CN108535419A - A kind of nondestructive detecting instrument metering device in manufacturing process - Google Patents
A kind of nondestructive detecting instrument metering device in manufacturing process Download PDFInfo
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- CN108535419A CN108535419A CN201810354053.1A CN201810354053A CN108535419A CN 108535419 A CN108535419 A CN 108535419A CN 201810354053 A CN201810354053 A CN 201810354053A CN 108535419 A CN108535419 A CN 108535419A
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- saddle
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N33/00—Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
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Abstract
The invention discloses the nondestructive detecting instrument metering devices in a kind of manufacturing process, including body, pre-and post perforative working chamber is provided in the body, the working chamber upper end wall is installed with saddle A and saddle B, the left sides the saddle A are fixedly connected with the working chamber left end wall, the right sides the saddle B are fixedly connected with the working chamber right end wall, it is installed with lifting motor in the working chamber base end wall, the lifting motor outputting axial power is connected with the lifting screw upwardly extended, the lifting screw is rotatably assorted with the saddle A and connect, the lifting screw outer surface thread is connected with elevating screw thread block, elevating screw thread block right side is installed with the lifting arm extended to the right.
Description
Technical field
It rebuilds traditional industry field the present invention relates to new and high technology, and in particular to the nondestructive testing instrument in a kind of manufacturing process
Instruments and meters device.
Background technology
With the development of science and technology, social progress, country promotes always the development of new and high technology, existing material detector
Device is often difficult to realize carry out non-destructive testing in the fabrication process, therefore the nondestructive detecting instrument instrument in a kind of manufacturing process of urgent need
Meter apparatus, the present invention provides a kind of non-destructive testing schemes simple in structure.
Invention content
The purpose of the present invention is to provide the nondestructive detecting instrument metering devices in a kind of manufacturing process, can overcome existing
The drawbacks described above of technology.
According to the present invention, the nondestructive detecting instrument metering device in a kind of manufacturing process of apparatus of the present invention, including body,
Pre-and post perforative working chamber is provided in the body, the working chamber upper end wall is installed with saddle A and saddle B, the saddle A
Left side is fixedly connected with the working chamber left end wall, and the right sides the saddle B are fixedly connected with the working chamber right end wall, institute
It states and is installed with lifting motor in working chamber base end wall, the lifting motor outputting axial power is connected with the lifting spiral shell upwardly extended
Bar, the lifting screw are rotatably assorted with the saddle A and connect, and the lifting screw outer surface thread is connected with lifting spiral shell
Line block, elevating screw thread block right side are installed with the lifting arm extended to the right, and the lower faces the saddle B, which are rotatably assorted, to be connected with
The lifting guide pillar extended downwardly, the lifting guide pillar is rotatably assorted with the working chamber lower end wall and connect, outside the lifting guide pillar
Surface is slidably connected with sliding shoe, and the sliding shoe left side is fixedly connected with the lifting arm right side, the lifting
Arm upper surface is installed with workbench, and left and right traveling machine body is provided in the working chamber, is provided in the left and right traveling machine body
Walking chamber in left and right is installed with left and right movable motor in the left and right walking chamber right end wall, and the left and right movable motor output shaft is dynamic
Force-fitting is connected with left and right walking screw rod, and the left and right walking screw rod outer surface thread is connected with arm, on the arm
End face is fixedly connected with the working chamber upper end wall, and left and right traveling machine body lower face is installed with the first buckle and the second button
Plate, first buckle are slidably connected with the first sliding rail, and second buckle is slidably connected with the second sliding rail, described
First sliding rail right side is installed with front and back traveling machine body, and front and back chamber of walking is provided in the front and back traveling machine body, described front and back
Front and back movable motor is installed in walking cavity rear end wall, the front and back movable motor outputting axial power is connected with front and back walking
Screw rod, the front and back walking screw rod outer surface thread are connected with walking threaded block, the walking threaded block upper surface and institute
It states left and right traveling machine body lower face to be fixedly connected, the front and back traveling machine body lower face is installed with link block, under the link block
End face is installed with symmetrical guide plate, and the link block lower face is installed with the spring extended up and down, and the lower spring end is solid
Equipped with sliding block, the sliding block is slidably connected with the guide plate, the fixed flexible detector in sliding block lower face, to structure
At complete device, detection efficiency is effectively increased.
Further technical solution, the rigidity of the spring are less than the rigidity of the flexible detecting head, in the flexible spy
When gauge head touches the material to be checked on the workbench, prevent the flexible detecting head from first deforming.
Further technical solution, the contact surface of first buckle and first sliding rail are smooth outer surface,
The contact surface of second buckle and second sliding rail is smooth outer surface.
Further technical solution, the workbench is interior to be equipped with transmission cavity, and transmission is installed in the transmission cavity lower end wall
Motor, the transmission motor output shaft be connected by power have driving pulley, the transmission cavity lower end wall to be installed with the branch upwardly extended
Bar, the strut end, which is rotatably assorted, is connected with driven pulley, and the driving pulley passes through feed belt and the driven pulley
Be connected by power, the feed belt outside are installed with pin bearing, the pin upwardly extended, institute are installed on the pin bearing
It states workbench upper surface and is slidably connected with loading plate, the front and back sliding slot extended, the pin are provided in the loading plate
It extends upwardly into the sliding slot and is slidably connected with the sliding slot, the loading plate upper surface is provided with material to be checked.
The beneficial effects of the invention are as follows:
In the initial state due to apparatus of the present invention, the lifting motor, left and right movable motor, front and back movable motor and transmission electricity
Machine is in stop working state, the workbench manufacture initial position, to make above structure be located in the initial state
Initial position can be adjusted in follow-up work, effectively improve the working regularity of device.
When material needs to be detected, the lifting motor, left and right movable motor, front and back movable motor and transmission motor
It starts to work, the lifting motor drives the lifting screw rotation, the lifting screw to drive the elevating screw thread block upward
Mobile, the elevating screw thread block drives the lifting arm to move up, and the lifting arm drives the sliding shoe to move up, from
And so that the workbench is stablized and rise, wait for that the workbench rises to specified altitude assignment, the lifting motor is stopped, and makes described
Workbench is stablized in specified altitude assignment.The left and right movable motor driving left and right walking screw rod rotation, the arm are fixed not
Dynamic, the arm internal thread drives the left and right walking screw rod to move left and right, to enable the left and right traveling machine body to control
It is mobile, front and back movable motor driving front and back screw rod rotation, the walking threaded block upper surface and the left and right of walking
Traveling machine body lower face is fixedly connected, and the walking threaded block internal thread drives the front and back walking screw rod to be moved forward and backward, to
The front and back traveling machine body is set to be moved forward and backward relative to the left and right traveling machine body, before and after realizing the flexibility detecting head
The movement of left and right four direction, the transmission motor drive the driving pulley rotation, the driving pulley to pass through the transmission
Belt drives the driven pulley rotation, the feed belt that the pin is driven to be moved along the running orbit of feed belt, from
And the loading plate bilateral reciprocation is driven, coordinate flexible detecting head to complete the detection of entire material, effectively increases device
Detection efficiency.
When material tests finish, the left and right movable motor, front and back movable motor and transmission motor are stopped, described
Lifting motor restarts work, the rotation direction of the lifting motor output shaft and rotation direction phase when the first task
Instead, the lifting motor drives the lifting screw rotation, the lifting screw that the elevating screw thread block is driven to move down, institute
Stating elevating screw thread block drives the lifting arm to move down, and the lifting arm drives the sliding shoe to move down, to make
It states workbench and stablizes decline, wait for that the workbench drops to the initial position of manufacture, the lifting motor is stopped, to complete
At entire detection process, the craftsmanship of detection is effectively increased.
The above, the specific implementation mode only invented, but invent protection domain be not limited thereto, it is any without
The change or replacement that creative work is expected are crossed, should all be covered within the protection domain of invention.Therefore, the protection domain of invention
It should be determined by the scope of protection defined in the claims.
Description of the drawings
It, below will be to embodiment or existing in order to illustrate more clearly of inventive embodiments or technical solution in the prior art
Attached drawing is briefly described needed in technology description, it should be apparent that, the accompanying drawings in the following description is only to invent
Some embodiments for those of ordinary skill in the art without creative efforts, can also basis
These attached drawings obtain other attached drawings.
Fig. 1 is the overall structure diagram of the nondestructive detecting instrument metering device in a kind of manufacturing process of the present invention;
Fig. 2 is the schematic diagram in the directions A-A in Fig. 1;
Fig. 3 is the schematic diagram in the directions B-B in Fig. 1;
Fig. 4 is the enlarged diagram of C in Fig. 1.
Specific implementation mode
All features disclosed in this specification or disclosed all methods or in the process the step of, in addition to mutually exclusive
Feature and/or step other than, can combine in any way.
This specification(Including any accessory claim, abstract and attached drawing)Disclosed in any feature, except non-specifically chatting
It states, can be replaced by other alternative features that are equivalent or have similar purpose.That is, unless specifically stated, each feature is only
It is an example in a series of equivalent or similar characteristics.
As shown in Figs 1-4, the nondestructive detecting instrument metering device in a kind of manufacturing process of the invention, including body 100,
Pre-and post perforative working chamber 101 is provided in the body 100,101 upper end wall of the working chamber is installed with saddle A104 and seat
Block B105, the left sides the saddle A104 are fixedly connected with 101 left end wall of the working chamber, the right sides the saddle B105 and institute
It states 101 right end wall of working chamber to be fixedly connected, lifting motor 102, the lifting motor is installed in 101 base end wall of the working chamber
102 outputting axial powers are connected with the lifting screw 103 upwardly extended, and the lifting screw 103 and saddle A104 rotations are matched
Connection is closed, 103 outer surface thread of the lifting screw is connected with elevating screw thread block 106,106 right end of elevating screw thread block
Face is installed with the lifting arm 107 extended to the right, and the lifting for being connected with and extending downwardly that is rotatably assorted of the lower faces the saddle B105 is led
Bar 108, the lifting guide pillar 108 are rotatably assorted with 101 lower end wall of the working chamber and connect, 108 outer surface of the lifting guide pillar
It is slidably connected with sliding shoe 109,109 left side of the sliding shoe is fixedly connected with 107 right side of the lifting arm, described
107 upper surface of lifting arm is installed with workbench 110, and left and right traveling machine body 111, the left and right are provided in the working chamber 101
It is provided with walking chamber 112 in left and right in traveling machine body 111, left and right movable motor is installed in the left and right walking 112 right end wall of chamber
113,113 outputting axial power of left and right movable motor is connected with left and right walking screw rod 114, the left and right walking screw rod
114 outer surface threads are connected with arm 115, and 115 upper surface of the arm is fixed with 101 upper end wall of the working chamber to be connected
It connects, 111 lower face of left and right traveling machine body is installed with the first buckle 116 and the second buckle 117, and first buckle 116 is slided
Dynamic to be connected with the first sliding rail 118, second buckle 117 is slidably connected with the second sliding rail 119, first sliding rail
118 right sides are installed with front and back traveling machine body 120, and front and back chamber 121 of walking is provided in the front and back traveling machine body 120, described
Front and back movable motor 122, the front and back movable motor 122 outputting axial power cooperation are installed in front and back 121 aft bulkhead of walking chamber
It is connected with front and back screw rod 123 of walking, front and back walking 123 outer surface thread of screw rod is connected with walking threaded block 124, institute
It states walking 124 upper surface of threaded block to be fixedly connected with 111 lower face of left and right traveling machine body, the front and back traveling machine body 120
Lower face is installed with link block 125, and 125 lower face of the link block is installed with symmetrical guide plate 126, the link block
125 lower faces are installed with the spring 127 extended up and down, and 127 lower end of the spring is installed with sliding block 128, the sliding block 128 and institute
State the sliding connection of guide plate 126, the fixed flexible detector 129 in 128 lower face of the sliding block, to constitute complete dress
It sets, effectively increases detection efficiency.
Valuably, wherein the rigidity of the spring 127 is less than the rigidity of the flexible detecting head 129, in the flexible spy
When gauge head 129 touches the material to be checked on the workbench 110, prevent the flexible detecting head 129 from first deforming.
Valuably, wherein the contact surface of first buckle 116 and first sliding rail 118 is smooth outer surface,
The contact surface of second buckle 117 and second sliding rail 119 is smooth outer surface.
Valuably, wherein be equipped with transmission cavity 201 in the workbench 110, be installed in 201 lower end wall of the transmission cavity
Motor 202 is transmitted, 202 outputting axial power of transmission motor is connected with driving pulley 203, and 201 lower end wall of the transmission cavity is solid
Equipped with the strut 200 upwardly extended, 200 end of the strut, which is rotatably assorted, is connected with driven pulley 204, the driving pulley
203 are installed with pin bearing by feed belt 205 and 204 be connected by power of the driven pulley, 205 outside of the feed belt
206, the pin 207 upwardly extended, the sliding connection of 110 upper surface of the workbench are installed on the pin bearing 206
There is loading plate 209, the front and back sliding slot 208 extended is provided in the loading plate 209, the pin 207 extends upwardly into the cunning
It is slidably connected in slot 208 and with the sliding slot 208,209 upper surface of the loading plate is provided with material to be checked.
Apparatus of the present invention in the initial state, the lifting motor 102, left and right movable motor 113, front and back movable motor
122 are in stop working state, initial position of the workbench 110 in manufacture with transmission motor 202.
When material needs to be detected, the lifting motor 102, left and right movable motor 113, front and back movable motor 122
It starts to work with transmission motor 202, the lifting motor 102 drives the lifting screw 103 to rotate, the lifting screw 103
The elevating screw thread block 106 is driven to move up, the elevating screw thread block 106 drives the lifting arm 107 to move up, described
Lifting arm 107 drives the sliding shoe 109 to move up, and second elevator 109 drives the lifting guide pillar 108 to rotate,
Rise to make the workbench 110 stablize, waits for that the workbench 110 rises to specified altitude assignment, the lifting motor 102 stops
Work makes the workbench 110 stablize in specified altitude assignment.The left and right movable motor 113 drives the left and right walking screw rod 114
Rotation, the arm 115 is fixed, and 115 internal thread of the arm drives the left and right walking screw rod 114 to move left and right, from
And the left and right traveling machine body 111 is enable to move left and right, the front and back movable motor 122 drives the front and back screw rod of walking
123 rotations, 124 upper surface of walking threaded block are fixedly connected with 111 lower face of left and right traveling machine body, the walking spiral shell
124 internal thread of line block drives the front and back walking screw rod 123 to be moved forward and backward, to make the front and back traveling machine body 120 relative to
The left and right traveling machine body 111 is moved forward and backward, to realize the shifting of all around four direction of the flexible detecting head 129
Dynamic, the transmission motor 202 drives the driving pulley 203 to rotate, and the driving pulley 203 passes through the feed belt 205
The driven pulley 204 is driven to rotate, the feed belt 205 drives the pin to be moved along the running orbit of feed belt 205
It is dynamic, to drive 209 bilateral reciprocation of the loading plate, flexible detecting head 129 is coordinated to complete the detection of entire material.
When material tests finish, the left and right movable motor 113, front and back movable motor 122 and transmission motor 202 stop
Work, the lifting motor 102 restart work, rotation direction and the first task of 102 output shaft of the lifting motor
When rotation direction on the contrary, the lifting motor 102 drive the lifting screw 103 rotate, the lifting screw 103 drive institute
It states elevating screw thread block 106 to move down, the elevating screw thread block 106 drives the lifting arm 107 to move down, the lifting arm
107 drive the sliding shoe 109 to move down, and second elevator 109 drives the lifting guide pillar 108 to rotate, to make
The workbench 110, which is stablized, to be declined, and waits for that the workbench 110 drops to the initial position of manufacture, the lifting motor 102 stops
Work, to complete entire detection process.
The beneficial effects of the invention are as follows:In the initial state due to apparatus of the present invention, the lifting motor, the left and right rows leakage of electricity
Machine, front and back movable motor and transmission motor are in stop working state, the workbench manufacture initial position, on making
It states structure and is located at initial position in the initial state, can be adjusted in follow-up work, effectively improve the work association of device
Tonality.
When material needs to be detected, the lifting motor, left and right movable motor, front and back movable motor and transmission motor
It starts to work, the lifting motor drives the lifting screw rotation, the lifting screw to drive the elevating screw thread block upward
Mobile, the elevating screw thread block drives the lifting arm to move up, and the lifting arm drives the sliding shoe to move up, from
And so that the workbench is stablized and rise, wait for that the workbench rises to specified altitude assignment, the lifting motor is stopped, and makes described
Workbench is stablized in specified altitude assignment.The left and right movable motor driving left and right walking screw rod rotation, the arm are fixed not
Dynamic, the arm internal thread drives the left and right walking screw rod to move left and right, to enable the left and right traveling machine body to control
It is mobile, front and back movable motor driving front and back screw rod rotation, the walking threaded block upper surface and the left and right of walking
Traveling machine body lower face is fixedly connected, and the walking threaded block internal thread drives the front and back walking screw rod to be moved forward and backward, to
The front and back traveling machine body is set to be moved forward and backward relative to the left and right traveling machine body, before and after realizing the flexibility detecting head
The movement of left and right four direction, the transmission motor drive the driving pulley rotation, the driving pulley to pass through the transmission
Belt drives the driven pulley rotation, the feed belt that the pin is driven to be moved along the running orbit of feed belt, from
And the loading plate bilateral reciprocation is driven, coordinate flexible detecting head to complete the detection of entire material, effectively increases device
Detection efficiency.
When material tests finish, the left and right movable motor, front and back movable motor and transmission motor are stopped, described
Lifting motor restarts work, the rotation direction of the lifting motor output shaft and rotation direction phase when the first task
Instead, the lifting motor drives the lifting screw rotation, the lifting screw that the elevating screw thread block is driven to move down, institute
Stating elevating screw thread block drives the lifting arm to move down, and the lifting arm drives the sliding shoe to move down, to make
It states workbench and stablizes decline, wait for that the workbench drops to the initial position of manufacture, the lifting motor is stopped, to complete
At entire detection process, the craftsmanship of detection is effectively increased.
The above, the specific implementation mode only invented, but invent protection domain be not limited thereto, it is any without
The change or replacement that creative work is expected are crossed, should all be covered within the protection domain of invention.Therefore, the protection domain of invention
It should be determined by the scope of protection defined in the claims.
Claims (4)
1. the nondestructive detecting instrument metering device in a kind of manufacturing process, including body, front and back run through is provided in the body
Working chamber, the working chamber upper end wall is installed with saddle A and saddle B, the left sides the saddle A and the working chamber left end wall
It is fixedly connected, the right sides the saddle B are fixedly connected with the working chamber right end wall, and liter is installed in the working chamber base end wall
Motor drops, and the lifting motor outputting axial power is connected with the lifting screw upwardly extended, the lifting screw and the saddle A
Be rotatably assorted connection, and the lifting screw outer surface thread is connected with elevating screw thread block, elevating screw thread block right side
It is installed with the lifting arm extended to the right, the lower faces the saddle B are rotatably assorted the lifting guide pillar for being connected with and extending downwardly, the liter
Drop guide rod is rotatably assorted with the working chamber lower end wall to be connect, and the lifting guide pillar outer surface is slidably connected with sliding shoe,
The sliding shoe left side is fixedly connected with the lifting arm right side, and the lifting arm upper surface is installed with workbench, described
It is provided with left and right traveling machine body in working chamber, left and right walking chamber, the left and right walking chamber are provided in the left and right traveling machine body
Left and right movable motor is installed in right end wall, the left and right movable motor outputting axial power is connected with left and right walking screw rod,
The left and right walking screw rod outer surface thread is connected with arm, and the arm upper surface is fixed with the working chamber upper end wall
Connection, left and right traveling machine body lower face are installed with the first buckle and the second buckle, the first buckle sliding connection
There are the first sliding rail, second buckle to be slidably connected with the second sliding rail, first sliding rail right side is installed with front and back row
Body is walked, front and back chamber of walking is provided in the front and back traveling machine body, front and back row is installed in the front and back walking cavity rear end wall
Motor is walked, the front and back movable motor outputting axial power is connected with front and back screw rod of walking, the front and back screw rod appearance of walking
Face screw-thread fit is connected with walking threaded block, and the walking threaded block upper surface is fixed with left and right traveling machine body lower face to be connected
It connects, the front and back traveling machine body lower face is installed with link block, and the link block lower face is installed with symmetrical guide plate, institute
It states link block lower face and is installed with the spring extended up and down, the lower spring end is installed with sliding block, the sliding block and the guide plate
Sliding connection, the fixed flexible detector in sliding block lower face.
2. the nondestructive detecting instrument metering device in a kind of manufacturing process as described in claim 1, it is characterised in that:The bullet
The rigidity of spring is less than the rigidity of the flexible detecting head, and the material to be checked on the workbench is touched in the flexible detecting head
When, prevent the flexible detecting head from first deforming.
3. the nondestructive detecting instrument metering device in a kind of manufacturing process as described in claim 1, it is characterised in that:Described
The contact surface of one buckle and first sliding rail is smooth outer surface, the contact of second buckle and second sliding rail
Face is smooth outer surface.
4. the nondestructive detecting instrument metering device in a kind of manufacturing process as described in claim 1, it is characterised in that:The work
Make to be equipped with transmission cavity in platform, transmission motor, the transmission motor output shaft be connected by power are installed in the transmission cavity lower end wall
Have a driving pulley, the transmission cavity lower end wall is installed with the strut upwardly extended, the strut end be rotatably assorted be connected with from
Movable belt pulley, the driving pulley are installed with by feed belt and the driven pulley be connected by power, the feed belt outside
Pin bearing is installed with the pin upwardly extended on the pin bearing, and the workbench upper surface is slidably connected with load
Flitch, is provided with the front and back sliding slot extended in the loading plate, the pin extend upwardly into the sliding slot and with the sliding slot
Sliding connection, the loading plate upper surface is provided with material to be checked.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201810354053.1A CN108535419A (en) | 2018-04-19 | 2018-04-19 | A kind of nondestructive detecting instrument metering device in manufacturing process |
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CN201810354053.1A CN108535419A (en) | 2018-04-19 | 2018-04-19 | A kind of nondestructive detecting instrument metering device in manufacturing process |
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CN201810354053.1A Withdrawn CN108535419A (en) | 2018-04-19 | 2018-04-19 | A kind of nondestructive detecting instrument metering device in manufacturing process |
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Application publication date: 20180914 |