CN201768543U

CN201768543U - Automatic assembling machine for diamond compound post core

Info

Publication number: CN201768543U
Application number: CN2010202958173U
Authority: CN
Inventors: 林玉; 申兆清; 王振海; 彭献伟
Original assignee: Zhengzhou Synthetic Diamond and Products Engineering Technology Research Center Co Ltd
Current assignee: Zhengzhou Synthetic Diamond and Products Engineering Technology Research Center Co Ltd
Priority date: 2010-08-18
Filing date: 2010-08-18
Publication date: 2011-03-23
Anticipated expiration: 2020-08-18

Abstract

The utility model discloses an automatic assembling machine for a diamond compound post core, comprising a base, an automatic feeding device and a rotary pushing device, wherein the automatic feeding device is arranged on the base; the rotary pushing device is arranged at the material outlet of the automatic feeding device; and the automatic feeding device and the rotary pushing device are connected with a pneumatic power system. In the utility model, the manual assembly is replaced by the automatic assembly under mechanical operation, the working efficiency is improved, the harm to the human body is reduced, the labor intensity is reduced, the damage rate of the fitting is also reduced simultaneously, and the production cost is reduced.

Description

A kind of diamond synthesizing column core automatic assembling

Technical field

The utility model belongs to the film ultra-hard material synthesizer technical field, particularly a kind of diamond synthesizing column core automatic assembling.

Background technology

In the synthetic field of superhard material, with the diamond synthesis is example, and its composition principle is: diamond and graphite are allotropes, puts into the diamond synthesizing column core to the synthetic chamber that cubic hinge press forms, under 1500 ℃ of high temperature and 5.5Gpa condition of high voltage, the diamond synthesizing column core promptly changes into diamond.The diamond synthesizing column core is the cylinder with certain diameter and height, and it is assembled by certain mode by graphite post, pyrophillite piece and conducting steel ring etc.For a long time, the assembly working of diamond synthesizing column core relies on manually fully and finishes, and has both expended great amount of manpower and material resources and time, inefficiency, insulation bowl breakage rate height makes the diamond synthesizing column core have bigger rigging error again, causes the quality of diamond synthesis low.In addition, first procedure of diamond synthesizing column core assembling is a dress graphite post, promptly from the identical insulation bowl of two sizes of graphite post two ends suit, graphite post external diameter and insulation bowl internal diameter are closely cooperated, owing to finish aforesaid operations otherwise the rotation that stops, advance the insulation bowl, graphite post that grinds off in the rotary course and insulation bowl powder disperse in air, and be very harmful to the human respiratory tract.

The utility model content

The purpose of this utility model is at above-mentioned deficiency, a kind of high efficiency is provided, human body is endangered the diamond synthesizing column core automatic assembling little, that production cost is low.

For achieving the above object, the technical solution of the utility model is: a kind of diamond synthesizing column core automatic assembling, comprise the rotary propelling device that the automatic charging device that is provided with on base, the base and automatic charging device discharging opening place are provided with, automatic charging device links to each other with the gas control dynamical system with rotary propelling device.

Described automatic charging device comprises the left side insulation bowl chute that is positioned at both sides, right insulation bowl chute and therebetween graphite post chute, and left side insulation bowl chute, right insulation bowl chute and graphite post chute constitute by the section of having a down dip and horizontal segment; The horizontal segment of a left side insulation bowl chute, right insulation bowl chute and graphite post chute links to each other with the spacing cylinder of graphite post with the spacing cylinder of left side insulation bowl, the spacing cylinder of right insulation bowl respectively, between the spacing cylinder of left side insulation bowl and the left side insulation bowl chute horizontal segment end, the spacing cylinder of right insulation bowl insulate between bowl chute horizontal segment end with the right side, be respectively equipped with a left side between the spacing cylinder of graphite post and the graphite post chute horizontal segment end send a bowl cylinder, the right side to send a bowl cylinder, send the post cylinder; Graphite post chute discharging opening place is provided with holder post cylinder; Corresponding left side insulation bowl chute and right insulation bowl chute are provided with left side insulation bowl baffle plate and right insulation bowl baffle plate on the described base.

Described automatic charging device comprises the left side insulation bowl chute that is positioned at both sides, right insulation bowl chute and therebetween graphite post chute, and left side insulation bowl chute, right insulation bowl chute and graphite post chute constitute by the section of having a down dip and drooping section; Be respectively equipped with the position on the drooping section rear wall of a left side insulation bowl chute, right insulation bowl chute and graphite post chute and be not higher than the feedhole of left side insulation bowl, right insulation bowl or the graphite post of below, the drooping section rear of a left side insulation bowl chute, right insulation bowl chute and graphite post chute is respectively equipped with a left side corresponding with feedhole and send a bowl cylinder, the right side to send bowl cylinder and send the post cylinder; The feedhole top of a left side insulation bowl chute, right insulation bowl chute and graphite post chute is respectively equipped with spacing hole, and between two left side insulation bowls, right insulation bowl or the graphite mast axis of spacing hole below, the spacing hole outside is provided with position-limit mechanism; Graphite post chute discharging opening is provided with holder post cylinder; Corresponding left side insulation bowl chute and right insulation bowl chute are provided with left side insulation bowl baffle plate and right insulation bowl baffle plate on the described base.

Described position-limit mechanism comprises is located at the outer rotating shaft that is rotatably assorted with axle sleeve of spacing hole, rotating shaft is provided with the corresponding banking stop of spacing hole with left side insulation bowl chute, right insulation bowl chute and graphite post chute, be arranged at intervals with shift fork with banking stop on the shaft circumference face, shift fork links to each other with the spacing cylinder of graphite post with the corresponding spacing cylinder of left side insulation bowl, the spacing cylinder of right insulation bowl.

The discharging opening below is equipped with the holder post cylinder of vertical setting by fixed mount, the piston rod front end of holder post cylinder is hinged with horizontal pull bar, horizontal pull bar leading portion is hinged by support and supports, and the pull bar front end upwards is provided with push rod, and the push rod end is provided with the supporting plate that joins with the graphite post.

Described rotary propelling device comprises spider and rotary sleeve sheathed with it and that be slidingly matched, the rotary sleeve front end is provided with friction plate, have that a rotating shaft rear end is rotationally connected with spider, front end is fixedlyed connected with rotary sleeve, the rotary sleeve outer circumference surface is provided with the axis of guide, axis of guide outer end is positioned at the gathering sill on the guide rail frame, and gathering sill is the curve setting or is provided with from shallow to deep.

Rotating shaft between described spider and the rotary sleeve is provided with buffer spring, and rotating shaft terminal portion is provided with the adjustment nut that is used to lock the locking nut of spider and adjusts rotary sleeve respectively.

Axis of guide outer end is equipped with guide bearing, and guide bearing is positioned at gathering sill.

Described gas control dynamical system comprises the stop valve and the choke valve of gas tank and series connection with it; Be connected with aspirating pipeline behind the choke valve, aspirating pipeline is connected with the front/back cavity of the spacing cylinder of left side insulation bowl, the right insulation spacing cylinder of bowl and the spacing cylinder of graphite post respectively by first reversing switch, aspirating pipeline send a bowl cylinder, the right side to send bowl cylinder with a left side respectively by second reversing switch and send the front/back cavity of post cylinder to be connected, aspirating pipeline is connected by the front/back cavity of the 3rd reversing switch with holder post cylinder, and aspirating pipeline is connected with the front/back cavity of left propulsion cylinder and right propulsion cylinder respectively by the 4th reversing switch; Be serially connected with Pressure gauge between stop valve and the choke valve.

Described gas control dynamical system is provided with electric-control system mutually, a plurality of signal transceivers that electric-control system comprises electrical control cubicles, links to each other with electrical control cubicles, signal transceiver is provided with two terminals, terminals send a bowl cylinder, the right side to send a bowl cylinder with the spacing cylinder of left side insulation bowl, the spacing cylinder of right insulation bowl, the spacing cylinder of graphite post, a left side respectively, send the post cylinder, holder post cylinder, left propulsion cylinder link to each other another terminals and first reversing switch, second reversing switch, the 3rd reversing switch and the 4th reversing switch with right propulsion cylinder.

Compared with prior art, the utility model has the advantages that:

1, the utility model assembles replacement automatically by mechanically actuated and assembles manually, has both improved operating efficiency, has reduced harm to human body again, has reduced labour intensity, has also reduced the spoilage of accessory simultaneously, reduces production costs.

2, installed and used the gas control dynamical system in the utility model, it has liberated workman hand-manipulated, has both reduced labor strength, has improved operating efficiency, reduced again product spoilage, reduced production cost, improve automaticity greatly, helped to improve the diamond quality.

3, the gas tank of gas control dynamical system is supplied gas to each working cylinder back cavity by each reversing switch via aspirating pipeline, and each working cylinder piston bar is outwards promoted, and realizes predetermined action; After finishing above-mentioned pushing action, each reversing switch commutation, the gases at high pressure that aspirating pipeline provides are sent into from each working cylinder ante-chamber, make piston rod to after-contraction, realize predetermined action.Each working cylinder can be in time, commutation accurately, finishes continuous promotion and contractive action to guarantee each working cylinder, satisfies need of work, and is reasonable in design, easy to use.

4, installed and used rotary propelling device in the utility model, it utilizes bionics principle, propelling, spinning movement that can the timing of anthropomorphic dummy's frock, accompanying rotation action when insulation bowl in a left side is advanced with right insulation bowl, to finish the assembly work of diamond synthesizing column core smoothly, assembling speed and efficiency of assembling have been improved.

5, rotary propelling device replaces assembling manually by plant equipment, realizes mechanization, automation assembling, has both improved operating efficiency and automaticity, reduced harm again to human body, reduce labour intensity, also reduced the spoilage of accessory simultaneously, greatly reduced production cost.

Description of drawings

Fig. 1 is the structural representation of the utility model embodiment 1;

Fig. 2 is the vertical view of Fig. 1;

Fig. 3 is the structural representation of rotary propelling device among Fig. 1;

Fig. 4 is for finishing the diamond synthesizing column core of assembling by the utility model;

Fig. 5 is the schematic diagram of the utility model gas control dynamical system;

Fig. 6 is the structural representation of the utility model embodiment 2;

Fig. 7 is the left view of Fig. 6;

Fig. 8 is the left view of left side insulation bowl chute, graphite post chute and right insulation bowl chute among Fig. 6;

Fig. 9 is the vertical view of Fig. 8.

The specific embodiment

Embodiment 1

Diamond synthesizing column core automatic assembling as depicted in figs. 1 and 2, it comprises on base 1, the base 1 rotary propelling device 3 that the discharging opening place of the automatic charging device 2 that is provided with, automatic charging device 2 is provided with, automatic charging device 2 links to each other with gas control dynamical system 4 with rotary propelling device 3, be connected with electric-control system 5 on the gas control dynamical system 4, gas control dynamical system 4 provides the power support for the utility model, electric-control system 5 makes the utility model realize automation mechanized operation, and mechanization, automaticity are greatly improved.

Gas control dynamical system 4 shown in Figure 5, it comprises the stop valve 49 and the choke valve 410 of gas tank 48 and series connection with it, gas tank 48 provides power gas source to each working cylinder; Be serially connected with Pressure gauge 417 and pneumatic triple piece 416 between stop valve 49 and the choke valve 410, be respectively applied for monitoring working cylinder bleed pressure and adjust working cylinder action speed and cooperation synchronously, to guarantee each working cylinder trouble free service.Behind choke valve 410, be connected with aspirating pipeline 415, aspirating pipeline 415 by first reversing switch 411 respectively with the spacing cylinder 41 of left side insulation bowl, before right insulation spacing cylinder 42 of bowl and the spacing cylinder 43 of graphite post, back cavity is connected, aspirating pipeline 415 send bowl cylinder 44 with a left side respectively by second reversing switch 412, the right side send bowl cylinder 45 and send post cylinder 46 before, back cavity is connected, aspirating pipeline 415 is by before the 3rd reversing switch 413 and the holder post cylinder 47, back cavity is connected, aspirating pipeline 415 by the 4th reversing switch 414 respectively with left propulsion cylinder 31 and right propulsion cylinder 32 before, back cavity is connected.Gas tank 48 is supplied gas to each working cylinder back cavity via aspirating pipeline 415 and by each reversing switch, and each working cylinder piston bar is outwards promoted, and realizes predetermined action; After finishing above-mentioned action, each reversing switch commutation, the gases at high pressure that aspirating pipeline 415 provides are sent into from each working cylinder ante-chamber, make piston rod to after-contraction, realize predetermined action.Each working cylinder can be in time, commutation accurately, finishes continuous promotion and contractive action to guarantee each working cylinder, satisfies need of work.

From Fig. 1 and Fig. 2 as can be known, automatic charging device 2 comprises the left side insulation bowl feed mechanism that is provided with on base 1 and the base 1, right insulation bowl feed mechanism, graphite post feed mechanism, feed mechanism comprises the left side insulation bowl chute 21 that is positioned at both sides, right insulation bowl chute 22 and therebetween graphite post chute 23, and left side insulation bowl chute 21, right insulation bowl chute 22 and graphite post chute 23 constitute by section of having a down dip 24 and horizontal segment 25.After the setting of the section of having a down dip 24 can make the left side insulation bowl 11 of forefront, right insulation bowl 12 and graphite post 13 removed, the left side insulation bowl 11 at rear, right insulation bowl 12 and graphite post 13 can fill a vacancy to front slide automatically.The spacing cylinder 41 of left side insulation bowl, the right insulation spacing cylinder 42 of bowl and the spacing cylinder 43 of graphite post are located at respectively on the horizontal segment 25 of left side insulation bowl chute 21, right insulation bowl chute 22 and graphite post chute 23, are used for the spacing of left side insulation bowl 11, right insulation bowl 12 and graphite post 13.A left side send bowl cylinder 44, the right side send bowl cylinder 45 and send between horizontal segment 25 ends that post cylinder 46 is located at the spacing cylinder 41 of left side insulation bowl and left side insulation bowl chute 21 respectively, between horizontal segment 25 ends of the spacing cylinder 42 of right insulation bowl and the right bowl chute 22 that insulate, between horizontal segment 25 ends of the spacing cylinder 43 of graphite post and graphite post chute 23, be used for left side insulation bowl 11, right insulation bowl 12 and graphite post 13 are delivered between left propulsion cylinder 31 and the right propulsion cylinder 32, wait the assembly work of pending diamond synthesizing column core.Corresponding left side insulation bowl chute 21 and right insulation bowl chute 22 are provided with left side insulation bowl baffle plate 26 and right insulation bowl baffle plate 27 on base 1, left side insulation bowl 11 and right insulation bowl 12 are played positioning action, guarantee that left side insulation bowl 11 and right insulation bowl 12 are positioned at rigging position accurately.Be provided with holder post cylinder 47 at the discharging opening place of graphite post chute 23, promptly ask post cylinder 47 below between left propulsion cylinder 31 and the right propulsion cylinder 32, be used to support graphite post 13, and the Support Position of holder post cylinder 47 pairs of graphite posts 13 is at the middle part of graphite post 13, do not hinder left side insulation bowl 11 and right insulation bowl 12 to assemble from graphite post 13 inward at both ends.

Rotary propelling device shown in Figure 3, it comprises spider 34 and rotary sleeve 37 sheathed with it and that be slidingly matched, have that a rotating shaft 35 rear ends are rotationally connected with spider 34, front end is fixedlyed connected with rotary sleeve 37, described rotating shaft 35 rear ends and spider 34 are rotationally connected by swivel bearing 36, and swivel bearing 36 is fixed by interior jump ring 311.On the rotating shaft 35 between spider 34 and the rotary sleeve 37, be provided with buffer spring 7, to compensate the height tolerance of left side insulation bowl 11 and right insulation bowl 12 by spring base 15; Rotating shaft 35 both ends are provided with the adjustment nut 9 that is used to lock the locking nut 8 of spider 34 and adjusts rotary sleeve 37 respectively, adjust the tightness of buffer spring 7 according to the elastic force needs.Rotary sleeve 37 outer circumference surfaces are provided with the axis of guide 39, and the axis of guide 39 outer ends are positioned at the gathering sill 6 on the guide rail frame 16, and gathering sill 6 is curve or is provided with from shallow to deep that the axis of guide 39 can roll forward along gathering sill 6.The guide bearing 310 that the described axis of guide 39 is installed by its outer end stretches in the gathering sill 6, and guide bearing 310 can be rolled forward along gathering sill 6.For improving the frictional force between rotary sleeve 37 and left side insulation bowl 11 and the right insulation bowl 12, prevent that rotary sleeve 37 from skidding, dallying, be provided with friction plate 38 at rotary sleeve 37 front ends.

By Fig. 1 and Fig. 2 as can be known, the electric-control system 5 that links to each other with gas control dynamical system 4 comprises electrical control cubicles 51, the a plurality of signal transceivers 52 that link to each other with electrical control cubicles 51, each signal transceiver 52 is provided with two terminals, terminals respectively with the spacing cylinder 41 of left side insulation bowl, the spacing cylinder 42 of right insulation bowl, the spacing cylinder 43 of graphite post, bowl cylinder 44 is sent on a left side, bowl cylinder 45 is sent on the right side, send post cylinder 46, holder post cylinder 47, left side propulsion cylinder 31 links to each other with right propulsion cylinder 32, another terminals and first reversing switch 411, second reversing switch 412, the 3rd reversing switch 413 and the 4th reversing switch 414, thereby control first reversing switch 411, second reversing switch 412, the 3rd reversing switch 413 and the 4th reversing switch 414 in time commutate, so that the spacing cylinder 41 of left side insulation bowl, the spacing cylinder 42 of right insulation bowl, the spacing cylinder 43 of graphite post, bowl cylinder 44 is sent on a left side, bowl cylinder 45 is sent on the right side, send post cylinder 46, holder post cylinder 47, left side propulsion cylinder 31 and right propulsion cylinder 32 change action directions, the outside action that promotes and inwardly shrink of the cylinder piston rod of finishing the work replaces, realize assembling action continuously, realize the mechanization and the automation of assembling.

Figure 4 shows that the diamond synthesizing column core that the utility model is assembled, it is made of with right insulation bowl 12 the graphite post 13 of core and the left side insulation bowl 11 of graphite post 13 two ends suits.In diamond synthesizing column core assembling process; because gathering sill 6 is curvilinear path or is provided with from shallow to deep; guide bearing 310 is along gathering sill 6 propelling of rolling forward; the tangential force effect of 39 pairs of rotary sleeves 37 of the axis of guide simultaneously makes rotary sleeve 37 do spinning movement; realize rotary sleeve 37 propelling, rotatablely move; and this is moved through the outer face that friction plate 38 acts on left side insulation bowl 11 and right insulation bowl 12, to finish the assembly work of diamond synthesizing column core.

Use of the present utility model is: first, open gas tank 48, connect power supply, start run signal transceiver 52, bowl cylinder 44 is sent on a left side, the right side is sent bowl cylinder 45 and is sent post cylinder 46 with left side insulation bowl 11, right insulation bowl 12 and graphite post 13 are released, the spacing cylinder 41 of the bowl of left side insulation simultaneously, spacing cylinder 43 actions of right insulation spacing cylinder 42 of bowl and graphite post are to left side insulation bowl chute 21, left side insulation bowl 11 in right insulation bowl chute 22 and the graphite post chute 23, right insulation bowl 12 and graphite post 13 are spacing, holder post cylinder 47 jackings to base 1 is highly located, until left side insulation bowl 11, right insulation bowl 12 and graphite post 13 are sent to the position between left propulsion cylinder 31 and the right propulsion cylinder 32, left side insulation bowl 11 and right insulation bowl 12 stop the location by left side insulation bowl baffle plate 26 and right insulation bowl baffle plate 27 respectively, and graphite post 13 is by holder post cylinder 47 supports location.Second, after left side insulation bowl 11, right insulation bowl 12 and graphite post 13 put in place, send signal with second reversing switch 412 with the signal transceiver 52 that the 4th reversing switch 414 links to each other, control

second reversing switch

412 and 414 commutations of the 4th reversing switch, make a left side send bowl cylinder 44, the right side to send bowl cylinder 45 and send post cylinder 46 oppositely to reset, make left propulsion cylinder 31 and right propulsion cylinder 32 controlled pushing ahead.The 3rd, the left propulsion cylinder 31 and the right propulsion cylinder 32 of pushing ahead simultaneously makes friction plate 38 be close to left side insulation bowl 11 and right insulation bowl 12 outer faces, left side propulsion cylinder 31 continues to advance with right propulsion cylinder 32, the propelling of rotary propelling device anthropomorphic dummy frock timing, spinning movement, make left side insulation bowl 11 and right insulation bowl 12 be assemblied in the left side of graphite post 13 respectively, right two ends, when the left side insulation bowl 11 and right insulation bowl 12 assemblings 1/2nd left and right sides, the signal transceiver 52 that links to each other with the 3rd reversing switch 413 sends signal, control 413 commutations of the 3rd reversing switch, holder post cylinder 47 is oppositely descended to break away from graphite post 13, until finishing the assembling of diamond synthesizing column core as shown in Figure 4.The 4th, with first reversing switch 411, second reversing switch 412 sends signal with the signal transceiver 52 that the 3rd reversing switch 413 links to each other, control first reversing switch 411,

second reversing switch

412 and 413 commutations of the 3rd reversing switch, to remove the spacing cylinder 41 of left side insulation bowl, the right insulation spacing cylinder 42 of bowl and 43 pairs of left side insulation of the spacing cylinder of graphite post bowl chute 21, left side insulation bowl 11 in right insulation bowl chute 22 and the graphite post chute 23, the position-limiting action of right insulation bowl 12 and graphite post 13, bowl cylinder 44 is sent on a left side simultaneously, the right side is sent bowl cylinder 45 and is sent 46 actions of post cylinder with left side insulation bowl 11, right insulation bowl 12 and graphite post 13 are released, left side propulsion cylinder 31 and right propulsion cylinder 32 oppositely reset, and when graphite post 13 puts in place the diamond synthesizing column core of finishing in the 3rd step are ejected to becoming capo storehouse 10.The 5th, repeat the above-mentioned second and the 3rd process that goes on foot, realize the continuous assembling of diamond synthesizing column core.

Embodiment 2

As Fig. 6, Fig. 7, Fig. 8 and diamond synthesizing column core automatic assembling shown in Figure 9, the difference of itself and embodiment one is: the left side of an automatic charging device insulation bowl chute 21, right insulation bowl chute 22 and graphite post chute 23 are made of section of having a down dip 24 and drooping section 28 in the utility model.After the setting of the section of having a down dip 24 can make in the drooping section 28 left side insulation bowl 11 of below, right insulation bowl 12 and graphite post 13 removed, adjacent left side insulation bowl 11, right insulation bowl 12 and the graphite post 13 in its top fell to filling a vacancy automatically, in order to taking continuously.Left side insulation bowl chute 21, be respectively equipped with the position on drooping section 24 rear walls of right insulation bowl chute 22 and graphite post chute 23 and be not higher than the left side insulation bowl 11 of below, the feedhole 29 of right insulation bowl 12 or graphite post 13, left side insulation bowl chute 21, drooping section 28 rears of right insulation bowl chute 22 and graphite post chute 23 are respectively equipped with a left side corresponding with feedhole 29 and send bowl cylinder 44, the right side is sent bowl cylinder 45 and is sent post cylinder 46, be used for left side insulation bowl 11, right insulation bowl 12 and graphite post 13 are delivered between left propulsion cylinder 31 and the right propulsion cylinder 32, wait the assembly work of pending diamond synthesizing column core.Send bowl cylinder 44, the right side to send bowl cylinder 45 on a left side and send the piston rod front end of post cylinder 46 to be respectively equipped with feeding pad 70, to increase the contact area with left side insulation bowl 11, right insulation bowl 12 and graphite post 13, reduce the breakage rate of left side insulation bowl 11, right insulation bowl 12 and graphite post 13.

Above the feedhole 29 of left side insulation bowl chute 21, right insulation bowl chute 22 and graphite post chute 23, be respectively equipped with spacing hole 30, between two left side insulation bowls 11, right insulation bowl 12 or graphite post 13 axis of spacing hole 30 below, spacing hole 30 outsides are provided with position-limit mechanism.Described position-limit mechanism comprises is located at the outer rotating shaft 66 that is rotatably assorted with axle sleeve 67 of spacing hole 30, rotating shaft 66 is provided with the banking stop 69 corresponding with the spacing hole 30 of a left side insulation bowl chute 21, right insulation bowl chute 22 and graphite post chute 23, be arranged at intervals with shift fork 68 with banking stop 69 on rotating shaft 66 peripheries, shift fork 68 links to each other with the spacing cylinder 43 of graphite post with the corresponding spacing cylinder 41 of left side insulation bowl, the spacing cylinder 42 of right insulation bowl.

Be provided with holder post cylinder 47 at graphite post chute 23 discharging openings, holder post cylinder 47 vertically is installed on the base 1 by fixed mount 61, the piston rod front end of holder post cylinder 47 is hinged with horizontal pull bar 63, horizontal pull bar 63 leading portions are hinged by support 62 and support, horizontal pull bar 63 front ends upwards are provided with push rod 64, and push rod 64 upper ends are provided with the supporting plate 65 that joins with graphite post 13.Supporting plate 65 is the arc plate, and arc plate radian and graphite post adapt.The piston rod of holder post cylinder 47 pushing tow that makes progress falls horizontal pull bar 63 front ends, drives push rod 64 simultaneously and supporting plate 65 falls to breaking away from graphite posts 13; Otherwise the piston rod of holder post cylinder 47 shrinks downwards, and push rod 64 and supporting plate 65 rise and contact with graphite post 13.

The drooping section 24 of left side insulation bowl chute 21, right insulation bowl chute 22 and graphite post chute 23 is provided with the buckle that is positioned at drooping section 24 antethecas for square tubular or drooping section 24 two sides, to prevent that left side insulation bowl 11, right insulation bowl 12 and graphite post 13 from skidding off in a left side insulation bowl chute 21, right insulation bowl chute 22 and graphite post chute 23, guaranteeing that assembly work is sustainable carries out.

Claims

1. diamond synthesizing column core automatic assembling, it is characterized in that, comprise the rotary propelling device that the automatic charging device that is provided with on base, the base and automatic charging device discharging opening place are provided with, automatic charging device links to each other with the gas control dynamical system with rotary propelling device.

2. diamond synthesizing column core automatic assembling as claimed in claim 1, it is characterized in that, described automatic charging device comprises the left side insulation bowl chute that is positioned at both sides, right insulation bowl chute and therebetween graphite post chute, and left side insulation bowl chute, right insulation bowl chute and graphite post chute constitute by the section of having a down dip and horizontal segment; The horizontal segment of a left side insulation bowl chute, right insulation bowl chute and graphite post chute links to each other with the spacing cylinder of graphite post with the spacing cylinder of left side insulation bowl, the spacing cylinder of right insulation bowl respectively, between the spacing cylinder of left side insulation bowl and the left side insulation bowl chute horizontal segment end, the spacing cylinder of right insulation bowl insulate between bowl chute horizontal segment end with the right side, be respectively equipped with a left side between the spacing cylinder of graphite post and the graphite post chute horizontal segment end send a bowl cylinder, the right side to send a bowl cylinder, send the post cylinder; Graphite post chute discharging opening place is provided with holder post cylinder; Corresponding left side insulation bowl chute and right insulation bowl chute are provided with left side insulation bowl baffle plate and right insulation bowl baffle plate on the described base.

3. diamond synthesizing column core automatic assembling as claimed in claim 1, it is characterized in that, described automatic charging device comprises the left side insulation bowl chute that is positioned at both sides, right insulation bowl chute and therebetween graphite post chute, and left side insulation bowl chute, right insulation bowl chute and graphite post chute constitute by the section of having a down dip and drooping section; Be respectively equipped with the position on the drooping section rear wall of a left side insulation bowl chute, right insulation bowl chute and graphite post chute and be not higher than the feedhole of left side insulation bowl, right insulation bowl or the graphite post of below, the drooping section rear of a left side insulation bowl chute, right insulation bowl chute and graphite post chute is respectively equipped with a left side corresponding with feedhole and send a bowl cylinder, the right side to send bowl cylinder and send the post cylinder; The feedhole top of a left side insulation bowl chute, right insulation bowl chute and graphite post chute is respectively equipped with spacing hole, and between two left side insulation bowls, right insulation bowl or the graphite mast axis of spacing hole below, the spacing hole outside is provided with position-limit mechanism; Graphite post chute discharging opening is provided with holder post cylinder; Corresponding left side insulation bowl chute and right insulation bowl chute are provided with left side insulation bowl baffle plate and right insulation bowl baffle plate on the described base.

4. diamond synthesizing column core automatic assembling as claimed in claim 3, it is characterized in that, described position-limit mechanism comprises is located at the outer rotating shaft that is rotatably assorted with axle sleeve of spacing hole, rotating shaft is provided with the corresponding banking stop of spacing hole with left side insulation bowl chute, right insulation bowl chute and graphite post chute, be arranged at intervals with shift fork with banking stop on the shaft circumference face, shift fork links to each other with the spacing cylinder of graphite post with the corresponding spacing cylinder of left side insulation bowl, the spacing cylinder of right insulation bowl.

5. diamond synthesizing column core automatic assembling as claimed in claim 4, it is characterized in that, the discharging opening below is equipped with the holder post cylinder of vertical setting by fixed mount, the piston rod front end of holder post cylinder is hinged with horizontal pull bar, horizontal pull bar leading portion is hinged by support and supports, the pull bar front end upwards is provided with push rod, and the push rod end is provided with the supporting plate that joins with the graphite post.

6. as claim 1,2,3,4 or 5 described diamond synthesizing column core automatic assemblings, it is characterized in that, described rotary propelling device comprises spider and rotary sleeve sheathed with it and that be slidingly matched, the rotary sleeve front end is provided with friction plate, have that a rotating shaft rear end is rotationally connected with spider, front end is fixedlyed connected with rotary sleeve, the rotary sleeve outer circumference surface is provided with the axis of guide, and axis of guide outer end is positioned at the gathering sill on the guide rail frame, and gathering sill is the curve setting or is provided with from shallow to deep.

7. diamond synthesizing column core automatic assembling as claimed in claim 6, it is characterized in that, rotating shaft between described spider and the rotary sleeve is provided with buffer spring, and rotating shaft terminal portion is provided with the adjustment nut that is used to lock the locking nut of spider and adjusts rotary sleeve respectively.

8. diamond synthesizing column core automatic assembling as claimed in claim 7 is characterized in that axis of guide outer end is equipped with guide bearing, and guide bearing is positioned at gathering sill.

9. as claim 1,2,3,4 or 5 described diamond synthesizing column core automatic assemblings, it is characterized in that described gas control dynamical system comprises the stop valve and the choke valve of gas tank and series connection with it; Be connected with aspirating pipeline behind the choke valve, aspirating pipeline is connected with the front/back cavity of the spacing cylinder of left side insulation bowl, the right insulation spacing cylinder of bowl and the spacing cylinder of graphite post respectively by first reversing switch, aspirating pipeline send a bowl cylinder, the right side to send bowl cylinder with a left side respectively by second reversing switch and send the front/back cavity of post cylinder to be connected, aspirating pipeline is connected by the front/back cavity of the 3rd reversing switch with holder post cylinder, and aspirating pipeline is connected with the front/back cavity of left propulsion cylinder and right propulsion cylinder respectively by the 4th reversing switch; Be serially connected with Pressure gauge between stop valve and the choke valve.

10. diamond synthesizing column core automatic assembling as claimed in claim 8 is characterized in that described gas control dynamical system comprises the stop valve and the choke valve of gas tank and series connection with it; Be connected with aspirating pipeline behind the choke valve, aspirating pipeline is connected with the front/back cavity of the spacing cylinder of left side insulation bowl, the right insulation spacing cylinder of bowl and the spacing cylinder of graphite post respectively by first reversing switch, aspirating pipeline send a bowl cylinder, the right side to send bowl cylinder with a left side respectively by second reversing switch and send the front/back cavity of post cylinder to be connected, aspirating pipeline is connected by the front/back cavity of the 3rd reversing switch with holder post cylinder, and aspirating pipeline is connected with the front/back cavity of left propulsion cylinder and right propulsion cylinder respectively by the 4th reversing switch; Be serially connected with Pressure gauge between stop valve and the choke valve.

11. as claim 1,2,3,4 or 5 described diamond synthesizing column core automatic assemblings, it is characterized in that, described gas control dynamical system is provided with electric-control system mutually, electric-control system comprises electrical control cubicles, the a plurality of signal transceivers that link to each other with electrical control cubicles, signal transceiver is provided with two terminals, terminals respectively with the spacing cylinder of left side insulation bowl, the spacing cylinder of right insulation bowl, the spacing cylinder of graphite post, a bowl cylinder is sent on a left side, a bowl cylinder is sent on the right side, send the post cylinder, holder post cylinder, left side propulsion cylinder links to each other another terminals and first reversing switch with right propulsion cylinder, second reversing switch, the 3rd reversing switch and the 4th reversing switch.

12. diamond synthesizing column core automatic assembling as claimed in claim 8, it is characterized in that, described gas control dynamical system is provided with electric-control system mutually, electric-control system comprises electrical control cubicles, the a plurality of signal transceivers that link to each other with electrical control cubicles, signal transceiver is provided with two terminals, terminals respectively with the spacing cylinder of left side insulation bowl, the spacing cylinder of right insulation bowl, the spacing cylinder of graphite post, a bowl cylinder is sent on a left side, a bowl cylinder is sent on the right side, send the post cylinder, holder post cylinder, left side propulsion cylinder links to each other another terminals and first reversing switch with right propulsion cylinder, second reversing switch, the 3rd reversing switch and the 4th reversing switch.

13. diamond synthesizing column core automatic assembling as claimed in claim 9, it is characterized in that, described gas control dynamical system is provided with electric-control system mutually, electric-control system comprises electrical control cubicles, the a plurality of signal transceivers that link to each other with electrical control cubicles, signal transceiver is provided with two terminals, terminals respectively with the spacing cylinder of left side insulation bowl, the spacing cylinder of right insulation bowl, the spacing cylinder of graphite post, a bowl cylinder is sent on a left side, a bowl cylinder is sent on the right side, send the post cylinder, holder post cylinder, left side propulsion cylinder links to each other another terminals and first reversing switch with right propulsion cylinder, second reversing switch, the 3rd reversing switch and the 4th reversing switch.