CN206187860U - Which comprises a frame, - Google Patents
Which comprises a frame, Download PDFInfo
- Publication number
- CN206187860U CN206187860U CN201621138169.4U CN201621138169U CN206187860U CN 206187860 U CN206187860 U CN 206187860U CN 201621138169 U CN201621138169 U CN 201621138169U CN 206187860 U CN206187860 U CN 206187860U
- Authority
- CN
- China
- Prior art keywords
- foil gauge
- elastomer
- feeding device
- rivet
- guide rail
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
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Abstract
The utility model provides a which comprises a frame,. Which comprises a frame, include foil gage vibration dish, foil gage dislocation subassembly, both ends respectively with foil gage vibration dish with foil gage guide rail that foil gage dislocation subassembly is connected and with the foil gage of foil gage dislocation subassembly butt joint moves the material subassembly, wherein, foil gage dislocation subassembly be used for with the foil gage guide rail is carried the foil gage dislocation extremely the foil gage moves the material level of material subassembly and puts, the foil gage move the material subassembly be used for with the foil gage is folded and is located the one end of elastomer. The utility model discloses a which comprises a frame, not only machining efficiency is high, and the material loading precision is high, can use manpower sparingly moreover.
Description
Technical field
The utility model is related to automatically processing device field, especially, is related to a kind of foil gauge feeding device.
Background technology
Electronic scale accuracy is determined by the precision of weighing sensor, and the temperature of weighing sensor
Performance and croop property directly determine the precision of sensor again.General sensor is to enter trip temperature with some temperature compensation components
Compensation, copper foil zero padding point temperature performance is such as used, compensate sensitivity temperature coefficient, these temperature compensation components pair with nickel oceangoing ship paillon foil
Machining accuracy and procedure calls are not high.
Existing temperature compensation component is processed by manually mode, but this processing mode is not only processed
Efficiency is low, and quality is unstable, and hand labor intensity is big.
Therefore, it is necessary to the processing mode of existing temperature compensation component is further developed, to avoid above-mentioned lacking
Fall into.
Utility model content
For the processing mode for solving above-mentioned existing temperature compensation component is present, processing efficiency is low, quality is unstable and artificial
The big technical problem of labour intensity, the utility model provides a kind of high in machining efficiency, feeding high precision and can save answering for manpower
Become piece feeding device.
The foil gauge feeding device that the utility model is provided is used to for the foil gauge of temperature compensation component to be assembled to elastomer
On, it includes that foil gauge vibrating disk, foil gauge dislocation component, two ends are wrong with the foil gauge vibrating disk and the foil gauge respectively
The foil gauge guide rail of hyte part connection and the foil gauge docked with foil gauge dislocation component move material component, wherein, it is described to answer
Becoming piece dislocation component is used to misplace the foil gauge that the foil gauge guide rail is conveyed to the shifting of foil gauge shifting material component
Discharge position, the foil gauge moves material component is used to be stacked at the foil gauge one end of the elastomer.
In a kind of preferred embodiment of the foil gauge feeding device that the utility model is provided, the foil gauge dislocation component
Including docked with the foil gauge guide rail stopper slot, with receive hopper guide pad and drive the guide gas of the guide pad
Cylinder, the guide pad is moved in the stopper slot and along the stopper slot.
In a kind of preferred embodiment of the foil gauge feeding device that the utility model is provided, the stopper slot includes two
Respectively positioned at the notch part of the two opposite sides of the guide pad.
In a kind of preferred embodiment of the foil gauge feeding device that the utility model is provided, the foil gauge moves material component
Including the foil gauge gripper cylinder directly over the notch part, drive the foil gauge gripper cylinder along the notch part just
The first foil gauge cylinder and driving the first foil gauge cylinder of upper direction are along the notch part to the elastomer direction
Second foil gauge cylinder of motion.
In a kind of preferred embodiment of the foil gauge feeding device that the utility model is provided, the foil gauge moves material component
Also include for the foil gauge locating piece of the spacing second foil gauge cylinder and located at the foil gauge locating piece and for preventing
The only foil gauge elastomer block of the second foil gauge cylinder and the foil gauge locating piece hard collision.
In a kind of preferred embodiment of the foil gauge feeding device that the utility model is provided, the foil gauge moves material component
Also include being covered on the foil gauge compressing tablet of the foil gauge guide rail.
In a kind of preferred embodiment of the foil gauge feeding device that the utility model is provided, the foil gauge moves material component
Also include the foil gauge photoelectric tube on the foil gauge guide rail.
In a kind of preferred embodiment of the foil gauge feeding device that the utility model is provided, the foil gauge moves material component
Also include the foil gauge inductor located at the foil gauge guide rail and the stopper slot joint.
Compared to prior art, the beneficial effect of the foil gauge feeding device that the utility model is provided is:By described
The foil gauge that the foil gauge guide rail is conveyed is misplaced to the foil gauge and moves the shifting material of material component by foil gauge dislocation component
Position, and then one end that the foil gauge is stacked at material component the elastomer is moved by the foil gauge, not only work effect
Rate is high, feeding high precision, and high degree of automation, can save manpower.
Brief description of the drawings
In order to illustrate more clearly of the technical scheme in the utility model embodiment, below will be to needed for embodiment description
The accompanying drawing to be used is briefly described, it should be apparent that, drawings in the following description are only some realities of the present utility model
Example is applied, for those of ordinary skill in the art, on the premise of not paying creative work, can also be according to these accompanying drawings
Other accompanying drawings are obtained, wherein:
Fig. 1 is the structural representation of the temperature compensation component that the utility model is provided;
Fig. 2 is the structure chart of the preferred embodiment of process equipment one of temperature compensation component shown in Fig. 1;
Fig. 3 is the structural representation of the tool of process equipment shown in Fig. 2;
Fig. 4 is the structural representation of the elastomer feeding device of process equipment shown in Fig. 2;
Fig. 5 is the structural representation of the stirring part of elastomer feeding device shown in Fig. 4;
Fig. 6 is the structural representation of the foil gauge feeding device of process equipment shown in Fig. 2;
Fig. 7 is the structural representation of the foil gauge guide rail of foil gauge feeding device shown in Fig. 6;
Fig. 8 is the structural representation of the guide pad of foil gauge feeding device shown in Fig. 6;
Fig. 9 is the structural representation of the rivet feeding device of process equipment shown in Fig. 2;
Figure 10 is the structural representation of the rivet guide rail of rivet feeding device shown in Fig. 9;
Figure 11 is the structural representation of the dislocation block of rivet feeding device shown in Fig. 9;
Figure 12 is the structural representation of the auxiliary locator of process equipment shown in Fig. 2.
Specific embodiment
Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out
Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the present utility model, rather than whole
Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made
The all other embodiment for being obtained, belongs to the scope of the utility model protection.
Fig. 1 is referred to, is the structural representation of the temperature compensation component that the utility model is provided.The temperature compensation component
100 include the elastomer 101 with unfilled corner portion 101A, foil gauge 102 and for riveting the elastomer 101 and the foil gauge
102 rivet 103.
The elastomer 101 is overall to be rectangle, and the unfilled corner portion 101A is located at the chamfering of the elastomer 101, institute
Foil gauge 102 is stated to be set near the unfilled corner portion 101A.
The foil gauge 102 includes the connecting portion 104 riveted with the elastomer 101 and is connected with the connecting portion 104
And perpendicular to the bending part 105 of the connecting portion 104.
The quantity of the rivet 103 is two, and two rivets 103 are parallel along the short-axis direction of the elastomer 101
Interval setting.
Fig. 2 is referred to, is the structural representation of the preferred embodiment of process equipment one of temperature compensation component shown in Fig. 1.Institute
Stating process equipment 200 includes conveying device 1, elastomer feeding device 2, foil gauge feeding device 3, rivet feeding device 4, riveting
Machine 5, finished product discharging device 6 and auxiliary locator 7.
The conveying device 1 includes pressing the conveying member 11 of stroke motion, is equidistantly located at the conveying member along conveying direction
11 multiple tools 13 and the drive device 15 of the driving conveying member 11.In the present embodiment, the conveying member 11 is rotating disk.
The elastomer feeding device 2, the foil gauge feeding device 3, the rivet feeding device 4, the riveting machine 5
And the finished product discharging device 6 is set along the conveying member 11 successively, the auxiliary locator 7 is respectively arranged on and the elasticity
Immediately below body feeding device 2, the foil gauge feeding device and the corresponding tool 13 of the rivet feeding device 4.Its
In, the elastomer feeding device 2, the foil gauge feeding device 3, the rivet feeding device 4 are successively by the elastomer
101st, the foil gauge 102 and the rivet 103 are positioned on the tool 13 and are assembled, that is, cause the foil gauge 102
The elastomer 101 is stacked near one end of the unfilled corner portion 101A, the rivet 103 passes through the elastomer 101 and institute
State foil gauge 102;The rivet 103 that the riveting machine 5 is used on tool 13 described in riveted;The finished product discharging device 6 is used
In the blanking of the temperature compensation component 100 of machine-shaping.
Fig. 3 is please referred to, is the structural representation of the tool of process equipment shown in Fig. 2.The tool 13 includes first
Groove 131, the locating dowel 133 located at the bottom of the first groove 131, it is respectively arranged on the spacing of the both sides of the first groove 131
Piece 135 and between the locating dowel 133 and the banking stop 135 and perpendicular to the second groove of first groove 131
137.Wherein, first groove 131 is used to place the elastomer 101, and the locating dowel 133 is recessed for positioning described first
To avoid the displacement of the elastomer 101, the banking stop 135 is used to prevent the foil gauge elastomer 101 in groove 131
102 are subjected to displacement on the tool 13, and second groove 137 is used for the gripping machine-shaping of the finished product discharging device 6
The temperature compensation component 100.
Fig. 4 is please referred to, is the structural representation of the elastomer feeding device of process equipment shown in Fig. 2.The elasticity
Body feeding device 2 includes that the elastomer guide rail 22, elastomer that Vibration of Elastic Bodies disk 21 and the Vibration of Elastic Bodies disk 21 are connected is wrong
Hyte part 23, elastomer pushing material component 24, stirring component 25 and elastomer move material component 26.The elastomer guide rail 22 with it is described
The parallel interval of elastomer pushing material component 23 is set and positioned at the homonymy of elastomer dislocation component 24,25 points of the stirring component
Material component 26 is not moved with elastomer dislocation component 24 and the elastomer to dock and positioned at elastomer dislocation component 24
Away from the side of elastomer pushing material component 23.Wherein, the elastomer dislocation component 24 is used for the elastomer guide rail 22
The elastomer 101 of conveying misplaces to the pusher position of the elastomer pushing material component 23, the elastomer pushing material component 23
For the elastomer 101 to be pushed into the stirring component 25 and elastomer shifting material component 26 successively, the elastomer is moved
Material component 26 is used to for the elastomer 101 to move to the tool 13.
The elastomer dislocation component 23 includes the splicing block 231 with splicing groove 231A, drives the edge of splicing block 231
Receiving cylinder 233 that the elastomer guide rail 22 is moved to the direction of elastomer pushing material component 24 and located at the splicing block
231 away from the side of elastomer guide rail 22 and the block 235 that is docked with the splicing groove 231A.The block 235 is used to prevent
Exceed stroke when only the elastomer 101 enters the splicing groove 231A.
The elastomer pushing material component 24 includes expeller 241 and drives the expeller 241 to the stirring component 25
The pusher cylinder 243 of motion.
The stirring component 25 includes stirring part 251, drives the servomotor 253 and monitor of the stirring part 251
255。
Fig. 5 is please referred to, is the structural representation of the stirring part of elastomer feeding device shown in Fig. 4.The stirring part
251 include that material component 26 pairs is moved in two ends with the splicing groove 231A and the elastomer of elastomer dislocation component 23 respectively
The capaciting material groove 2511 that connects and perpendicular to the capaciting material groove 2511 and the monitoring mouthful 2513 that is connected with the capaciting material groove 2511, the prison
Device 255 is surveyed located at the monitoring mouth 2513 and for controlling whether the servomotor 253 drives the stirring part 251 to overturn.
The elastomer moves material component 26 includes the shifting hopper docked with the capaciting material groove 2511 of the stirring component 25
261st, located at the top pressure cylinder 263 for moving immediately below hopper 261 and there is thimble 263A, located at the shifting hopper 261 just go up
The extractor 265 of side, drive the extractor 265 along the first elastomer cylinder 267 moved directly over the shifting hopper 261 and
The the second elastomer cylinder for driving the first elastomer cylinder 267 to be moved along shifting hopper 261 to the direction of the tool 13
269。
The hopper 261 that moves includes setting limited block 2611 in the inner, and the limited block 2611 is used to prevent the elasticity
There is the problem of fried material when entering the shifting hopper 261 in body 101.
The elastomer feeding device 2 also include be covered on the elastomer guide rail 22 elastomer compressing tablet (not shown) and
Elastomer photoelectric tube 27 on the elastomer guide rail 22.Wherein, the elastomer compressing tablet is used to prevent the elastomer
101 there is the problem for running material when being moved along the elastomer guide rail 22, the elastomer photoelectric tube 27 is used to detect the elasticity
Whether the elastomer 101 is had on body guide rail 22.
The specific work process of the elastomer feeding device 2 is:
When the elastomer 101 that the Vibration of Elastic Bodies disk 21 is provided is delivered to described connecing through the elastomer guide rail 22
After expecting in the splicing groove 231A of block 231, the receiving cylinder 233 drives the splicing block 231 along the elastomer guide rail
22 to the direction of elastomer pushing material component 24 motion, so that the splicing groove 231A aligns with the expeller 241;
And then, the pusher cylinder 243 drives the expeller 241 to be moved to the stirring component 25, so that institute
State the capaciting material groove 2511 that elastomer 101 enters the stirring part 251;If the monitor 255 detects the elasticity
The unfilled corner portion 101A of body 101 is inconsistent with preset direction, and the monitor 255 controls the servomotor 253 to drive institute
The upset 180 degree of stirring part 251 is stated, conversely, then the monitor 255 controls the servomotor 253 not drive the stirring part
251 upsets;
And then, under the promotion of next elastomer 101, the elastomer 101 enters shifting hopper 261, next
The elastomer 101 enters the capaciting material groove 2511;
And then, under the driving of the top pressure cylinder 263, elastomer 101 described in the thimble 263A top pressures simultaneously pushes institute aside
State limited block 2611;
And then, in matching somebody with somebody for the extractor 265, the first elastomer cylinder 267 and the second elastomer cylinder 269
The elastomer 101 is moved on the tool 13 from the shifting hopper 261 under conjunction.
Also referring to Fig. 6, Fig. 7 and Fig. 8, wherein, Fig. 6 is the knot of the foil gauge feeding device of process equipment shown in Fig. 2
Structure schematic diagram, Fig. 7 is the structural representation of the foil gauge guide rail of foil gauge feeding device shown in Fig. 6, and Fig. 8 is strain shown in Fig. 6
The structural representation of the guide pad of piece feeding device.The foil gauge feeding device 3 is used to include foil gauge vibrating disk 31, strain
Piece guide rail 33, foil gauge dislocation component 35 and foil gauge move material component 37.The two ends of the foil gauge guide rail 33 respectively with it is described
Foil gauge vibrating disk 31 and foil gauge dislocation component 35 are connected, the foil gauge move material component 37 respectively with the foil gauge
Dislocation component 35 and the tool 13 are docked.Wherein, the foil gauge dislocation component 35 is used for the foil gauge guide rail 33 is defeated
The foil gauge 102 for sending misplaces to the foil gauge and moves the shifting discharge position of material component 37, and the foil gauge moves material component 37 and uses
Moved on the tool 13 in by the foil gauge 102, and cause that the foil gauge 102 is stacked at the one of the elastomer 101
End.
Foil gauge dislocation component 35 includes the stopper slot 351 docked with the foil gauge guide rail 33, with receiving hopper
The guide pad 353 of 353A and the lead material cylinder 355 of the driving guide pad 353, the guide pad 353 are located at the stopper slot
Move in 351 and along the stopper slot 351.
The stopper slot 351 includes that two are used for the breach that foil gauge shifting material component 37 pipettes the foil gauge 102
Portion 3511, and two notch parts 3511 are respectively positioned at the two opposite sides of the guide pad 353.
The foil gauge move material component 37 include foil gauge gripper cylinder 371 directly over the notch part 3511,
The foil gauge gripper cylinder 371 is driven along the first foil gauge cylinder 373 moved directly over the notch part 3511 and is driven
The second foil gauge cylinder 375 that the first foil gauge cylinder 373 is moved along the notch part 3511 to the direction of the tool 13.
The foil gauge moves material component 37 also to be included being used for the foil gauge locating piece of the spacing second foil gauge cylinder 375
377 and located at the foil gauge locating piece 377 and for preventing the second foil gauge cylinder 375 and the foil gauge locating piece
The foil gauge elastomer block 379 of 377 hard collisions.
The foil gauge move material component 37 also include being covered on the foil gauge compressing tablet (not shown) of the foil gauge guide rail 33,
Foil gauge photoelectric tube 38 on the foil gauge guide rail 33 and located at the foil gauge guide rail 33 and the stopper slot 351 pairs
Connect the foil gauge inductor 39 at place.Wherein, the foil gauge compressing tablet is used to prevent the foil gauge 102 along the foil gauge guide rail
Whether the problem for occurring to run material during 33 motion, the foil gauge photoelectric tube 38 is used to detect have described on the foil gauge guide rail 33
Foil gauge 102, the foil gauge inductor 39 is used to detect whether the foil gauge 102 receives hopper 353A described in entering.
The specific work process of the foil gauge feeding device 3 is:
When the foil gauge 102 that the foil gauge vibrating disk 31 is provided is delivered to described leading through the foil gauge guide rail 33
After the hopper 353A that received described in material block 353 is interior, the lead material cylinder 355 drives the guide pad 353 to be transported along the stopper slot 351
It is dynamic, so that the hopper 353A that receives aligns with the notch part 3511 of the stopper slot 351;
And then, in the foil gauge gripper cylinder 371, the first foil gauge cylinder 373 and the second foil gauge gas
Cylinder 375 is moved on the tool 13 foil gauge 102 from the hopper 353A that receives under coordinating, so that the foil gauge
102 are stacked at the elastomer 101 near one end of the unfilled corner portion 101A.
Also referring to Fig. 9, Figure 10 and Figure 11, wherein, Fig. 9 is the knot of the rivet feeding device of process equipment shown in Fig. 2
Structure schematic diagram, Figure 10 is the structural representation of the rivet guide rail of rivet feeding device shown in Fig. 9, and Figure 11 is on rivet shown in Fig. 9
The structural representation of the dislocation block of material device.The rivet feeding device 4 includes rivet vibrating disk 41 and the rivet vibrating disk
The rivet guide rail 42 and the rivet guide rail 42 of 41 connections are connected and perpendicular to the rivet dislocation component 43 of the rivet guide rail 42
And the rivet located at rivet dislocation component 43 one end moves material component 44.Wherein, the rivet dislocation component 43 is used for institute
The rivet 103 for stating the conveying of rivet guide rail 42 misplaces to the shifting discharge position of rivet shifting material component 44, and the rivet moves material
Component 44 is used to for the rivet 403 to move to the tool 13, and causes that the rivet 103 passes through the He of the elastomer 101
The foil gauge 102.
The rivet dislocation component 43 includes being docked with the rivet guide rail 42 and with the dislocation block of rivet hopper 431A
431 and drive it is described dislocation block 431 dislocation cylinder 433.The rivet hopper 431A is located at the dislocation block 431 away from described
One end of dislocation cylinder 433.
The rivet moves material component 44 to be included located at the underface of the rivet hopper 431A and has the top of jacking block 441A
Material cylinder 441, the rivet gripper cylinder 443 directly over the rivet hopper 431A, the driving rivet gripper cylinder 443
Along the first rivet cylinder 445 and driving the first rivet cylinder 445 moved directly over the rivet hopper 431A along described
The second rivet cylinder 447 that rivet hopper 431A is moved to the direction of the tool 13.
The rivet move material component 44 also include for the spacing second rivet cylinder 447 rivet locating piece 448 and
Located at the rivet locating piece 448 and for preventing the second rivet cylinder 447 with the hard collision of rivet locating piece 448
Rivet elastomer block 449.
The rivet feeding device 4 is also including being covered on the rivet compressing tablet (not shown) of the rivet guide rail 42, located at institute
State the rivet photoelectric tube 45 on rivet guide rail 42 and located at block 431 and the rivet of the joint of rivet guide rail 42 of misplacing
Inductor 46.Wherein, occur to run material when the rivet compressing tablet is used to prevent the rivet 103 from being moved along the rivet guide rail 42
Problem, the rivet photoelectric tube 45 be used for detect whether there is the rivet 103 on the rivet guide rail 42, the rivet inductor
46 are used to detect whether the rivet 103 of the conveying of rivet guide rail 42 enters the rivet hopper 431A.
The specific work process of the rivet feeding device 4 is:
When the rivet 103 that the rivet vibrating disk 41 is provided is delivered to the dislocation block through the rivet guide rail 42
After in the 431 rivet hopper 431A, the dislocation cylinder 433 drive the dislocation block 431 along the rivet guide rail 42 to
The rivet moves the direction motion of material component 44, so that the jacking block 441A and the rivet gripper cylinder 443 difference position
In the both sides up and down for receiving hopper 353A;
And then, under the driving of the material ejection cylinder 441, rivet 103 described in the jacking block 441A top pressures, so that institute
Rivet gripper cylinder 443 is stated to be easy to grip the rivet 103;
And then, in the rivet gripper cylinder 443, the first rivet cylinder 445 and the second rivet cylinder 447
The rivet 103 is moved on the tool 13 from the rivet hopper 431A under cooperation, so that the rivet 103 is passed through
The elastomer 101 and the foil gauge 102.
In order to prevent the foil gauge 102 to be subjected to displacement because the conveying member 11 is moved, the foil gauge feeding device 3
Upper discharge position with the rivet feeding device 4 is identical, i.e., fold the foil gauge 102 when the foil gauge feeding device 3 and set
In the elastomer 101 behind one end of the unfilled corner portion 101A, the conveying member 11 is not moved.
The finished product discharging device 6 includes gripper cylinder 61, the driving gripper gas directly over the tool 13
Cylinder 61 is along the first cylinder 63 and the spaced chute 65 of the conveying member 11 moved directly over the tool 13 and drives institute
State the second cylinder 67 that the first cylinder 63 is moved along the tool 13 to the direction of the chute 65.
Specifically, when the riveted of the riveting machine 5 through the elastomer 101 and the rivet 103 of the foil gauge 102
Afterwards, the conveying member 11 conveys the lower discharge position of the temperature compensation component 100 after shaping to the finished product discharging device 6,
By the temperature compensation component under the mating reaction of the gripper cylinder 61, first cylinder 63 and second cylinder 67
100 move in the chute 65 from the tool 13.
Figure 12 is please referred to, is the structural representation of the auxiliary locator of process equipment shown in Fig. 2.The auxiliary is fixed
Position device 7 is used to aid in the locating dowel 133 to position the elastomer 101 in first groove 131 to avoid the bullet
The displacement of gonosome 101, its auxiliary positioning cylinder 73 for including auxiliary positioning post 71 and driving the positioning of auxiliary positioning post 71.
In the present embodiment, the elastomer photoelectric tube 27, the foil gauge photoelectric tube 38, the rivet photoelectric tube 45,
The foil gauge inductor 39 and the rivet inductor 46 are connected to alarm.Wherein, when the elastomer photoelectric tube
27th, the foil gauge photoelectric tube 38 and the rivet photoelectric tube 45 detect the corresponding elastomer guide rail 22, it is described should
When there is no material on change piece guide rail 33 and the rivet guide rail 42, corresponding alarm prompting staff's additive
Material;When the foil gauge inductor 39 and the rivet inductor 46 detect corresponding hopper 353A and the rivet received
When material in hopper 431A occurs abnormal, the corresponding alarm carries out alarm to staff.
The beneficial effect of foil gauge feeding device 3 that the utility model is provided is:By foil gauge dislocation component
35 misplace to the foil gauge foil gauge 102 that the foil gauge guide rail 33 is conveyed moves the shifting discharge position of material component 37,
And then one end that the foil gauge 102 is stacked at material component 37 elastomer 101 is moved by the foil gauge, not only work
Efficiency high, feeding high precision, and high degree of automation, can save manpower.
Embodiment of the present utility model is the foregoing is only, the scope of the claims of the present utility model is not thereby limited, it is every
The equivalent structure or equivalent flow conversion made using the utility model specification and accompanying drawing content, or be directly or indirectly used in
Other related technical fields, are similarly included in scope of patent protection of the present utility model.
Claims (8)
1. a kind of foil gauge feeding device, for the foil gauge of temperature compensation component to be assembled into elastomer, it is characterised in that
The foil gauge feeding device include foil gauge vibrating disk, foil gauge dislocation component, two ends respectively with the foil gauge vibrating disk
The foil gauge guide rail connected with foil gauge dislocation component and the foil gauge docked with foil gauge dislocation component move material group
Part, wherein, the foil gauge dislocation component is used to misplace the foil gauge that the foil gauge guide rail is conveyed to the strain
Piece moves the shifting discharge position of material component, and the foil gauge moves material component is used to that the foil gauge to be stacked at the one of the elastomer
End.
2. foil gauge feeding device according to claim 1, it is characterised in that the foil gauge dislocation component includes and institute
State the docking of foil gauge guide rail stopper slot, with receive hopper guide pad and drive the lead material cylinder of the guide pad, it is described to lead
Material block is moved in the stopper slot and along the stopper slot.
3. foil gauge feeding device according to claim 2, it is characterised in that the stopper slot is located at respectively including two
The notch part of the two opposite sides of the guide pad.
4. foil gauge feeding device according to claim 3, it is characterised in that the foil gauge moves material component to be included being located at
Foil gauge gripper cylinder, the driving foil gauge gripper cylinder directly over the notch part are moved along notch part surface
The first foil gauge cylinder and drive that the first foil gauge cylinder moves along the notch part to the elastomer direction the
Two foil gauge cylinders.
5. foil gauge feeding device according to claim 4, it is characterised in that the foil gauge moves material component also to be included using
In the foil gauge locating piece of the spacing second foil gauge cylinder and located at the foil gauge locating piece and for preventing described the
The foil gauge elastomer block of two foil gauge cylinders and the foil gauge locating piece hard collision.
6. foil gauge feeding device according to claim 1, it is characterised in that the foil gauge moves material component also includes lid
Located at the foil gauge compressing tablet of the foil gauge guide rail.
7. foil gauge feeding device according to claim 1, it is characterised in that the foil gauge moves material component also to be included setting
Foil gauge photoelectric tube on the foil gauge guide rail.
8. foil gauge feeding device according to claim 2, it is characterised in that the foil gauge moves material component also to be included setting
In the foil gauge guide rail and the foil gauge inductor of the stopper slot joint.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621138169.4U CN206187860U (en) | 2016-10-19 | 2016-10-19 | Which comprises a frame, |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621138169.4U CN206187860U (en) | 2016-10-19 | 2016-10-19 | Which comprises a frame, |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206187860U true CN206187860U (en) | 2017-05-24 |
Family
ID=58731639
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201621138169.4U Expired - Fee Related CN206187860U (en) | 2016-10-19 | 2016-10-19 | Which comprises a frame, |
Country Status (1)
Country | Link |
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CN (1) | CN206187860U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110180921A (en) * | 2019-06-03 | 2019-08-30 | 苏州睿立汇自动化科技有限公司 | Automobile spring reed riveting bending mechanism |
-
2016
- 2016-10-19 CN CN201621138169.4U patent/CN206187860U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110180921A (en) * | 2019-06-03 | 2019-08-30 | 苏州睿立汇自动化科技有限公司 | Automobile spring reed riveting bending mechanism |
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