CN202097611U - Octagonal drill feeding device - Google Patents
Octagonal drill feeding device Download PDFInfo
- Publication number
- CN202097611U CN202097611U CN2011201017694U CN201120101769U CN202097611U CN 202097611 U CN202097611 U CN 202097611U CN 2011201017694 U CN2011201017694 U CN 2011201017694U CN 201120101769 U CN201120101769 U CN 201120101769U CN 202097611 U CN202097611 U CN 202097611U
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- China
- Prior art keywords
- powder box
- transverse slat
- holding pad
- guide pillar
- vertical
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- Expired - Fee Related
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Abstract
The utility model relates to an octagonal drill feeding device, which comprises a feeding seat consisting of a horizontal plate and two vertical plates. A heating pipe is arranged above the horizontal plate and fixed into a heating pipe frame; the heating pipe frame is fixed to one vertical plate; a powder box is arranged between the horizontal plate and the heating pipe, movably arranged above the horizontal plate through a powder box translation device and capable of moving horizontally; the powder box translation device is connected with the vertical plates; a chute is fixed onto the horizontal plate and positioned under the heating pipe; a pressure plate arranged in the chute penetrates into the horizontal plate through a pressure plate vertical-movement device and is capable of vertically moving; and the pressure plate vertical-movement device is connected with the horizontal plate and arranged below the horizontal plate. The octagonal drill feeding device can be used as an independent feeding device, and further can be mounted on an octagonal drill grinder to realize full-automatic feeding. Full automation, high efficiency and high yield are realized truly, and the requirements of the current market on yield can be met.
Description
Technical field
The utility model relates to a kind of anistree anise that bores in the milling drum and bores feeding device.
Background technology
The present employed anistree milling drum that bores; Its blade row is a demountable structure; When needs reload, at first blade row is unloaded from the diamond milling drum in the course of work, the anise of through device for discharging grinding on the blade row being accomplished then bores and unloads; Then will need the anise of grinding to bore through feeding device is installed in the blade row, again blade row is installed to anistree boring in the milling drum at last.
Present employed anistree structure of boring feeding device comprises a powder box, and the set inside of powder box has the glue powder, and the top of powder box is provided with heating tube.During use, blade row is sunk in the powder box, heating tube begins heating then, is bonded on the blade row after glue powder in the powder box is melted, and then the workman will need the anise of grinding to bore to be placed on the blade row, treat the glue cooling on the blade row after, anistree boring just is bonded on the blade row.
Present employed anistree boring just can be carried out material loading feeding device must unload blade row from anise brill milling drum after; Whole material loading process is loaded down with trivial details; Make material loading slow; Thereby influenced the operating efficiency of anistree brill milling drum, along with the demand of diamond ornaments now constantly increases, the present employed anistree demand that feeding device can not reach output of boring.
The utility model content
The utility model technical problem to be solved is: provide a kind of anise of ability rapid material-feeding to bore feeding device, thereby can improve anistree operating efficiency of boring milling drum.
For addressing the above problem, the technical scheme that the utility model adopts is: the anistree feeding device that bores comprises by a transverse slat and two material loading seats that riser is formed; The top of transverse slat is provided with heating tube, and heating tube is fixed in the heating pipe support, and heating pipe support and a riser fix; Be provided with powder box between described transverse slat and the heating tube; Powder box is movably arranged on the top of transverse slat through the powder box translating device and can laterally moves, and described powder box translating device is connected with riser, is fixed with hopper on the transverse slat; Hopper be positioned at heating tube under; Be provided with holding pad in the hopper, holding pad penetrates through holding pad vertical shift device and is arranged in the transverse slat and can vertically moves, and described holding pad vertical shift device is connected with transverse slat and is arranged on the below of transverse slat.
The structure of described holding pad vertical shift device comprises: the sliding panel that connects with the lower ends of holding pad; Sliding panel is connected with the motion bar of vertical cylinder; Penetrate in the sliding panel and be provided with vertical guide pillar; The upper end and the transverse slat of vertical guide pillar fix, and the lower end of vertical guide pillar fixes with the cylinder body of vertical cylinder.
The structure of described powder box translating device comprises: be separately positioned on two guide pillar framves on the riser; The horizontal guide pillar of placing through two transverse horizontal between two guide pillar framves is connected; Be set with on the every horizontal guide pillar and be movably set with guide pin bushing, two guide pin bushings are separately positioned on the two ends of powder box frame, and described powder box and powder box frame fix; The two ends of powder box frame are connected with the motion bar of flat-removing air cyclinder respectively, and the cylinder body of flat-removing air cyclinder all fixes with riser.
The top of described transverse slat is provided with two heating tubes; Be respectively arranged with powder box between every heating tube and the transverse slat; Each powder box is movably arranged on the top of transverse slat respectively through the powder box translating device; Be respectively arranged with a hopper under the every heating tube, be respectively arranged with holding pad in each hopper, every holding pad penetrates through holding pad vertical shift device respectively and is arranged in the transverse slat.
The beneficial effect of the utility model is: above-mentioned anise brill feeding device is simple in structure, material loading is quick; Not only can be used as independent feeding device uses; Realize fully automatic feeding but also can be installed in anistree boring on the milling drum; Really accomplished full-automatic, high efficiency, high yield, can reach now market the requirement of output.
Description of drawings
Fig. 1 is the described anistree structural representation that bores feeding device of the utility model;
Fig. 2 is the structural representation of powder box translating device part among Fig. 1;
Fig. 3 is the structural representation of holding pad vertical shift device part among Fig. 1;
Among the figure: 1, transverse slat, 2, riser, 3, heating tube, 4, the heating pipe support, 5, powder box; 6, powder box frame, 7, guide pin bushing, 8, horizontal guide pillar, 9, the guide pillar frame, 10, flat-removing air cyclinder; 11, hopper, 12, holding pad, 13, sliding panel, 14, vertical cylinder, 15, vertical guide pillar.
The specific embodiment
Through specific embodiment the anistree feeding device that bores of the utility model is done further to describe in detail below.
Like Fig. 1, shown in Figure 2, the anistree feeding device that bores comprises by a transverse slat 1 and two material loading seats that riser 2 is formed; The top of transverse slat 1 is provided with two heating tubes 3, and every heating tube 3 is separately fixed in one group of heating pipe support 4, and every group of heating pipe support 4 fixes with a riser 2 respectively; Be respectively arranged with powder box 5 between transverse slat 1 and every heating tube 3; Each powder box 5 fixes with powder box frame 6 respectively, and the two ends of each powder box frame 6 are respectively arranged with 7, four guide pin bushings 7 of guide pin bushing and penetrate in twos and be arranged on two horizontal guide pillars 8; Laterally the two ends of guide pillar 8 are connected with guide pillar frame 9 respectively; Described guide pillar frame 9 is separately positioned on two risers 2, and the two ends of each powder box frame 6 are connected with the motion bar of flat-removing air cyclinder 10 respectively, and the cylinder body of flat-removing air cyclinder 10 all fixes with riser 2; As shown in Figure 3, be fixed with on the transverse slat 1 11, two hoppers 11 of two hoppers lay respectively at two heating tubes 3 under; Be respectively arranged with holding pad 12 in each hopper 11; The lower end of every holding pad 12 is connected with sliding panel 13 respectively, and sliding panel 13 is connected with the motion bar of vertical cylinder 14, penetrates in the sliding panel 13 and is provided with vertical guide pillar 15; The upper end and the transverse slat 1 of vertical guide pillar 15 fix, and the lower end of vertical guide pillar 15 fixes with the cylinder body of vertical cylinder 14.
The operation principle of the utility model is: can above-mentioned anise be bored feeding device and be installed on the anise brill milling drum, after the anise in the blade row bores the grinding completion, at first bore device for discharging through anise the brill of the anise on the blade row is unloaded; Make blade row move to the below of heating tube 3 then and sink in the powder box 5 of filling the glue powder, then heating tube 4 begins heating, is bonded on the blade row after glue powder in the powder box 5 are melted; Then the motion bar of flat-removing air cyclinder 10 stretches out, and promotes powder box frame 6 and guide pin bushing 7 along horizontal guide pillar 8 transverse translations, makes powder box frame 6 stagger mutually with hopper 11; This moment blade row be positioned at hopper 11 directly over; The motion bar of following vertical cylinder 14 stretches out, and promote sliding panel 13 and holding pad 12 and move upward along vertical guide pillar 15, thereby the anise brill that holding pad 12 will be loaded in the hopper 11 up pushes in the blade row; The withdrawal of the motion bar of vertical cylinder 14 resets then; After treating the glue cooling on the blade row, anistree boring just is bonded on the blade row, and material loading is accomplished.Above-mentioned anise brill feeding device is simple in structure, material loading is quick; Not only can be used as independent feeding device uses; Realize fully automatic feeding but also can be installed in anistree boring on the milling drum, really accomplished full-automatic, high efficiency, high yield, can reach now market the requirement of output.In addition, above-mentioned anise bores feeding device and also is provided with two material loading stations, can realize the synchronous material loading of two blade rows, has further improved the speed of material loading.
Claims (4)
1. the anistree feeding device that bores comprises that the top of transverse slat is provided with heating tube by a transverse slat and two material loading seats that riser is formed; Heating tube is fixed in the heating pipe support; Heating pipe support and a riser fix, and it is characterized in that: be provided with powder box between described transverse slat and the heating tube, powder box is movably arranged on the top of transverse slat through the powder box translating device and can laterally moves; Described powder box translating device is connected with riser; Be fixed with hopper on the transverse slat, hopper be positioned at heating tube under, be provided with holding pad in the hopper; Holding pad penetrates through holding pad vertical shift device and is arranged in the transverse slat and can vertically moves, and described holding pad vertical shift device is connected with transverse slat and is arranged on the below of transverse slat.
2. the anistree feeding device that bores according to claim 1; It is characterized in that: the structure of described holding pad vertical shift device comprises: the sliding panel that connects with the lower ends of holding pad; Sliding panel is connected with the motion bar of vertical cylinder; Penetrate in the sliding panel and be provided with vertical guide pillar, the upper end and the transverse slat of vertical guide pillar fix, and the lower end of vertical guide pillar fixes with the cylinder body of vertical cylinder.
3. the anistree feeding device that bores according to claim 1 and 2; It is characterized in that: the structure of described powder box translating device comprises: be separately positioned on two guide pillar framves on the riser; The horizontal guide pillar of placing through two transverse horizontal between two guide pillar framves is connected; Be set with on the every horizontal guide pillar and be movably set with guide pin bushing, two guide pin bushings are separately positioned on the two ends of powder box frame, and described powder box and powder box frame fix; The two ends of powder box frame are connected with the motion bar of flat-removing air cyclinder respectively, and the cylinder body of flat-removing air cyclinder all fixes with riser.
4. the anistree feeding device that bores according to claim 1 and 2; It is characterized in that: the top of described transverse slat is provided with two heating tubes; Be respectively arranged with powder box between every heating tube and the transverse slat, each powder box is movably arranged on the top of transverse slat respectively through the powder box translating device, be respectively arranged with a hopper under the every heating tube; Be respectively arranged with holding pad in each hopper, every holding pad penetrates through holding pad vertical shift device respectively and is arranged in the transverse slat.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2011201017694U CN202097611U (en) | 2011-04-09 | 2011-04-09 | Octagonal drill feeding device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2011201017694U CN202097611U (en) | 2011-04-09 | 2011-04-09 | Octagonal drill feeding device |
Publications (1)
Publication Number | Publication Date |
---|---|
CN202097611U true CN202097611U (en) | 2012-01-04 |
Family
ID=45383644
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN2011201017694U Expired - Fee Related CN202097611U (en) | 2011-04-09 | 2011-04-09 | Octagonal drill feeding device |
Country Status (1)
Country | Link |
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CN (1) | CN202097611U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102189443A (en) * | 2011-04-09 | 2011-09-21 | 张家港市普天机械制造有限公司 | Octagonal stud charging device |
-
2011
- 2011-04-09 CN CN2011201017694U patent/CN202097611U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102189443A (en) * | 2011-04-09 | 2011-09-21 | 张家港市普天机械制造有限公司 | Octagonal stud charging device |
CN102189443B (en) * | 2011-04-09 | 2012-11-21 | 张家港市普天机械制造有限公司 | Octagonal stud charging device |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20120104 Termination date: 20150409 |
|
EXPY | Termination of patent right or utility model |