CN203085480U - H4 timbering machine - Google Patents

H4 timbering machine Download PDF

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Publication number
CN203085480U
CN203085480U CN 201220534823 CN201220534823U CN203085480U CN 203085480 U CN203085480 U CN 203085480U CN 201220534823 CN201220534823 CN 201220534823 CN 201220534823 U CN201220534823 U CN 201220534823U CN 203085480 U CN203085480 U CN 203085480U
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CN
China
Prior art keywords
molybdenum rod
cylinder
bead
slide plate
station
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Expired - Fee Related
Application number
CN 201220534823
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Chinese (zh)
Inventor
姚进围
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FOSHAN XUNYOU AUTOMATION EQUIPMENT Co Ltd
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FOSHAN XUNYOU AUTOMATION EQUIPMENT Co Ltd
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Priority to CN 201220534823 priority Critical patent/CN203085480U/en
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Publication of CN203085480U publication Critical patent/CN203085480U/en
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Abstract

An H4 timbering machine relates to the motor vehicle lamp technology field in an electric light source industry, and is characterized in that a turntable is arranged at the upper side of a rack, a plurality of station mechanisms are arranged on the surrounding edges of the turntable separately, and a middle molybdenum rod feeding mechanism is arranged at the left end of the rack; a middle molybdenum rod detection mechanism is arranged at one side of the middle molybdenum rod feeding mechanism, and a finished product blanking mechanism is arranged at the other side; a middle molybdenum rod bending mechanism is arranged at one side of the middle molybdenum rod detection mechanism, a two-edge molybdenum rod feeding mechanism is arranged at one side of the middle molybdenum rod bending mechanism, and a three-molybdenum rod detection mechanism is arranged at one side of the two-edge molybdenum rod feeding mechanism; a molybdenum rod blanking mechanism is arranged at one side of the three-molybdenum rod detection mechanism, a molybdenum rod flattening mechanism is arranged at one side of the molybdenum rod blanking mechanism, and a station correcting mechanism is arranged at one side of the molybdenum rod flattening mechanism. The H4 timbering machine can satisfy a fully automated production requirement, guarantees the product quality, is high in production efficiency and quality, and is not harmful to the body of workers.

Description

A kind of H4 timbering machine
Technical field:
The utility model relates to automotive lamp technical field in the electric light source industry, is specifically related to the equipment that automotive lamp H4 support is produced in a kind of electric light source industry.
Background technology:
At present, the production technology of known H4 support at first is middle molybdenum rod shaping in two sub-sections, secondly is back, three molybdenum rods location folder bead; Two operations all are manual operationss, there is no full-automatic production equipment.Because workman people's manual manipulation, required workman is many, and production efficiency is low, and difficult quality control is difficult to satisfy a large amount of production; Simultaneously, workman's silicon dioxide smog that the meeting inspiration discharges owing to the bead heating when the folder bead, thus cause the infringement of workman lung, burn the scald that red bead also very easily causes the workman.
The utility model content:
The purpose of this utility model provides a kind of H4 timbering machine, and it can satisfy full-automatic production, and product quality is guaranteed, the production efficiency height, and quality is high to be reached the not infringement of workman's health.
In order to solve the existing problem of background technology, the utility model is to adopt following technical scheme: molybdenum rod feed mechanism 1 in the middle of it comprises, centre molybdenum rod testing agency 2, middle molybdenum rod bending mechanism 3, both sides molybdenum rod feed mechanism 4, three molybdenum rod testing agencies 5, molybdenum rod cutting agency 6, molybdenum rod flattens mechanism 7, folder bead mechanism 8, bead testing agency 9, station aligning gear 10, station mechanism 11, frame 12, finished product cutting agency 13, the upside of frame 12 is provided with rotating disk, be respectively arranged with several station mechanisms 11 on the edge of rotating disk, molybdenum rod feed mechanism 1 in the middle of frame 12 left ends are provided with, molybdenum rod testing agency 2 in the middle of one side of middle molybdenum rod feed mechanism 1 is provided with, its opposite side is provided with finished product cutting agency 13, molybdenum rod bending mechanism 3 in the middle of one side of centre molybdenum rod testing agency 2 is provided with, middle molybdenum rod bending mechanism 3 one sides are provided with both sides molybdenum rod feed mechanism 4, one side of both sides molybdenum rod feed mechanism 4 is provided with three molybdenum rod testing agencies 5, one side of three molybdenum rod testing agencies 5 is provided with molybdenum rod cutting agency 6, one side of molybdenum rod cutting agency 6 is provided with molybdenum rod and flattens mechanism 7, the side that molybdenum rod flattens mechanism 7 is provided with station aligning gear 10, two folder bead mechanisms 8 are separately positioned on the other end and the rear end of frame 12, are provided with bead testing agency 9 in two folder bead mechanisms 8.
Described frame 12 comprises deep bid 121, spindle bearing holder 122, main shaft 123, the panel 124 of appearing on the stage, index dial 125, crosses position cam 126, following table 127, motor 128, the appear on the stage centre of panel 124 is provided with spindle bearing holder 122, the downside of panel 124 of appearing on the stage is provided with following table 127, main shaft 123 cross-under are in spindle bearing holder 122, deep bid 121 is installed in the upper end of main shaft 123, the lower end of main shaft 123 is connected with index dial 125, the downside of index dial 125 1 ends was provided with a position cam 126, and motor 128 is connected with a mistake position cam 126 by worm-gear speed reducer.
During frame 12 work, motor 128 drives worm-gear speed reducer, cross the rotation of a cam 126 average rates through the deceleration rear drive, cross position cam 126 driving index dials 125 and do gap calibration rotation, do gap calibration rotation with the deep bid 121 that main shaft 123 connects, 16 stations are installed on the deep bid 121, and station is done gap calibration rotation.
Described station mechanism 11 comprises station body 111, station head 112, left side molybdenum rod pressure arm 113, middle molybdenum rod pressure arm 114, right molybdenum rod pressure arm 115, station fulcrum 116, compression spring 117, ball bearing 118, be respectively arranged with left molybdenum rod pressure arm 113 on the station body 111, middle molybdenum rod pressure arm 114, right molybdenum rod pressure arm 115, left side molybdenum rod pressure arm 113, middle molybdenum rod pressure arm 114, the lower end of right molybdenum rod pressure arm 115 is provided with compression spring 117, the lower end of compression spring 117 is provided with ball bearing 118, station fulcrum 116 is arranged on a side of compression spring 117, and station head 112 is connected with an end of station body 111.
Three and the corresponding to aperture of process are arranged on the station head 112 of station mechanism 11, during work, molybdenum rod injects in the hole of station head 112, left side molybdenum rod pressure arm 113, middle molybdenum rod pressure arm 114, the right molybdenum rod pressure arm 115 pressured pressure that contract spring 117 compress molybdenum rod, up promote ball bearing 118, corresponding left molybdenum rod pressure arm 113, middle molybdenum rod pressure arm 114, right molybdenum rod pressure arm 115 are around 116 swings of station fulcrum, and the molybdenum rod pressure arm breaks away from molybdenum rod, and molybdenum rod drops out station by deadweight.
Molybdenum rod feed mechanism 1 comprises vibration weight 1-1 in the middle of described, weight jig arm 1-2, oscillating plate 1-3, molybdenum rod barrel 1-4, molybdenum rod feeding tube 1-5, molybdenum rod tremie pipe 1-6, backstay 1-7, tremie pipe fixed head 1-8, elastic pressure bar 1-9, elastic pressure bar cylinder 1-10, molybdenum rod block 1-11, material receiving tube 1-12, conduit 1-13, following locating piece 1-14, material loading push pedal 1-15, material loading fulcrum 1-16, riser 1-17, push pedal cylinder 1-18, following locating piece cylinder 1-19, material loading support plate 1-20, conduit fixed head 1-21, material loading slide plate 1-22, conduit cylinder 1-23, vibration weight 1-1 lower end is equipped with magnet, the fixing respectively vibration weight of weight jig arm 1-2 1-1, oscillating plate 1-3, molybdenum rod barrel 1-4 is installed on the oscillating plate 1-3, the lower end of oscillating plate 1-3 is provided with tremie pipe fixed head 1-8, the downside of tremie pipe fixed head 1-8 is provided with molybdenum rod feeding tube 1-5, the downside of molybdenum rod feeding tube 1-5 is provided with backstay 1-7, the end of backstay 1-7 is connected with elastic pressure bar 1-9, the downside of backstay 1-7 is provided with molybdenum rod tremie pipe 1-6, elastic pressure bar 1-9 is connected with elastic pressure bar cylinder 1-10 by connecting plate, the downside of elastic pressure bar cylinder 1-10 one end is provided with molybdenum rod block 1-11, the downside of molybdenum rod block 1-11 is provided with material receiving tube 1-12, the downside of material receiving tube 1-12 is provided with conduit 1-13, conduit 1-13 is installed on the conduit fixed head 1-21, the end of conduit fixed head 1-21 is connected with material loading slide plate 1-22, the upper end of material loading slide plate 1-22 is connected with conduit cylinder 1-23, material loading support plate 1-20 is connected with a side of the upper end of material loading slide plate 1-22, the downside of conduit 1-13 is provided with down locating piece 1-14, the side of following locating piece 1-14 is provided with material loading push pedal 1-15, the downside of following locating piece 1-14 is provided with down locating piece cylinder 1-19, the lower end of material loading push pedal 1-15 is provided with material loading fulcrum 1-16, the downside of material loading fulcrum 1-16 is provided with riser 1-17, and riser 1-17 is connected with push pedal cylinder 1-18.
When middle molybdenum rod feed mechanism 1 is worked, under the vibration weight 1-1 electromagnet is arranged, electromagnet gets the magnetic current that produces alternation when electric, the attraction weight moves up and down, weight jig arm 1-2 fixing vibration weight 1-1 and oscillating plate 1-3, oscillating plate 1-3 produces vibration, the molybdenum rod barrel 1-4 that is fixed on the oscillating plate 1-3 produces vibration, molybdenum rod slides up to propping up on the molybdenum rod block 1-11 via the aperture among molybdenum rod feeding tube 1-5 and the molybdenum rod tremie pipe 1-6 along the aperture on the oscillating plate 1-3, molybdenum rod block 1-11 goes up the plane has only two molybdenum rods to the last interplanar of oscillating plate 1-3 distance, molybdenum rod is one and props up an endways arrangement like this, top molybdenum rod is pushed down by backstay 1-7 and elastic pressure bar 1-9, and following molybdenum rod freely places the aperture of molybdenum rod tremie pipe 1-6; As molybdenum rod block 1-11 during with cylinders retract, following molybdenum rod falls down among the material receiving tube 1-12 and enters in the station of opening along conduit 1-13, and following locating piece 1-14 carries out highly spacing to the molybdenum rod bottom; Herein, material receiving tube 1-12 and conduit 1-13 are linked together by material loading support plate 1-20, conduit fixed head 1-21 and material loading slide plate 1-22, and conduit cylinder 1-23 action twice enters in the station in order to molybdenum rod smoothly; At this moment, push pedal cylinder 1-18 withdrawal, riser 1-17 moves down, and material loading push pedal 1-15 moves down, and station compresses molybdenum rod, station resets, herein, when push pedal cylinder 1-18 was malfunctioning, material loading push pedal 1-15 can swing 90 degree to avoid the bump to station around material loading fulcrum 1-16,1-15 is by spring reset in the material loading push pedal, and this is an anticollision device, collision-prevention device; After the push pedal cylinder 1-18 withdrawal, following locating piece cylinder 1-19 withdrawal moves away molybdenum rod under the following locating piece 1-14, and station is crossed the position; At this moment, molybdenum rod block 1-11 stretches out and resets, elastic pressure bar 1-9 withdrawal, top molybdenum rod slides up to propping up on the molybdenum rod block 1-11, have molybdenum rod to skid off on the molybdenum rod below withstanding in the aperture of oscillating plate again, elastic pressure bar 1-9 resets and pushes down molybdenum rod, finishes a duty cycle like this.
Detection arm 21 during molybdenum rod testing agency 2 comprises in the middle of described, detect fulcrum 22, cut somebody's hair 23, cylinder 24, fiber fixed frame 25, the centre of middle detection arm 21 is provided with detects fulcrum 22, cut somebody's hair 23 be arranged in the lower end of detection arm 21, cut somebody's hair 23 lower end is connected the downside of detection arm 21 during fiber fixed frame 25 is arranged on cylinder 24.
During middle molybdenum rod testing agency 2 work, the last plane of middle detection arm 21 props up molybdenum rod, and cylinder 24 is withdrawn, cut somebody's hair 23 to move down, if molybdenum rod just in the position, middle detection arm 21 is motionless, the correlation optical fiber on the fiber fixed frame 25 does not just detect middle detection arm 21; If detection arm 21 then explanation molybdenum rod excessive height or do not have molybdenum rod during optical fiber detects detect and are output as substandard products; After this, cylinder 24 stretches out, cut somebody's hair 23 lift in detection arm 21, middle detection arm 21 breaks away from molybdenum rods, station is crossed the position and is finished a duty cycle.Because there have following locating piece to carry out during the molybdenum rod material loading to be highly spacing, molybdenum rod can not be lower than the position of detection arm, and molybdenum rod did not have low phenomenon.
Molybdenum rod bending mechanism 3 comprises left clamping die 31, left cylinder 32, right clamping die 33, punch 34, punch cylinder 35, right cylinder 36, footpath and moves cylinder 37, bending slide plate 38 in the middle of described, left side clamping die 31, right clamping die 33 are installed in respectively on the bending slide plate 38, one side of left side clamping die 31 is provided with left cylinder 32, be provided with punch 34 between left side clamping die 31, the right clamping die 33, punch 34 is connected with punch cylinder 35, one side of punch cylinder 35 is provided with right cylinder 36, and the footpath is moved cylinder 37 and is connected with bending slide plate 38.
When middle molybdenum rod bending mechanism 3 is worked, left side clamping die 31 clamps molybdenum rod because left cylinder 32 stretches out with right clamping die 33 simultaneously owing to right cylinder 36 stretches out, punch cylinder 35 stretches out, 34 pairs of molybdenum rods of punch are after the shape bending of left clamping die 31,35 withdrawals of punch cylinder, the punch 34 disengaging molybdenum rod that moves to right, left side cylinder 32 and 36 withdrawals of right cylinder, left side clamping die 31 and right clamping die 33 shift out the disengaging molybdenum rod, at this moment, cylinder 37 withdrawal is moved in the footpath, is fixed on left and right sides clamping die on the bending slide plate 38 etc. and shifts out outside the station, station is crossed the position, and mechanism waits for next duty cycle.
The operation principle of described both sides molybdenum rod feed mechanism 4 is identical with middle molybdenum rod feed mechanism 1, and just it can go up two molybdenum rods simultaneously.
The operation principle of described three molybdenum rod testing agencies 5 is identical with middle molybdenum rod testing agency 2, and just it can detect three molybdenum rods simultaneously.
Described molybdenum rod cutting agency 6 comprises that blanking cuts somebody's hair 61, blanking slide plate 62, the cylinder 63 of cutting somebody's hair, molybdenum rod chute 64, molybdenum rod magazine 65, cut somebody's hair 61 lower end of blanking is connected with blanking slide plate 62, the lower end of blanking slide plate 62 is connected with the cylinder 63 of cutting somebody's hair, one side of blanking slide plate 62 is provided with molybdenum rod chute 64, and the downside of molybdenum rod chute 64 is provided with molybdenum rod magazine 65.
During 6 work of molybdenum rod cutting agency, the cylinder 63 of cutting somebody's hair stretches out, move on the blanking slide plate 62, blanking is cut somebody's hair and 61 is opened station, and the molybdenum rod on the station falls down molybdenum rod chute 64 and slips into 65 li of molybdenum rod magazines, subsequently, the cylinder 63 of cutting somebody's hair is withdrawn, the disengaging station of cutting somebody's hair, station reset and cross the position, and cut somebody's hair has aforesaid anticollision device, collision-prevention device herein.
Described molybdenum rod flatten mechanism 7 comprise flatten piece 71, jig arm 72, roller 73, flatten cut somebody's hair 74, big cylinder diameter cylinder 75, mounting panel 76, big cylinder diameter cylinder 75 is installed on the mounting panel 76, the upper end of big cylinder diameter cylinder 75 and flattening are cut somebody's hair and 74 are connected, cut somebody's hair 74 upside of flattening is respectively arranged with two rollers 73, two rollers 73 are installed in the lower end of two jig arm 72 respectively, and the upper end of two jig arm 72 all is equipped with flattens piece 71.
When molybdenum rod flattened mechanism's 7 work, big cylinder diameter cylinder 75 stretched out, and flattening cuts somebody's hair moves on 74, roller 73 outer opening, and jig arm 72 is flattened 71 pairs of molybdenum rods of piece and is flattened along separately fulcrums swing; Subsequently, big cylinder diameter cylinder 75 withdrawals, jig arm 72 is opened in the roller 73 at the active force lower swing of extension spring, flattens piece 71 and opens, and station is crossed the position and is finished a duty cycle.
Described folder bead mechanism 8 comprises and send bead side-to-side movement cylinder 81; bead vacuum cups 82; sliding support plate 83; send the bead cylinder 84 that moves up and down; bead locating piece 85; clamping cylinder 86; clamping slide block 87; crank arm 88; water-cooled swing arm 89; clamping vacuum cups 810; bead duration and degree of heating 811; duration and degree of heating slide plate 812; duration and degree of heating side-to-side movement cylinder 813; one end of sliding support plate 83 is equipped with and send bead side-to-side movement cylinder 81; the downside of sliding support plate 83 is provided with and send the bead cylinder 84 that moves up and down; the other end of sliding support plate 83 is provided with bead locating piece 85; one side of bead locating piece 85 is provided with bead vacuum cups 82; the downside of bead locating piece 85 1 ends is provided with clamping slide block 87; the lower end of clamping slide block 87 is connected with clamping cylinder 86; one side of clamping slide block 87 is provided with duration and degree of heating slide plate 812; duration and degree of heating slide plate 812 is connected with duration and degree of heating side-to-side movement cylinder 813; the two ends of duration and degree of heating slide plate 812 all are equipped with bead duration and degree of heating 811; the upside of clamping slide block 87 is respectively arranged with two and cranks arm 88; two 88 upsides of cranking arm are provided with between 89, two water-cooled swing arms 89 of water-cooled swing arm and are respectively arranged with two clamping vacuum cups 810.
When folder bead mechanism 8 works, two-way goes out bead vibrating disk output bead to bead locating piece 85, send bead cylinder 84 withdrawal that moves up and down, the bead vacuum cups moves down, electromagnetically operated valve is opened the vacuum of bead vacuum cups 82, bead is transferred on the bead vacuum cups 82 from bead locating piece 85, send the bead cylinder 84 that moves up and down to stretch out, move on the bead vacuum cups 82, send bead side-to-side movement cylinder 81 to stretch out, bead vacuum cups 82 move to right arrive clamping vacuum cups 810 above, subsequently, send bead cylinder 84 withdrawal that moves up and down, bead vacuum cups 82 moves down, need to prove that clamping vacuum cups 810 is in the state of opening, electromagnetically operated valve is opened the vacuum on the clamping vacuum cups 810, close vacuum and vacuum breaker on the bead vacuum cups 82 simultaneously, bead is transferred on the clamping vacuum cups 810, subsequently, send the bead cylinder 84 that moves up and down to stretch out and send bead side-to-side movement cylinder 81 withdrawal, move on the bead vacuum cups 82 and move to left and leave clamping vacuum cups 810, wait for next duty cycle; When bead is transferred to clamping vacuum cups 810, duration and degree of heating side-to-side movement cylinder 813 stretches out, duration and degree of heating slide plate 812 moves to left, bead duration and degree of heating 811 moves left to above the clamping vacuum cups 810, duration and degree of heating is calcined bead, when bead reaches the state of fusion, and 813 withdrawals of duration and degree of heating side-to-side movement cylinder, bead duration and degree of heating 811 moves to right and leaves clamping vacuum cups 810, waits for down duty cycle once; At this moment, clamping cylinder 86 stretches out, and the moving 88 promotion water-cooled swing arms 89 of cranking arm of shipper pole are closed up on the clamping slide block 87, and the clamping vacuum cups 810 that is fixed in the water-cooled swing arm 89 closes up, about two beads clamp molybdenum rod, at this moment, electromagnetically operated valve is opened high-pressure blast bead is cooled off, subsequently, 86 withdrawals of clamping cylinder, clamping vacuum cups 810 is opened, and electromagnetically operated valve is opened vacuum on the clamping vacuum cups 810 and blowback high-pressure blast simultaneously and blown out silica flour in the suction nozzle, and next duty cycle is waited in clamping; Station is closed the high-pressure blast that bead cools off before crossing the position, finishes a duty cycle.
Described bead testing agency 9 comprises optical fiber support plate 91, fixture block 92, bearing 93, and optical fiber support plate 91 is installed on the end of fixture block 92, and fixture block 92 is installed in the upper end of bearing 93.During work, the optical fiber that is fixed on the optical fiber support plate detects the H4 support that accompanies bead, does not have bead if detect, and then this station goes back to and presss from both sides the bead action.
Described station aligning gear 10 comprises straightening die 101, proofreaies and correct slide plate 102, linear bearing 103, linear bearing optical axis 104, straightening die 101 is installed in a side of proofreading and correct slide plate 102 upper ends, linear bearing 103 is installed in the lower end of proofreading and correct slide plate 102, and 104 cross-under of linear bearing optical axis are in linear bearing 103.During work, accompany molybdenum rod on the station, the aperture consistent with process arranged on the straightening die 101, people's hand propelled is proofreaied and correct on the slide plate 102 and is moved, molybdenum rod on the station just inserts in the aperture of straightening die 101, and the installation site that station is described is correct, otherwise need readjust the installation site of station.
Described finished product cutting agency 13 comprises finished product blanking push pedal 131, finished product blanking slide plate 132, finished product blanking push pedal cylinder 133, clip 134, finished product blanking jig arm 135, parallel finger cylinder 136, parallel finger air cylinder fixed plate 137, finished product blanking cylinder 138, bracket chute 139, support magazine 1310, finished product blanking push pedal 131 is installed on the finished product blanking slide plate 132, the lower end of finished product blanking slide plate 132 is connected with finished product blanking push pedal cylinder 133, one side of finished product blanking push pedal 131 is provided with clip 134, one side of clip 134 is provided with finished product blanking jig arm 135, the downside of finished product blanking jig arm 135 is provided with parallel finger cylinder 136, the downside of parallel finger cylinder 136 is provided with parallel finger air cylinder fixed plate 137, the lower end of parallel finger air cylinder fixed plate 137 is connected with finished product blanking cylinder 138, one side of clip 134 is provided with bracket chute 139, and the lower end of bracket chute 139 is provided with support magazine 1310.During work, finished product blanking cylinder 138 stretches out, move on the parallel finger air cylinder fixed plate 137, parallel finger cylinder 136 clamps, and finished product blanking jig arm 135 drives two clips 134 and clamps molybdenum rod, at this moment, finished product blanking push pedal cylinder 133 stretches out, move on the finished product blanking slide plate 132, station is opened in finished product blanking push pedal 131, subsequently, 138 withdrawals of finished product blanking cylinder, clip 134 is clamped molybdenum rod and is moved down the disengaging station, and parallel finger cylinder 136 opens, and support falls down in the bracket chute 139 and falls in the support magazine, at last, 133 withdrawals of finished product blanking push pedal cylinder, station resets and crosses the position, finishes a duty cycle.Here, pushing block has aforesaid anticollision device, collision-prevention device.
The utility model can satisfy full-automatic production, and product quality is guaranteed, the production efficiency height, and quality is high to be reached the not infringement of workman's health.
Description of drawings:
Fig. 1 is a structural representation of the present utility model,
Fig. 2 is a stereogram of the present utility model,
Fig. 3 is the structural representation of the utility model mid frame 12,
Fig. 4 is the structural representation of station mechanism 11 in the utility model,
Fig. 5 be the A-A of Fig. 4 to cutaway view,
Fig. 6 is the structural representation of middle molybdenum rod feed mechanism 1 in the utility model,
Fig. 7 be the B-B of Fig. 6 to cutaway view,
Fig. 8 is the A portion enlarged diagram of Fig. 7,
Fig. 9 is the structural representation of centre molybdenum rod testing agency 2 in the utility model,
Figure 10 is the left view of Fig. 9,
Figure 11 is the structural representation of middle molybdenum rod bending mechanism 3 in the utility model,
Figure 12 is the left view of Figure 11,
Figure 13 is the structural representation of both sides molybdenum rod feed mechanism 4 in the utility model,
Figure 14 is the left view of Figure 13,
Figure 15 be the C-C of Figure 13 to cutaway view,
Figure 16 be the D-D of Figure 14 to cutaway view,
Figure 17 is the B portion enlarged diagram of Figure 14,
Figure 18 is the C portion enlarged diagram of Figure 16,
Figure 19 is the structural representation of three molybdenum rod testing agencies 5 in the utility model,
Figure 20 is the left view of Figure 19,
Figure 21 is the structural representation of molybdenum rod cutting agency 6 in the utility model,
Figure 22 is the structural representation that molybdenum rod flattens mechanism 7 in the utility model,
Figure 23 is the structural representation of folder bead mechanism 8 in the utility model,
Figure 24 is the vertical view of Figure 23,
Figure 25 is the left view of Figure 23,
Figure 26 is the structural representation of bead testing agency 9 in the utility model,
Figure 27 is the structural representation of station aligning gear 10 in the utility model,
Figure 28 is the structural representation of finished product cutting agency 13 in the utility model,
Figure 29 is the right view of Figure 28.
Embodiment:
Referring to Fig. 1-Figure 29, this embodiment adopts following technical scheme: molybdenum rod feed mechanism 1 in the middle of it comprises, centre molybdenum rod testing agency 2, middle molybdenum rod bending mechanism 3, both sides molybdenum rod feed mechanism 4, three molybdenum rod testing agencies 5, molybdenum rod cutting agency 6, molybdenum rod flattens mechanism 7, folder bead mechanism 8, bead testing agency 9, station aligning gear 10, station mechanism 11, frame 12, finished product cutting agency 13, the upside of frame 12 is provided with rotating disk, be respectively arranged with several station mechanisms 11 on the edge of rotating disk, molybdenum rod feed mechanism 1 in the middle of frame 12 left ends are provided with, molybdenum rod testing agency 2 in the middle of one side of middle molybdenum rod feed mechanism 1 is provided with, its opposite side is provided with finished product cutting agency 13, molybdenum rod bending mechanism 3 in the middle of one side of centre molybdenum rod testing agency 2 is provided with, middle molybdenum rod bending mechanism 3 one sides are provided with both sides molybdenum rod feed mechanism 4, one side of both sides molybdenum rod feed mechanism 4 is provided with three molybdenum rod testing agencies 5, one side of three molybdenum rod testing agencies 5 is provided with molybdenum rod cutting agency 6, one side of molybdenum rod cutting agency 6 is provided with molybdenum rod and flattens mechanism 7, the side that molybdenum rod flattens mechanism 7 is provided with station aligning gear 10, two folder bead mechanisms 8 are separately positioned on the other end and the rear end of frame 12, are provided with bead testing agency 9 in two folder bead mechanisms 8.
Described frame 12 comprises deep bid 121, spindle bearing holder 122, main shaft 123, the panel 124 of appearing on the stage, index dial 125, crosses position cam 126, following table 127, motor 128, the appear on the stage centre of panel 124 is provided with spindle bearing holder 122, the downside of panel 124 of appearing on the stage is provided with following table 127, main shaft 123 cross-under are in spindle bearing holder 122, deep bid 121 is installed in the upper end of main shaft 123, the lower end of main shaft 123 is connected with index dial 125, the downside of index dial 125 1 ends was provided with a position cam 126, and motor 128 is connected with a mistake position cam 126 by worm-gear speed reducer.
During frame 12 work, motor 128 drives worm-gear speed reducer, cross the rotation of a cam 126 average rates through the deceleration rear drive, cross position cam 126 driving index dials 125 and do gap calibration rotation, do gap calibration rotation with the deep bid 121 that main shaft 123 connects, 16 stations are installed on the deep bid 121, and station is done gap calibration rotation.
Described station mechanism 11 comprises station body 111, station head 112, left side molybdenum rod pressure arm 113, middle molybdenum rod pressure arm 114, right molybdenum rod pressure arm 115, station fulcrum 116, compression spring 117, ball bearing 118, be respectively arranged with left molybdenum rod pressure arm 113 on the station body 111, middle molybdenum rod pressure arm 114, right molybdenum rod pressure arm 115, left side molybdenum rod pressure arm 113, middle molybdenum rod pressure arm 114, the lower end of right molybdenum rod pressure arm 115 is provided with compression spring 117, the lower end of compression spring 117 is provided with ball bearing 118, station fulcrum 116 is arranged on a side of compression spring 117, and station head 112 is connected with an end of station body 111.
Three and the corresponding to aperture of process are arranged on the station head 112 of station mechanism 11, during work, molybdenum rod injects in the hole of station head 112, left side molybdenum rod pressure arm 113, middle molybdenum rod pressure arm 114, the right molybdenum rod pressure arm 115 pressured pressure that contract spring 117 compress molybdenum rod, up promote ball bearing 118, corresponding left molybdenum rod pressure arm 113, middle molybdenum rod pressure arm 114, right molybdenum rod pressure arm 115 are around 116 swings of station fulcrum, and the molybdenum rod pressure arm breaks away from molybdenum rod, and molybdenum rod drops out station by deadweight.
Molybdenum rod feed mechanism 1 comprises vibration weight 1-1 in the middle of described, weight jig arm 1-2, oscillating plate 1-3, molybdenum rod barrel 1-4, molybdenum rod feeding tube 1-5, molybdenum rod tremie pipe 1-6, backstay 1-7, tremie pipe fixed head 1-8, elastic pressure bar 1-9, elastic pressure bar cylinder 1-10, molybdenum rod block 1-11, material receiving tube 1-12, conduit 1-13, following locating piece 1-14, material loading push pedal 1-15, material loading fulcrum 1-16, riser 1-17, push pedal cylinder 1-18, following locating piece cylinder 1-19, material loading support plate 1-20, conduit fixed head 1-21, material loading slide plate 1-22, conduit cylinder 1-23, vibration weight 1-1 lower end is equipped with magnet, the fixing respectively vibration weight of weight jig arm 1-2 1-1, oscillating plate 1-3, molybdenum rod barrel 1-4 is installed on the oscillating plate 1-3, the lower end of oscillating plate 1-3 is provided with tremie pipe fixed head 1-8, the downside of tremie pipe fixed head 1-8 is provided with molybdenum rod feeding tube 1-5, the downside of molybdenum rod feeding tube 1-5 is provided with backstay 1-7, the end of backstay 1-7 is connected with elastic pressure bar 1-9, the downside of backstay 1-7 is provided with molybdenum rod tremie pipe 1-6, elastic pressure bar 1-9 is connected with elastic pressure bar cylinder 1-10 by connecting plate, the downside of elastic pressure bar cylinder 1-10 one end is provided with molybdenum rod block 1-11, the downside of molybdenum rod block 1-11 is provided with material receiving tube 1-12, the downside of material receiving tube 1-12 is provided with conduit 1-13, conduit 1-13 is installed on the conduit fixed head 1-21, the end of conduit fixed head 1-21 is connected with material loading slide plate 1-22, the upper end of material loading slide plate 1-22 is connected with conduit cylinder 1-23, material loading support plate 1-20 is connected with a side of the upper end of material loading slide plate 1-22, the downside of conduit 1-13 is provided with down locating piece 1-14, the side of following locating piece 1-14 is provided with material loading push pedal 1-15, the downside of following locating piece 1-14 is provided with down locating piece cylinder 1-19, the lower end of material loading push pedal 1-15 is provided with material loading fulcrum 1-16, the downside of material loading fulcrum 1-16 is provided with riser 1-17, and riser 1-17 is connected with push pedal cylinder 1-18.
When middle molybdenum rod feed mechanism 1 is worked, under the vibration weight 1-1 electromagnet is arranged, electromagnet gets the magnetic current that produces alternation when electric, the attraction weight moves up and down, weight jig arm 1-2 fixing vibration weight 1-1 and oscillating plate 1-3, oscillating plate 1-3 produces vibration, the molybdenum rod barrel 1-4 that is fixed on the oscillating plate 1-3 produces vibration, molybdenum rod slides up to propping up on the molybdenum rod block 1-11 via the aperture among molybdenum rod feeding tube 1-5 and the molybdenum rod tremie pipe 1-6 along the aperture on the oscillating plate 1-3, molybdenum rod block 1-11 goes up the plane has only two molybdenum rods to the last interplanar of oscillating plate 1-3 distance, molybdenum rod is one and props up an endways arrangement like this, top molybdenum rod is pushed down by backstay 1-7 and elastic pressure bar 1-9, and following molybdenum rod freely places the aperture of molybdenum rod tremie pipe 1-6; As molybdenum rod block 1-11 during with cylinders retract, following molybdenum rod falls down among the material receiving tube 1-12 and enters in the station of opening along conduit 1-13, and following locating piece 1-14 carries out highly spacing to the molybdenum rod bottom; Herein, material receiving tube 1-12 and conduit 1-13 are linked together by material loading support plate 1-20, conduit fixed head 1-21 and material loading slide plate 1-22, and conduit cylinder 1-23 action twice enters in the station in order to molybdenum rod smoothly; At this moment, push pedal cylinder 1-18 withdrawal, riser 1-17 moves down, and material loading push pedal 1-15 moves down, and station compresses molybdenum rod, station resets, herein, when push pedal cylinder 1-18 was malfunctioning, material loading push pedal 1-15 can swing 90 degree to avoid the bump to station around material loading fulcrum 1-16,1-15 is by spring reset in the material loading push pedal, and this is an anticollision device, collision-prevention device; After the push pedal cylinder 1-18 withdrawal, following locating piece cylinder 1-19 withdrawal moves away molybdenum rod under the following locating piece 1-14, and station is crossed the position; At this moment, molybdenum rod block 1-11 stretches out and resets, elastic pressure bar 1-9 withdrawal, top molybdenum rod slides up to propping up on the molybdenum rod block 1-11, have molybdenum rod to skid off on the molybdenum rod below withstanding in the aperture of oscillating plate again, elastic pressure bar 1-9 resets and pushes down molybdenum rod, finishes a duty cycle like this.
Detection arm 21 during molybdenum rod testing agency 2 comprises in the middle of described, detect fulcrum 22, cut somebody's hair 23, cylinder 24, fiber fixed frame 25, the centre of middle detection arm 21 is provided with detects fulcrum 22, cut somebody's hair 23 be arranged in the lower end of detection arm 21, cut somebody's hair 23 lower end is connected the downside of detection arm 21 during fiber fixed frame 25 is arranged on cylinder 24.
During middle molybdenum rod testing agency 2 work, the last plane of middle detection arm 21 props up molybdenum rod, and cylinder 24 is withdrawn, cut somebody's hair 23 to move down, if molybdenum rod just in the position, middle detection arm 21 is motionless, the correlation optical fiber on the fiber fixed frame 25 does not just detect middle detection arm 21; If detection arm 21 then explanation molybdenum rod excessive height or do not have molybdenum rod during optical fiber detects detect and are output as substandard products; After this, cylinder 24 stretches out, cut somebody's hair 23 lift in detection arm 21, middle detection arm 21 breaks away from molybdenum rods, station is crossed the position and is finished a duty cycle.Because there have following locating piece to carry out during the molybdenum rod material loading to be highly spacing, molybdenum rod can not be lower than the position of detection arm, and molybdenum rod did not have low phenomenon.
Molybdenum rod bending mechanism 3 comprises left clamping die 31, left cylinder 32, right clamping die 33, punch 34, punch cylinder 35, right cylinder 36, footpath and moves cylinder 37, bending slide plate 38 in the middle of described, left side clamping die 31, right clamping die 33 are installed in respectively on the bending slide plate 38, one side of left side clamping die 31 is provided with left cylinder 32, be provided with punch 34 between left side clamping die 31, the right clamping die 33, punch 34 is connected with punch cylinder 35, one side of punch cylinder 35 is provided with right cylinder 36, and the footpath is moved cylinder 37 and is connected with bending slide plate 38.
When middle molybdenum rod bending mechanism 3 is worked, left side clamping die 31 clamps molybdenum rod because left cylinder 32 stretches out with right clamping die 33 simultaneously owing to right cylinder 36 stretches out, punch cylinder 35 stretches out, 34 pairs of molybdenum rods of punch are after the shape bending of left clamping die 31,35 withdrawals of punch cylinder, the punch 34 disengaging molybdenum rod that moves to right, left side cylinder 32 and 36 withdrawals of right cylinder, left side clamping die 31 and right clamping die 33 shift out the disengaging molybdenum rod, at this moment, cylinder 37 withdrawal is moved in the footpath, is fixed on left and right sides clamping die on the bending slide plate 38 etc. and shifts out outside the station, station is crossed the position, and mechanism waits for next duty cycle.
The operation principle of described both sides molybdenum rod feed mechanism 4 is identical with middle molybdenum rod feed mechanism 1, and just it can go up two molybdenum rods simultaneously.
The operation principle of described three molybdenum rod testing agencies 5 is identical with middle molybdenum rod testing agency 2, and just it can detect three molybdenum rods simultaneously.
Described molybdenum rod cutting agency 6 comprises that blanking cuts somebody's hair 61, blanking slide plate 62, the cylinder 63 of cutting somebody's hair, molybdenum rod chute 64, molybdenum rod magazine 65, cut somebody's hair 61 lower end of blanking is connected with blanking slide plate 62, the lower end of blanking slide plate 62 is connected with the cylinder 63 of cutting somebody's hair, one side of blanking slide plate 62 is provided with molybdenum rod chute 64, and the downside of molybdenum rod chute 64 is provided with molybdenum rod magazine 65.
During 6 work of molybdenum rod cutting agency, the cylinder 63 of cutting somebody's hair stretches out, move on the blanking slide plate 62, blanking is cut somebody's hair and 61 is opened station, and the molybdenum rod on the station falls down molybdenum rod chute 64 and slips into 65 li of molybdenum rod magazines, subsequently, the cylinder 63 of cutting somebody's hair is withdrawn, the disengaging station of cutting somebody's hair, station reset and cross the position, and cut somebody's hair has aforesaid anticollision device, collision-prevention device herein.
Described molybdenum rod flatten mechanism 7 comprise flatten piece 71, jig arm 72, roller 73, flatten cut somebody's hair 74, big cylinder diameter cylinder 75, mounting panel 76, big cylinder diameter cylinder 75 is installed on the mounting panel 76, the upper end of big cylinder diameter cylinder 75 and flattening are cut somebody's hair and 74 are connected, cut somebody's hair 74 upside of flattening is respectively arranged with two rollers 73, two rollers 73 are installed in the lower end of two jig arm 72 respectively, and the upper end of two jig arm 72 all is equipped with flattens piece 71.
When molybdenum rod flattened mechanism's 7 work, big cylinder diameter cylinder 75 stretched out, and flattening cuts somebody's hair moves on 74, roller 73 outer opening, and jig arm 72 is flattened 71 pairs of molybdenum rods of piece and is flattened along separately fulcrums swing; Subsequently, big cylinder diameter cylinder 75 withdrawals, jig arm 72 is opened in the roller 73 at the active force lower swing of extension spring, flattens piece 71 and opens, and station is crossed the position and is finished a duty cycle.
Described folder bead mechanism 8 comprises and send bead side-to-side movement cylinder 81; bead vacuum cups 82; sliding support plate 83; send the bead cylinder 84 that moves up and down; bead locating piece 85; clamping cylinder 86; clamping slide block 87; crank arm 88; water-cooled swing arm 89; clamping vacuum cups 810; bead duration and degree of heating 811; duration and degree of heating slide plate 812; duration and degree of heating side-to-side movement cylinder 813; one end of sliding support plate 83 is equipped with and send bead side-to-side movement cylinder 81; the downside of sliding support plate 83 is provided with and send the bead cylinder 84 that moves up and down; the other end of sliding support plate 83 is provided with bead locating piece 85; one side of bead locating piece 85 is provided with bead vacuum cups 82; the downside of bead locating piece 85 1 ends is provided with clamping slide block 87; the lower end of clamping slide block 87 is connected with clamping cylinder 86; one side of clamping slide block 87 is provided with duration and degree of heating slide plate 812; duration and degree of heating slide plate 812 is connected with duration and degree of heating side-to-side movement cylinder 813; the two ends of duration and degree of heating slide plate 812 all are equipped with bead duration and degree of heating 811; the upside of clamping slide block 87 is respectively arranged with two and cranks arm 88; two 88 upsides of cranking arm are provided with between 89, two water-cooled swing arms 89 of water-cooled swing arm and are respectively arranged with two clamping vacuum cups 810.
When folder bead mechanism 8 works, two-way goes out bead vibrating disk output bead to bead locating piece 85, send bead cylinder 84 withdrawal that moves up and down, the bead vacuum cups moves down, electromagnetically operated valve is opened the vacuum of bead vacuum cups 82, bead is transferred on the bead vacuum cups 82 from bead locating piece 85, send the bead cylinder 84 that moves up and down to stretch out, move on the bead vacuum cups 82, send bead side-to-side movement cylinder 81 to stretch out, bead vacuum cups 82 move to right arrive clamping vacuum cups 810 above, subsequently, send bead cylinder 84 withdrawal that moves up and down, bead vacuum cups 82 moves down, need to prove that clamping vacuum cups 810 is in the state of opening, electromagnetically operated valve is opened the vacuum on the clamping vacuum cups 810, close vacuum and vacuum breaker on the bead vacuum cups 82 simultaneously, bead is transferred on the clamping vacuum cups 810, subsequently, send the bead cylinder 84 that moves up and down to stretch out and send bead side-to-side movement cylinder 81 withdrawal, move on the bead vacuum cups 82 and move to left and leave clamping vacuum cups 810, wait for next duty cycle; When bead is transferred to clamping vacuum cups 810, duration and degree of heating side-to-side movement cylinder 813 stretches out, duration and degree of heating slide plate 812 moves to left, bead duration and degree of heating 811 moves left to above the clamping vacuum cups 810, duration and degree of heating is calcined bead, when bead reaches the state of fusion, and 813 withdrawals of duration and degree of heating side-to-side movement cylinder, bead duration and degree of heating 811 moves to right and leaves clamping vacuum cups 810, waits for down duty cycle once; At this moment, clamping cylinder 86 stretches out, and the moving 88 promotion water-cooled swing arms 89 of cranking arm of shipper pole are closed up on the clamping slide block 87, and the clamping vacuum cups 810 that is fixed in the water-cooled swing arm 89 closes up, about two beads clamp molybdenum rod, at this moment, electromagnetically operated valve is opened high-pressure blast bead is cooled off, subsequently, 86 withdrawals of clamping cylinder, clamping vacuum cups 810 is opened, and electromagnetically operated valve is opened vacuum on the clamping vacuum cups 810 and blowback high-pressure blast simultaneously and blown out silica flour in the suction nozzle, and next duty cycle is waited in clamping; Station is closed the high-pressure blast that bead cools off before crossing the position, finishes a duty cycle.
Described bead testing agency 9 comprises optical fiber support plate 91, fixture block 92, bearing 93, and optical fiber support plate 91 is installed on the end of fixture block 92, and fixture block 92 is installed in the upper end of bearing 93.During work, the optical fiber that is fixed on the optical fiber support plate detects the H4 support that accompanies bead, does not have bead if detect, and then this station goes back to and presss from both sides the bead action.
Described station aligning gear 10 comprises straightening die 101, proofreaies and correct slide plate 102, linear bearing 103, linear bearing optical axis 104, straightening die 101 is installed in a side of proofreading and correct slide plate 102 upper ends, linear bearing 103 is installed in the lower end of proofreading and correct slide plate 102, and 104 cross-under of linear bearing optical axis are in linear bearing 103.During work, accompany molybdenum rod on the station, the aperture consistent with process arranged on the straightening die 101, people's hand propelled is proofreaied and correct on the slide plate 102 and is moved, molybdenum rod on the station just inserts in the aperture of straightening die 101, and the installation site that station is described is correct, otherwise need readjust the installation site of station.
Described finished product cutting agency 13 comprises finished product blanking push pedal 131, finished product blanking slide plate 132, finished product blanking push pedal cylinder 133, clip 134, finished product blanking jig arm 135, parallel finger cylinder 136, parallel finger air cylinder fixed plate 137, finished product blanking cylinder 138, bracket chute 139, support magazine 1310, finished product blanking push pedal 131 is installed on the finished product blanking slide plate 132, the lower end of finished product blanking slide plate 132 is connected with finished product blanking push pedal cylinder 133, one side of finished product blanking push pedal 131 is provided with clip 134, one side of clip 134 is provided with finished product blanking jig arm 135, the downside of finished product blanking jig arm 135 is provided with parallel finger cylinder 136, the downside of parallel finger cylinder 136 is provided with parallel finger air cylinder fixed plate 137, the lower end of parallel finger air cylinder fixed plate 137 is connected with finished product blanking cylinder 138, one side of clip 134 is provided with bracket chute 139, and the lower end of bracket chute 139 is provided with support magazine 1310.During work, finished product blanking cylinder 138 stretches out, move on the parallel finger air cylinder fixed plate 137, parallel finger cylinder 136 clamps, and finished product blanking jig arm 135 drives two clips 134 and clamps molybdenum rod, at this moment, finished product blanking push pedal cylinder 133 stretches out, move on the finished product blanking slide plate 132, station is opened in finished product blanking push pedal 131, subsequently, 138 withdrawals of finished product blanking cylinder, clip 134 is clamped molybdenum rod and is moved down the disengaging station, and parallel finger cylinder 136 opens, and support falls down in the bracket chute 139 and falls in the support magazine, at last, 133 withdrawals of finished product blanking push pedal cylinder, station resets and crosses the position, finishes a duty cycle.Here, pushing block has aforesaid anticollision device, collision-prevention device.
This embodiment can satisfy full-automatic production, and product quality is guaranteed, the production efficiency height, and quality is high to be reached the not infringement of workman's health.

Claims (12)

1. H4 timbering machine, it is characterized in that it comprises middle molybdenum rod feed mechanism (1), middle molybdenum rod testing agency (2), middle molybdenum rod bending mechanism (3), both sides molybdenum rod feed mechanisms (4), three molybdenum rod testing agencies (5), molybdenum rod cutting agency (6), molybdenum rod flattens mechanism (7), folder bead mechanism (8), bead testing agency (9), station aligning gear (10), station mechanism (11), frame (12), finished product cutting agency (13), the upside of frame (12) is provided with rotating disk, be respectively arranged with several station mechanisms (11) on the edge of rotating disk, molybdenum rod feed mechanism (1) in the middle of frame (12) left end is provided with, molybdenum rod testing agency (2) in the middle of one side of middle molybdenum rod feed mechanism (1) is provided with, its opposite side is provided with finished product cutting agency (13), molybdenum rod bending mechanism (3) in the middle of one side of middle molybdenum rod testing agency (2) is provided with, middle molybdenum rod bending mechanism (3) one sides are provided with both sides molybdenum rod feed mechanisms (4), one side of both sides molybdenum rod feed mechanisms (4) is provided with three molybdenum rod testing agencies (5), one side of three molybdenum rod testing agencies (5) is provided with molybdenum rod cutting agency (6), one side of molybdenum rod cutting agency (6) is provided with molybdenum rod and flattens mechanism (7), the side that molybdenum rod flattens mechanism (7) is provided with station aligning gear (10), two folder bead mechanisms (8) are separately positioned on the other end and the rear end of frame (12), are provided with bead testing agency (9) in two folder bead mechanisms (8).
2. a kind of H4 timbering machine according to claim 1, it is characterized in that described frame (12) comprises deep bid (121), spindle bearing holder (122), main shaft (123), the panel (124) of appearing on the stage, index dial (125), cross position cam (126), following table (127), motor (128), the appear on the stage centre of panel (124) is provided with spindle bearing holder (122), the downside of panel (124) of appearing on the stage is provided with following table (127), main shaft (123) cross-under is in spindle bearing holder (122), deep bid (121) is installed in the upper end of main shaft (123), the lower end of main shaft (123) is connected with index dial (125), the downside of index dial (125) one ends was provided with a position cam (126), and motor (128) is connected with a mistake position cam (126) by worm-gear speed reducer.
3. a kind of H4 timbering machine according to claim 1, it is characterized in that described station mechanism (11) comprises station body (111), station head (112), left side molybdenum rod pressure arm (113), middle molybdenum rod pressure arm (114), right molybdenum rod pressure arm (115), station fulcrum (116), compression spring (117), ball bearing (118), be respectively arranged with left molybdenum rod pressure arm (113) on the station body (111), middle molybdenum rod pressure arm (114), right molybdenum rod pressure arm (115), left side molybdenum rod pressure arm (113), middle molybdenum rod pressure arm (114), the lower end of right molybdenum rod pressure arm (115) is provided with compression spring (117), the lower end of compression spring (117) is provided with ball bearing (118), station fulcrum (116) is arranged on a side of compression spring (117), and station head (112) is connected with an end of station body (111).
4. a kind of H4 timbering machine according to claim 1, it is characterized in that described middle molybdenum rod feed mechanism (1) comprises vibration weight (1-1), weight jig arm (1-2), oscillating plate (1-3), molybdenum rod barrel (1-4), molybdenum rod feeding tube (1-5), molybdenum rod tremie pipe (1-6), backstay (1-7), tremie pipe fixed head (1-8), elastic pressure bar (1-9), elastic pressure bar cylinder (1-10), molybdenum rod block (1-11), material receiving tube (1-12), conduit (1-13), following locating piece (1-14), material loading push pedal (1-15), material loading fulcrum (1-16), riser (1-17), push pedal cylinder (1-18), following locating piece cylinder (1-19), material loading support plate (1-20), conduit fixed head (1-21), material loading slide plate (1-22), conduit cylinder (1-23), vibration weight (1-1) lower end is equipped with magnet, the fixing respectively vibration weight (1-1) of weight jig arm (1-2), oscillating plate (1-3), molybdenum rod barrel (1-4) is installed on the oscillating plate (1-3), the lower end of oscillating plate (1-3) is provided with tremie pipe fixed head (1-8), the downside of tremie pipe fixed head (1-8) is provided with molybdenum rod feeding tube (1-5), the downside of molybdenum rod feeding tube (1-5) is provided with backstay (1-7), one end of backstay (1-7) is connected with elastic pressure bar (1-9), the downside of backstay (1-7) is provided with molybdenum rod tremie pipe (1-6), elastic pressure bar (1-9) is connected with elastic pressure bar cylinder (1-10) by connecting plate, the downside of elastic pressure bar cylinder (1-10) end is provided with molybdenum rod block (1-11), the downside of molybdenum rod block (1-11) is provided with material receiving tube (1-12), the downside of material receiving tube (1-12) is provided with conduit (1-13), conduit (1-13) is installed on the conduit fixed head (1-21), one end of conduit fixed head (1-21) is connected with material loading slide plate (1-22), the upper end of material loading slide plate (1-22) is connected with conduit cylinder (1-23), material loading support plate (1-20) is connected with a side of the upper end of material loading slide plate (1-22), the downside of conduit (1-13) is provided with down locating piece (1-14), one side of following locating piece (1-14) is provided with material loading push pedal (1-15), the downside of following locating piece (1-14) is provided with down locating piece cylinder (1-19), the lower end of material loading push pedal (1-15) is provided with material loading fulcrum (1-16), the downside of material loading fulcrum (1-16) is provided with riser (1-17), and riser (1-17) is connected with push pedal cylinder (1-18).
5. a kind of H4 timbering machine according to claim 1, it is characterized in that described middle molybdenum rod testing agency (2) comprises middle detection arm (21), detects fulcrum (22), cut somebody's hair (23), cylinder (24), fiber fixed frame (25), the centre of middle detection arm (21) is provided with detects fulcrum (22), cut somebody's hair (23) be arranged on the lower end of middle detection arm (21), the cut somebody's hair lower end of (23) is connected with cylinder (24), and fiber fixed frame (25) is arranged on the downside of middle detection arm (21).
6. a kind of H4 timbering machine according to claim 1, it is characterized in that described middle molybdenum rod bending mechanism (3) comprises left clamping die (31), left side cylinder (32), right clamping die (33), punch (34), punch cylinder (35), right cylinder (36), cylinder (37) is moved in the footpath, bending slide plate (38), left side clamping die (31), right clamping die (33) is installed in respectively on the bending slide plate (38), one side of left side clamping die (31) is provided with left cylinder (32), left side clamping die (31), be provided with punch (34) between the right clamping die (33), punch (34) is connected with punch cylinder (35), one side of punch cylinder (35) is provided with right cylinder (36), and the footpath is moved cylinder (37) and is connected with bending slide plate (38).
7. a kind of H4 timbering machine according to claim 1, it is characterized in that described molybdenum rod cutting agency (6) comprises that blanking is cut somebody's hair (61), blanking slide plate (62), the cylinder of cutting somebody's hair (63), molybdenum rod chute (64), molybdenum rod magazine (65), the cut somebody's hair lower end of (61) of blanking is connected with blanking slide plate (62), the lower end of blanking slide plate (62) is connected with the cylinder of cutting somebody's hair (63), one side of blanking slide plate (62) is provided with molybdenum rod chute (64), and the downside of molybdenum rod chute (64) is provided with molybdenum rod magazine (65).
8. a kind of H4 timbering machine according to claim 1, it is characterized in that described molybdenum rod flattens mechanism (7) and comprises flattening piece (71), jig arm (72), roller (73), flattening cut somebody's hair (74), big cylinder diameter cylinder (75), mounting panel (76), big cylinder diameter cylinder (75) is installed on the mounting panel (76), the upper end of big cylinder diameter cylinder (75) cut somebody's hair with flattening (74) be connected, the cut somebody's hair upside of (74) of flattening is respectively arranged with two rollers (73), two rollers (73) are installed in the lower end of two jig arm (72) respectively, and the upper end of two jig arm (72) all is equipped with flattens piece (71).
9. a kind of H4 timbering machine according to claim 1; it is characterized in that described folder bead mechanism (8) comprises send bead side-to-side movement cylinder (81); bead vacuum cups (82); sliding support plate (83); send the bead cylinder (84) that moves up and down; bead locating piece (85); clamping cylinder (86); clamping slide block (87); crank arm (88); water-cooled swing arm (89); clamping vacuum cups (810); bead duration and degree of heating (811); duration and degree of heating slide plate (812); duration and degree of heating side-to-side movement cylinder (813); one end of sliding support plate (83) is equipped with and send bead side-to-side movement cylinder (81); the downside of sliding support plate (83) is provided with and send the bead cylinder (84) that moves up and down; the other end of sliding support plate (83) is provided with bead locating piece (85); one side of bead locating piece (85) is provided with bead vacuum cups (82); the downside of bead locating piece (85) one ends is provided with clamping slide block (87); the lower end of clamping slide block (87) is connected with clamping cylinder (86); one side of clamping slide block (87) is provided with duration and degree of heating slide plate (812); duration and degree of heating slide plate (812) is connected with duration and degree of heating side-to-side movement cylinder (813); the two ends of duration and degree of heating slide plate (812) all are equipped with bead duration and degree of heating (811); the upside of clamping slide block (87) is respectively arranged with two crank arm (88); two (88) upsides of cranking arm are provided with water-cooled swing arm (89), are respectively arranged with two clamping vacuum cups (810) between two water-cooled swing arms (89).
10. a kind of H4 timbering machine according to claim 1, it is characterized in that described bead testing agency (9) comprises optical fiber support plate (91), fixture block (92), bearing (93), optical fiber support plate (91) is installed on the end of fixture block (92), and fixture block (92) is installed in the upper end of bearing (93).
11. a kind of H4 timbering machine according to claim 1, it is characterized in that described station aligning gear (10) comprises straightening die (101), proofreaies and correct slide plate (102), linear bearing (103), linear bearing optical axis (104), straightening die (101) is installed in a side of proofreading and correct slide plate (102) upper end, linear bearing (103) is installed in the lower end of proofreading and correct slide plate (102), and linear bearing optical axis (104) cross-under is in linear bearing (103).
12. a kind of H4 timbering machine according to claim 1, it is characterized in that described finished product cutting agency (13) comprises finished product blanking push pedal (131), finished product blanking slide plate (132), finished product blanking push pedal cylinder (133), clip (134), finished product blanking jig arm (135), parallel finger cylinder (136), parallel finger air cylinder fixed plate (137), finished product blanking cylinder (138), bracket chute (139), support magazine (1310), finished product blanking push pedal (131) is installed on the finished product blanking slide plate (132), the lower end of finished product blanking slide plate (132) is connected with finished product blanking push pedal cylinder (133), one side of finished product blanking push pedal (131) is provided with clip (134), one side of clip (134) is provided with finished product blanking jig arm (135), the downside of finished product blanking jig arm (135) is provided with parallel finger cylinder (136), the downside of parallel finger cylinder (136) is provided with parallel finger air cylinder fixed plate (137), the lower end of parallel finger air cylinder fixed plate (137) is connected with finished product blanking cylinder (138), one side of clip (134) is provided with bracket chute (139), and the lower end of bracket chute (139) is provided with support magazine (1310).
CN 201220534823 2012-10-18 2012-10-18 H4 timbering machine Expired - Fee Related CN203085480U (en)

Priority Applications (1)

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CN 201220534823 CN203085480U (en) 2012-10-18 2012-10-18 H4 timbering machine

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CN 201220534823 CN203085480U (en) 2012-10-18 2012-10-18 H4 timbering machine

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CN203085480U true CN203085480U (en) 2013-07-24

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CN 201220534823 Expired - Fee Related CN203085480U (en) 2012-10-18 2012-10-18 H4 timbering machine

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104007046A (en) * 2014-06-04 2014-08-27 武汉市天虹仪表有限责任公司 Smoke detection device
CN108801595A (en) * 2018-06-12 2018-11-13 广东大唐永恒智能科技有限公司 compound light machine

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104007046A (en) * 2014-06-04 2014-08-27 武汉市天虹仪表有限责任公司 Smoke detection device
CN108801595A (en) * 2018-06-12 2018-11-13 广东大唐永恒智能科技有限公司 compound light machine
CN108801595B (en) * 2018-06-12 2024-02-23 广东大唐永恒智能科技有限公司 Light resetting machine

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