CN208178909U - Hinge assemblies machine - Google Patents
Hinge assemblies machine Download PDFInfo
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- CN208178909U CN208178909U CN201820533626.2U CN201820533626U CN208178909U CN 208178909 U CN208178909 U CN 208178909U CN 201820533626 U CN201820533626 U CN 201820533626U CN 208178909 U CN208178909 U CN 208178909U
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- torsional spring
- arm
- straight
- rivet
- assemble mechanism
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Abstract
The utility model relates to a kind of hinge assemblies machines, including rack, index dial, four orifice assemble mechanisms, torsional spring assemble mechanism, rivet assemble mechanism and testing agency, the index dial is mounted on the rack, the outer of the index dial is equipped with multiple for placing the assembly station of straight-arm, the four orifice assemble mechanism is used to for four orifice being packed into straight-arm, the torsional spring assemble mechanism is for torsional spring to be packed into the straight-arm, the rivet assemble mechanism is for loading rivets into four orifice and the torsional spring, the testing agency is for detecting whether the torsional spring is located in the straight-arm.When straight-arm turns to the corresponding assembly station of testing agency, whether testing agency's detection torsional spring is located in straight-arm, if so, subsequent continue to assemble the straight-arm;If it is not, then determine the straight-arm for defective products, it is subsequent the straight-arm not to be continued to assemble, avoid the waste of material.
Description
Technical field
The utility model relates to the process and assemble technical fields of hinge, more particularly to a kind of hinge assemblies machine.
Background technique
Hinge is the connector of common door body or cabinet body etc..For example, door body can be beaten using the principle being movably hinged around axis
On or off is closed.In hinge processing, four orifice and torsional spring need to be installed in arm-piece.Traditional hinge assemblies machine use process
In, because there is stability difference in the assembly of torsional spring, cause sometimes torsional spring be not mounted in arm-piece, cause subsequent continue pair
The arm-piece for being not installed with torsional spring is assembled, and the waste of material is in turn resulted in.
Utility model content
Based on this, it is necessary to aiming at the problem that waste of material, provide a kind of hinge assemblies machine, whether it is able to detect torsional spring
It is installed in arm-piece, therefore, it is determined that whether arm-piece is defective products, and then avoids continuing to assemble on defective products, avoids the wave of material
Take.
A kind of hinge assemblies machine, including rack, index dial, four orifice assemble mechanisms, torsional spring assemble mechanism, rivet assembly machine
Structure and testing agency, the index dial are mounted on the rack, and the outer of the index dial is equipped with multiple for placing straight-arm
Assembly station, the four orifice assemble mechanism, the torsional spring assemble mechanism, the rivet assemble mechanism and the testing agency
It is arranged around the index dial, the four orifice assemble mechanism is used to for four orifice being packed into the straight-arm, the torsional spring assembly
Mechanism is for torsional spring to be packed into the straight-arm, and the rivet assemble mechanism is for loading rivets into four orifice and the torsion
In spring, the testing agency is for detecting whether the torsional spring is located in the straight-arm.
In above-mentioned hinge assemblies machine, straight-arm is mounted on the assembly station of index dial, and as index dial rotates.Work as straight-arm
When turning at four orifice assemble mechanisms, four orifice, torsional spring and rivet are successively assembled in straight-arm.Then, straight-arm is with indexing
Disk continues to rotate to subsequent work stations.When straight-arm turns at testing agency, whether testing agency's detection torsional spring is located in straight-arm, if
Be, then it is subsequent to continue to assemble the straight-arm;If it is not, then determine the straight-arm for defective products, it is subsequent the straight-arm not to be continued to fill
Match, avoids the waste of material.
Further, the testing agency includes detection probe and probe actuation part, the probe actuation part and the inspection
The connection of probing needle, the probe actuation part is for driving the detection probe movement so that the detection probe protrudes into the straight-arm
It is interior.
Further, the detection probe with power supply for being connected to, after the detection probe protrudes into the straight-arm, if institute
It states detection probe and contradicts the torsional spring, then the detection probe has electric current to pass through;Otherwise, the detection probe no current passes through.
Further, the four orifice assemble mechanism includes four hole vibrating disks, four hole grippers and pushes away four hole actuators, described
Four orifice is delivered to four hole gripper by four hole material paths by four hole vibrating disks, and the four hole actuators that push away are for driving
Four hole gripper moves so that four orifice is packed into the straight-arm.
Further, the torsional spring assemble mechanism includes torsional spring vibrating disk, torsional spring gripper and pushes away torsional spring actuator, the torsion
The torsional spring is delivered to the torsional spring gripper by torsional spring material path by spring vibrating disk, and described to push away torsional spring actuator described for driving
Torsional spring gripper moves so that the torsional spring is packed into the straight-arm.
Further, the torsional spring assemble mechanism further includes straight vibration and sub-material component, and the torsional spring material path includes horizontal charge
Road and vertical material path, the feeding end of the horizontal material path are connect with the torsional spring vibrating disk, and the straight vibration contradicts the horizontal charge
Road, the sub-material component are used to for the single torsional spring in the horizontal material path being pushed into the feeding end of the vertical material path.
Further, the rivet assemble mechanism includes rivet vibrating disk, sub-material module, module drive part, compression bar, bar drive
Moving part, nail clip piece and the expects pipe being connected to the nail clip piece, the sub-material module are located at the outlet end of the rivet vibrating disk, institute
It states module drive part to connect with the sub-material module, the module drive part is for driving the sub-material block motion so that described
The single rivet from the rivet vibrating disk is pushed into the expects pipe, the bar actuator and the compression bar by sub-material module
Connection, the bar actuator is for driving the compression bar to move so that the compression bar is by the single rivet in the nail clip piece
It is pressed into the straight-arm, four orifice and the torsional spring.
Further, the rivet assemble mechanism further includes draw pin and needle actuator, and it is remote that the draw pin is located at the straight-arm
Side from the compression bar, the needle actuator are connect with the draw pin, and the needle actuator is for driving the draw pin to move
So that the draw pin penetrates in the straight-arm.
It further, further include the rivet fixing machine structure for being located at the testing agency downstream, the rivet fixing machine structure packet
Floating briquetting, rivet driver, sliding block, slider-actuated part and bearing are included, the rivet driver is located at the side of the index dial, described floating
Dynamic pressure block is located at the other side of the index dial, and the sliding block is equipped with skewed slot, and the bearing is slideably positioned in the skewed slot, institute
It states bearing to connect with the floating briquetting, the slider-actuated part is for driving the slide block movement so that the bearing and described
Floating briquetting can be moved along the skewed slot court close to or far from the rivet driver.
It further, further include pressure arm cylinder, the pressure arm cylinder is located at the corresponding assembly of the four orifice assemble mechanism
At station, the pressure arm Telescopic-cylinder movement is to compress or unclamp the straight-arm on the assembly station.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of hinge assemblies machine described in the utility model embodiment;
Fig. 2 is the installation diagram that straight-arm assembles four orifice, torsional spring and rivet in Fig. 1;
Fig. 3 is the partial enlarged view in Fig. 2 at A;
Fig. 4 is the partial enlarged view in Fig. 2 at B;
Fig. 5 is the structural schematic diagram of rivet fixing machine structure described in Fig. 1;
Fig. 6 is the scheme of installation of Fig. 5 middle (center) bearing.
100, rack, 200, index dial, 201, assembly station, 300, four orifice assemble mechanisms, 301, four hole vibrating disks,
302, four hole gripper, 303, push away four hole actuators, 304, four hole material paths, 400, torsional spring assemble mechanism, 401, torsional spring vibrating disk,
402, torsional spring gripper, 403, push away torsional spring actuator, 404, torsional spring material path, 405, horizontal material path, 406, vertical material path, 407, straight
Vibration, 408, sub-material component, 500, rivet assemble mechanism, 501, sub-material module, 502, module drive part, 503, nail clip piece, 504,
Compression bar, 505, bar actuator, 506, needle actuator, 600, testing agency, 601, detection probe, 602, probe actuation part, 701,
Four orifice, 702, torsional spring, 703, rivet, 704, straight-arm, 800, rivet fixing machine structure, 801, floating briquetting, 802, rivet driver,
803, sliding block, 804, slider-actuated part, 805, bearing, 806, skewed slot, 807, adjusting screw, 900, pressure arm cylinder.
Specific embodiment
The utility model is more fully retouched below with reference to relevant drawings for the ease of understanding the utility model,
It states.The better embodiment of the utility model is given in attached drawing.But the utility model can come in many different forms
It realizes, however it is not limited to embodiments described herein.On the contrary, the purpose of providing these embodiments is that making practical new to this
The disclosure of type understands more thorough and comprehensive.
It should be noted that it can directly on the other element when element is referred to as " being fixed on " another element
Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to
To another element or it may be simultaneously present centering elements.On the contrary, when element is referred to as " directly existing " another element "upper",
There is no intermediary elements.Term as used herein "vertical", "horizontal", "left" and "right" and similar statement are
For illustrative purposes." first " described in the utility model, " second " do not represent specific quantity and sequence, are only used for
The differentiation of title.
In one embodiment, a kind of hinge assemblies machine, including rack 100, index dial 200, four holes combined with Figure 1 and Figure 2,
Part assemble mechanism 300, torsional spring assemble mechanism 400, rivet assemble mechanism 500 and testing agency 600.The index dial 200 is installed
In the rack 100, the outer of the index dial 200 is equipped with multiple assembly stations 201 for being used to place straight-arm 704, described
Four orifice assemble mechanisms 300,600 ring of the torsional spring assemble mechanism 400, the rivet assemble mechanism 500 and the testing agency
It is arranged around index dial 200, the four orifice assemble mechanism 300 is used to for four orifice 701 being packed into straight-arm 704, the torsional spring dress
Fitting mechanism 400 is for torsional spring 702 to be packed into the straight-arm 704, and the rivet assemble mechanism 500 is for rivet 703 to be packed into
In four orifice 701 and the torsional spring 702, the testing agency 600 for detect the torsional spring 702 whether be located at it is described straight
In arm 704.
In above-mentioned hinge assemblies machine, straight-arm 704 is mounted on the assembly station 201 of index dial 200, and with index dial
200 rotations.When straight-arm 704 turns at four orifice assemble mechanisms 300, four orifice 701, torsional spring 702 and rivet 703 are successively assembled
Into straight-arm 704.Then, straight-arm 704 continues to rotate on subsequent work stations with index dial 200.When straight-arm 704 turns to detection
At mechanism 600, testing agency 600 detects whether torsional spring 702 is located in straight-arm 704, if so, subsequent continue to the straight-arm 704
It is assembled;If it is not, then determine that the straight-arm 704 is defective products, and it is subsequent the straight-arm 704 not to be continued to assemble, avoid the wave of material
Take.
Further, in conjunction with Fig. 1, above-mentioned hinge assemblies machine further includes pressure arm cylinder 900.The pressure arm cylinder 900 is located at
At the corresponding assembly station 201 of the four orifice assemble mechanism 300,900 stretching motion of pressure arm cylinder is to compress or unclamp
The straight-arm 704 on the assembly station 201.When straight-arm 704 turns to the corresponding assembly of four orifice assemble mechanism 300
When station 201,900 stretching motion of pressure arm cylinder is convenient that four orifice are next assembled on straight-arm 704 to compress straight-arm 704
701, torsional spring 702 and rivet 703.After straight-arm 704 has assembled four orifice 701, torsional spring 702 and rivet 703, pressure arm cylinder
900 telescopic shaft is moved to unclamp straight-arm 704, so that straight-arm 704 goes to next assembly station 201 with index dial 200, is carried out
Subsequent detection or assembly.
Further, in conjunction with Fig. 2 and Fig. 3, the four orifice assemble mechanism 300 includes four hole vibrating disks 301, four hole grippers
302 and push away four hole actuators 303.Four orifice 701 is delivered to institute by four hole material paths 304 by four hole vibrating disk 301
Four hole grippers 302 are stated, the four hole actuators 303 that push away are for driving the movement of four hole gripper 302 so that four orifice 701
It is packed into the straight-arm 704.Four orifice 701 are sent to four hole grippers 302, then push away four holes by four hole vibrating disks, 301 automatic discharge
Actuator 303 is for driving four hole gripper 302 to move so that four orifice 701 is packed into the straight-arm 704, thus real
Existing four orifice 701 are assembled on straight-arm 704.
Specifically, cylinder, oil cylinder or motor can be selected by pushing away four hole actuators 303.Four hole grippers 302 are by four orifice 701
After being packed into the straight-arm 704, it can choose and remain stationary, after torsional spring 702 and rivet 703 fit into straight-arm 704, push away four holes
Actuator 303 resets again, so that four hole grippers 302 be driven to leave straight-arm 704.
Further, in conjunction with Fig. 2 to Fig. 4, the torsional spring assemble mechanism 400 includes torsional spring vibrating disk 401, torsional spring gripper
402 and push away torsional spring actuator 403, the torsional spring 702 is delivered to described by the torsional spring vibrating disk 401 by torsional spring material path 404
Torsional spring gripper 402, the torsional spring actuator 403 that pushes away is for driving the torsional spring gripper 402 to move so that the torsional spring 702 is packed into
In the straight-arm 704.Torsional spring 702 is sent to torsional spring gripper 402, then pushes away torsional spring actuator by 401 automatic discharge of torsional spring vibrating disk
The 403 driving torsional spring grippers 402 move so that the torsional spring 702 is packed into the straight-arm 704, to realize that torsional spring 702 fills
It is fitted on straight-arm 704.
Specifically, cylinder, oil cylinder or motor can be selected by pushing away torsional spring actuator 403.Torsional spring gripper 402 fills torsional spring 702
After entering the straight-arm 704, it can choose and remain stationary, after turning round rivet 703 and being installed to straight-arm 704, push away torsional spring actuator 403 again
It resets, so that torsional spring gripper 402 be driven to leave straight-arm 704.It torsional spring gripper 402 and pushes away torsional spring actuator 403 and may be constructed gripper
The structure type of cylinder.
Further, in conjunction with Fig. 2 to Fig. 4, the torsional spring assemble mechanism 400 further includes straight shake 407 and sub-material component 408,
The torsional spring material path 404 includes horizontal material path 405 and vertical material path 406, the feeding end and the torsional spring of the horizontal material path 405
Vibrating disk 401 connects, and the straight vibration 407 contradicts the horizontal material path 405, and the sub-material component 408 is used for the horizontal charge
The single torsional spring 702 in road 405 is pushed into the feeding end of the vertical material path 406.Straight vibration 407 contradicts the horizontal material path
405, the torsional spring 702 in horizontal material path 405 is separated, the sub-material of subsequent torsional spring 702 is facilitated.Sub-material component 408 is used for will be described
The feeding end of the vertical material path 406 is pushed in turn in the single torsional spring 702 in horizontal material path 405, facilitates torsional spring gripper 402
Successively single torsional spring 702 is assembled on straight-arm 704.Wherein, single torsional spring 702 can fall into torsional spring by vertical material path 406
In gripper 402.Sub-material component 408 is chosen as including actuator and impeller.Actuator driving impeller moves back and forth once, makes
It obtains impeller single torsional spring 702 is pushed into vertical material path 406.
Further, in conjunction with Fig. 2 and Fig. 3, the rivet assemble mechanism 500 includes rivet vibrating disk (not shown), sub-material
Module 501, module drive part 502, compression bar 504, bar actuator 505, nail clip piece 503 and the material being connected to the nail clip piece 503
Pipe, the sub-material module 501 are located at the outlet end of the rivet vibrating disk, the module drive part 502 and the sub-material module
501 connections, the module drive part 502 is for driving the movement of sub-material module 501 so that the sub-material module 501 will come from
The single rivet 703 of the rivet vibrating disk is pushed into the expects pipe, and the bar actuator 505 is connect with the compression bar 504,
The bar actuator 505 is for driving the movement of compression bar 504 so that the compression bar 504 will be single in the nail clip piece 503
The rivet 703 is pressed into the straight-arm 704, four orifice 701 and the torsional spring 702.Rivet vibrating disk automatic nail arraying,
Module drive part 502 is for driving the sub-material module 501 to move so that the sub-material module 501 will be vibrated from the rivet
The single rivet 703 of disk is pushed into the expects pipe, and rivet 703 is fallen in nail clip piece 503 through charge tube, then, bar actuator
505 for driving the compression bar 504 to move, so that rivet 703 is pressed by the compression bar 504, so that rivet 703 is across described straight
The rivet hole of arm 704, four orifice 701 and the torsional spring 702 realize that rivet 703 is installed on straight-arm 704.
Wherein, rivet vibrating disk is optionally connected with tracheae, and 703 transtracheal of rivet in rivet vibrating disk falls on sub-material mould
At block 501.It is young that nail clip piece 503 can be nail pocket.Module drive part 502 can select cylinder, oil cylinder or motor.
Further, in conjunction with Fig. 2 and Fig. 3, the rivet assemble mechanism 500 further includes draw pin (not shown) and needle actuator
506, the draw pin is located at side of the straight-arm 704 far from the compression bar 504, and the needle actuator 506 connects with the draw pin
It connects, the needle actuator 506 is for driving the draw pin movement so that the draw pin penetrates in the straight-arm 704.In order to make riveting
Nail 703 can be accurately fitted on straight-arm 704, firstly, needle actuator 506 drives the draw pin movement so that the draw pin is worn
Enter in the straight-arm 704, then, sub-material module 501 again press for driving the compression bar 504 to move by sub-material, bar actuator 505
Bar 504 pushes away rivet 703 and enters in straight-arm 704, and draw pin contradicts rivet 703 and guides rivet 703 mobile, so that rivet 703 penetrates
Straight-arm 704, four orifice 701 and torsional spring 702.
Specifically, needle actuator 506 can select cylinder, oil cylinder or motor.Draw pin is located at the lower section of index dial 200, pressure
Bar 504 is located at the top of index dial 200, moves down so that draw pin can hold rivet 703.
Further, in conjunction with Fig. 2 and Fig. 3, the testing agency 600 includes detection probe 601 and probe actuation part 602.
The probe actuation part 602 is connect with the detection probe 601, and the probe actuation part 602 is for driving the detection probe
601 movements are so that the detection probe 601 protrudes into the straight-arm 704.In this way, detection probe 601 protrudes into the straight-arm 704
Interior, detection probe 601 touches torsional spring 702, then it represents that torsional spring 702 is installed in place, otherwise, it is determined that the straight-arm 704 is defective products.
Further, in conjunction with Fig. 2 and Fig. 3, the detection probe 601 with power supply for being connected to, when the detection probe 601
After protruding into the straight-arm 704, if the detection probe 601 contradicts the torsional spring 702, the detection probe 601 has electric current logical
It crosses;Otherwise, 601 no current of detection probe passes through.If circuit is led in this way, detection probe 601 touches torsional spring 702
It is logical, there is electric current to pass through.Otherwise, if 601 no current of detection probe passes through, determine that the straight-arm 704 is defective products.Specifically,
If there is electric current passes through, then there is signal output, otherwise, then no signal exports.
It is appreciated that testing agency 600 can also be camera or position sensor.
Further, in conjunction with Fig. 2, Fig. 5 and Fig. 6, above-mentioned hinge assemblies machine further includes being located at 600 downstream of testing agency
Rivet fixing machine structure 800.The rivet fixing machine structure 800 includes floating briquetting 801, rivet driver 802, sliding block 803, sliding block drive
Moving part 804 and bearing 805, the rivet driver 802 are located at the side of the index dial 200, and the floating briquetting 801 is located at described
The other side of index dial 200, the sliding block 803 are equipped with skewed slot 806, and the bearing 805 is slideably positioned in the skewed slot 806,
The bearing 805 is connect with the floating briquetting 801, the slider-actuated part 804 for driving the sliding block 803 to move so that
The bearing 805 and the floating briquetting 801 can be moved along the skewed slot 806 towards close to or far from the rivet driver 802.Knot
Fig. 5 and Fig. 6 is closed, slider-actuated part 804 pushes the sliding block 803 to recycle, then bearing 805 and the floating pressure connecting with bearing 805
Relative to sliding block 803 relative motion occurs for block 801, so that floating briquetting 801 compresses straight-arm 704, at this point, rivet driver 802 rotates,
The riveting of rivet 703 in straight-arm 704 is fixed on straight-arm 704.Similarly, before slider-actuated part 804 pushes the sliding block 803
It moves, then bearing 805 and the floating briquetting 801 connecting with bearing 805 are relative to the generation relative motion of sliding block 803, so that pressure of floating
Block 801 unclamps straight-arm 704, and straight-arm 704 is transferred to next assembly station 201 with index dial 200.
Specifically, rivet driver 802 is located at the lower section of index dial 200, and floating briquetting 801 is located at the top of index dial 200.
Specifically, floating briquetting 801 is equipped with adjusting screw 807 close to the end face of index dial 200.By rotating adjusting screw
807, it can be realized the pushing height of floating briquetting 801.
Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality
It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited
In contradiction, all should be considered as described in this specification.
Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed,
But it cannot be understood as the limitations to utility model patent range.It should be pointed out that for the common skill of this field
For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to
The protection scope of the utility model.Therefore, the scope of protection shall be subject to the appended claims for the utility model patent.
Claims (10)
1. a kind of hinge assemblies machine, which is characterized in that including rack, index dial, four orifice assemble mechanisms, torsional spring assemble mechanism,
Rivet assemble mechanism and testing agency, the index dial are mounted on the rack, and the outer of the index dial is equipped with multiple use
In the assembly station for placing straight-arm, the four orifice assemble mechanism, the torsional spring assemble mechanism, the rivet assemble mechanism and institute
It states testing agency to be arranged around the index dial, the four orifice assemble mechanism is used to for four orifice being packed into the straight-arm, institute
Torsional spring assemble mechanism is stated for torsional spring to be packed into the straight-arm, the rivet assemble mechanism is for loading rivets into four hole
In part and the torsional spring, the testing agency is for detecting whether the torsional spring is located in the straight-arm.
2. hinge assemblies machine according to claim 1, which is characterized in that the testing agency includes detection probe and probe
Actuator, the probe actuation part are connect with the detection probe, and the probe actuation part is for driving the detection probe to transport
It moves so that the detection probe protrudes into the straight-arm.
3. hinge assemblies machine according to claim 2, which is characterized in that the detection probe is used to be connected to power supply, when
After the detection probe protrudes into the straight-arm, if the detection probe contradicts the torsional spring, the detection probe has electric current logical
It crosses;Otherwise, the detection probe no current passes through.
4. hinge assemblies machine according to claim 1, which is characterized in that the four orifice assemble mechanism is vibrated including four holes
Disk, four hole grippers and four hole actuators are pushed away, four orifice is delivered to described four by four hole material paths by four hole vibrating disk
Hole gripper, the four hole actuators that push away are for driving four hole gripper to move so that four orifice is packed into the straight-arm.
5. hinge assemblies machine according to claim 1, which is characterized in that the torsional spring assemble mechanism includes torsional spring vibration
Disk, torsional spring gripper and torsional spring actuator is pushed away, the torsional spring is delivered to the torsional spring by torsional spring material path by the torsional spring vibrating disk
Gripper, the torsional spring actuator that pushes away is for driving the torsional spring gripper to move so that the torsional spring is packed into the straight-arm.
6. hinge assemblies machine according to claim 5, which is characterized in that the torsional spring assemble mechanism further includes straight vibration and divides
Expect component, the torsional spring material path includes horizontal material path and vertical material path, and the feeding end and the torsional spring of the horizontal material path vibrate
Disk connection, the straight vibration contradict the horizontal material path, and the sub-material component is used for the single torsion in the horizontal material path
Spring is pushed into the feeding end of the vertical material path.
7. hinge assemblies machine according to claim 1, which is characterized in that the rivet assemble mechanism includes rivet vibration
Disk, sub-material module, module drive part, compression bar, bar actuator, nail clip piece and the expects pipe being connected to the nail clip piece, the sub-material
Module is located at the outlet end of the rivet vibrating disk, and the module drive part is connect with the sub-material module, the module drive
Part is for driving the sub-material block motion so that the sub-material module is by the single rivet from the rivet vibrating disk
Be pushed into the expects pipe, the bar actuator is connect with the compression bar, the bar actuator for driving the compression bar to move so that
The single rivet in the nail clip piece is pressed into the straight-arm, four orifice and the torsional spring by the compression bar.
8. hinge assemblies machine according to claim 7, which is characterized in that the rivet assemble mechanism further includes draw pin and needle
Actuator, the draw pin are located at side of the straight-arm far from the compression bar, and the needle actuator is connect with the draw pin, described
Needle actuator is for driving the draw pin movement so that the draw pin penetrates in the straight-arm.
9. hinge assemblies machine according to any one of claims 1 to 8, which is characterized in that further include being located at the detection machine
The rivet fixing machine structure in structure downstream, the rivet fixing machine structure include floating briquetting, rivet driver, sliding block, slider-actuated part and axis
It holds, the rivet driver is located at the side of the index dial, and the floating briquetting is located at the other side of the index dial, the sliding block
Equipped with skewed slot, the bearing is slideably positioned in the skewed slot, and the bearing is connect with the floating briquetting, the slider-actuated
Part is for driving the slide block movement so that the bearing and the floating briquetting can be along the skewed slots towards close to or far from institute
It is mobile to state rivet driver.
10. hinge assemblies machine according to any one of claims 1 to 8, which is characterized in that it further include pressure arm cylinder, it is described
Pressure arm cylinder is located at the corresponding assembly station of the four orifice assemble mechanism, and pressure arm Telescopic-cylinder movement is to compress or pine
Open position is in the straight-arm on the assembly station.
Priority Applications (1)
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CN201820533626.2U CN208178909U (en) | 2018-04-13 | 2018-04-13 | Hinge assemblies machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820533626.2U CN208178909U (en) | 2018-04-13 | 2018-04-13 | Hinge assemblies machine |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109926822A (en) * | 2019-04-27 | 2019-06-25 | 徐亚果 | Two sections of power hinges of one kind automatically assemble equipment |
CN112247554A (en) * | 2020-08-07 | 2021-01-22 | 江门市戈利图自动化机械设备有限公司 | Automatic hydraulic hinge assembling machine |
-
2018
- 2018-04-13 CN CN201820533626.2U patent/CN208178909U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109926822A (en) * | 2019-04-27 | 2019-06-25 | 徐亚果 | Two sections of power hinges of one kind automatically assemble equipment |
CN112247554A (en) * | 2020-08-07 | 2021-01-22 | 江门市戈利图自动化机械设备有限公司 | Automatic hydraulic hinge assembling machine |
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