cylinder top;
First pulley component, is fixed on the cylinder top, including at least one first pulley, and the first pulley can be perpendicular
Straight rotation in surface;
At least one the first steel wire ropes, first wire line thimble is around the first pulley, and first steel wire rope includes fixing
End and movable end, the fixing end are fixed on the fixed cylinder, and the movable end can move up and down relative to the fixing end;With
And
Power connector plate, located at the movable end of first steel wire rope, the power connector plate is used to connect the driving power
The power drive unit that connecting plate moves up and down.
2. the Z-axis transmission balance regulator according to claim 1 for three coordinate measuring machine, it is characterised in that institute
Stating Z-axis transmission balance regulator also includes:
Second pulley component, is connected to the movable end of first steel wire rope, and is fixedly connected with the power connector plate, described
Second pulley component includes at least one second pulley, and the second pulley can be rotated;
At least one the second steel wire ropes, second wire line thimble is around the second pulley, and second steel wire rope includes fixing
End and movable end, the fixing end of second steel wire rope are fixed on the balladeur train, and the movable end of second steel wire rope is connected to
The gauge head of three coordinate measuring machine.
3. the Z-axis transmission balance regulator according to claim 2 for three coordinate measuring machine, it is characterised in that institute
Stating second pulley component also includes:
Pulley bracket, the pulley bracket top is connected to the movable end of first steel wire rope, the pulley bracket with it is described
Power connector plate is fixedly connected;
Bearing pin, level is fixed on the pulley bracket, and rotationally coaxial sleeve is located on the bearing pin second pulley;
Pad, between the second pulley and the pulley bracket.
4. the Z-axis transmission balance regulator according to claim 2 for three coordinate measuring machine, it is characterised in that institute
Stating Z-axis transmission balance regulator also includes:
Gauge head connecting plate, located at Z axis bottom, is connected to the movable end of second steel wire rope.
5. the Z-axis transmission balance regulator according to claim 4 for three coordinate measuring machine, it is characterised in that institute
Stating Z-axis transmission balance regulator also includes:
Diverting pulley pack, the corner between the gauge head connecting plate and second pulley component, for described second
Steel wire rope is turned to.
6. the Z-axis transmission balance regulator according to claim 2 for three coordinate measuring machine, it is characterised in that institute
Stating Z-axis transmission balance regulator also includes:
Cylinder mounting plate, is fixed on the balladeur train, the fixing end for fixing the cylinder and second steel wire rope.
7. the Z-axis transmission balance regulator according to claim 6 for three coordinate measuring machine, it is characterised in that institute
Stating Z-axis transmission balance regulator also includes:
Cylinder supports seat, is fixed on the cylinder mounting plate, for fixing the fixed cylinder.
8. the Z-axis transmission balance regulator according to claim 6 for three coordinate measuring machine, it is characterised in that institute
Stating Z-axis transmission balance regulator also includes:
Fixation with steel wire mechanism, is fixed on the cylinder mounting plate, positioned at the second pulley component away from the first pulley group
The side of part, the fixing end for fixing second steel wire rope.
9. the Z-axis transmission balance regulator according to claim 1 for three coordinate measuring machine, it is characterised in that institute
Stating Z-axis transmission balance regulator also includes:
On support frame, rectangular triangle, the top end face for being fixed on the balladeur train;
Cylinder connects bent plate, is fixed on the support frame, cylinder connection bent plate be with orthogonal vertical plate and
The bending mechanism of level board, the vertical plate is fixed on the support frame, and the level board fixes the top of the fixed cylinder.
10. the Z-axis transmission balance regulator according to claim 1 for three coordinate measuring machine, it is characterised in that institute
Stating first pulley component also includes:
Pulley support seat, located at the expansion link upper end;
Rotary shaft, level is on pulley support seat, and the rotary shaft fixes the first pulley.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720242205.XU CN206556620U (en) | 2017-03-10 | 2017-03-10 | The Z-axis transmission balance regulator of three coordinate measuring machine |
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Application Number | Priority Date | Filing Date | Title |
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CN201720242205.XU CN206556620U (en) | 2017-03-10 | 2017-03-10 | The Z-axis transmission balance regulator of three coordinate measuring machine |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN116592235A (en) * | 2023-07-17 | 2023-08-15 | 沈阳宝隆飞机零部件有限公司 | Three-coordinate measuring device and method |
-
2017
- 2017-03-10 CN CN201720242205.XU patent/CN206556620U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN116592235A (en) * | 2023-07-17 | 2023-08-15 | 沈阳宝隆飞机零部件有限公司 | Three-coordinate measuring device and method |
CN116592235B (en) * | 2023-07-17 | 2023-09-22 | 沈阳宝隆飞机零部件有限公司 | Three-coordinate measuring device and method |
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