CN203945581U - Cabinet air-conditioner air draught grid dedicated processing mould - Google Patents
Cabinet air-conditioner air draught grid dedicated processing mould Download PDFInfo
- Publication number
- CN203945581U CN203945581U CN201420396773.1U CN201420396773U CN203945581U CN 203945581 U CN203945581 U CN 203945581U CN 201420396773 U CN201420396773 U CN 201420396773U CN 203945581 U CN203945581 U CN 203945581U
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- CN
- China
- Prior art keywords
- ejecting mechanism
- fixture block
- chute
- hook
- groove
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Abstract
The utility model discloses a kind of cabinet air-conditioner air draught grid dedicated processing mould, ejecting mechanism comprises the first ejecting mechanism and the second ejecting mechanism, the second ejecting mechanism is between the first ejecting mechanism and die shoe, the second ejecting mechanism side parallel with 2 cushion block line directions is provided with chute, in chute, be provided with the fixture block of slip, one end of fixture block protrudes from chute, chute is accommodated fixture block, on the side of die shoe, be fixed with the slideway extending towards upper bolster, slideway is provided with the groove of placing fixture block, the seamed edge that fixture block protrudes from relative first ejecting mechanism in one end of chute is provided with the first chamfering, groove is provided with second chamfering corresponding with the first chamfering back to one end of die shoe, in slideway, be provided with hook, hook is provided with hook groove, one end that fixture block protrudes from groove is positioned at hook groove, hook respectively with the first ejecting mechanism, die is fixedly connected with, realize the distance difference of the part that two ejecting mechanisms eject by hook and carry out implementation level sense, facilitate manipulator pickup.
Description
Technical field
The utility model relates to a kind of mould, and more particularly, it relates to a kind of cabinet air-conditioner air draught grid dedicated processing mould.
Background technology
Along with growth in the living standard, refrigerator-freezer also very universal in our life, and refrigerator-freezer cabinet mouth in the process of life often all by injection molded.
And at present industrial be all property multiple parts that are shaped once on a mold, and after this has also just caused and has been ejected by liftout attachment after product shaping, each product spacing is less, and this has just caused manipulator difficulty very in the process of pickup, affects working (machining) efficiency.
Utility model content
The deficiency existing for prior art, the purpose of this utility model is to provide a kind of cabinet air-conditioner air draught grid dedicated processing mould that facilitates manipulator pickup.
For achieving the above object, the utility model provides following technical scheme: a kind of cabinet air-conditioner air draught grid dedicated processing mould, comprise upper bolster, die, punch, 2 cushion blocks, liftout attachment and die shoe, described each parts are arranged successively, described liftout attachment is between 2 cushion blocks, described ejecting mechanism comprises the first ejecting mechanism and the second ejecting mechanism, the second described ejecting mechanism is between the first ejecting mechanism and die shoe, the second described ejecting mechanism side parallel with 2 cushion block line directions is provided with chute, in described chute, be provided with the fixture block of slip, one end of described fixture block protrudes from chute, described chute can be accommodated fixture block, on the side of described die shoe, be fixed with the slideway extending towards upper bolster, described slideway is provided with the groove of placing fixture block, the seamed edge that described fixture block protrudes from relative first ejecting mechanism in one end of chute is provided with the first chamfering, described groove is provided with second chamfering corresponding with the first chamfering back to one end of die shoe, in described slideway, be provided with hook, described hook is provided with hook groove, one end that described fixture block protrudes from chute is positioned at hook groove, described hook respectively with the first ejecting mechanism, die is fixedly connected with.
By adopting technique scheme, after part injection mo(u)lding, need to part be ejected by ejecting mechanism, at this moment drive hook to slide in slideway, and fixture block is positioned at hook groove, hook is because the first ejecting mechanism is connected, therefore link up with and in the process of sliding in slideway, can drive the first ejecting mechanism to move together with the second ejecting mechanism simultaneously, thereby the part of realizing in the die cavity that punch and die are formed ejects entirely, and now all part all in sustained height, the first chamfering on fixture block is against in the second chamfering, along with the continuation campaign of hook, because two bevel edges are conflicted mutually, fixture block will slide in chute, until the whole chute that is positioned at of fixture block, at this moment fixture block just departs from hook groove, hook just cannot pull the second ejecting mechanism, and the first ejecting mechanism is still along with hook together motion, and the part being ejected by the first ejecting mechanism will be far away apart from the distance of punch than the part being ejected by the second ejecting mechanism apart from the distance of punch, thereby just form stereovision, facilitate manipulator pickup.
The utility model is further set to: in described chute, be provided with back-moving spring, one end of described back-moving spring is connected with fixture block, the other end of described back-moving spring and chute are connected back to one end of hook, one end of the described relative die shoe of hook be provided with the first chamfering with respect to the 3rd chamfering.
By adopting technique scheme, when fixture block is whole when being positioned at chute, back-moving spring is in compressive state, and along with hook continues motion, hook leaves chute place, back-moving spring will promote fixture block and move outward towards chute, some protrudes from chute to make fixture block, and after manipulator all takes out part, hook can be towards the direction motion of die shoe, and in the process of hook motion, the 3rd chamfering on hook can contact with the first chamfering, thereby promote fixture block moves in chute, until the whole chute that is positioned at of fixture block, and along with the continuation campaign hook groove of slide block can be gradually close chute, when hook groove is just to chute time, back-moving spring just ejects fixture block, make a fixture block part be positioned at hook groove, thereby the work that can continue.
The utility model is further set to: the first described ejecting mechanism comprises the first liftout plate, the first liftout plate fixed head and several the first knock-pins, and the second described ejecting mechanism comprises the second liftout plate, the second liftout plate fixed head and several the second knock-pins.
By adopting technique scheme, under injection moulding state, the first knock-pin and the second knock-pin are positioned at punch place, and after injection mo(u)lding, hook drives the first liftout plate and the motion of the second liftout plate, and the first knock-pin and the second knock-pin will along with together with move, along with the continuation campaign of the first liftout plate and the second liftout plate, the first knock-pin and the second knock-pin can ejecting each part, and in the time that fixture block departs from hook groove, the first liftout plate continues motion, thereby the first knock-pin just continues part to eject, in the second liftout plate stop motion, the part being ejected by the second knock-pin also just can not move, thereby just there is certain distance in the part that the part that the first knock-pin ejects and the second knock-pin eject.
The utility model is further set to: the end face of the described relative chute of fixture block is provided with reseting groove, and described back-moving spring is positioned at reseting groove.
By adopting technique scheme, by a part for back-moving spring is placed in reseting groove, can saves space and can prevent spring bending.
The utility model is further set to: described reseting groove has 2 and be uniformly distributed on fixture block, in described reseting groove, is equipped with back-moving spring.
By adopting technique scheme, promote, in the process of fixture block motion, fixture block to be moved stably at back-moving spring.
Brief description of the drawings
Fig. 1 is the structural representation of the utility model cabinet air-conditioner air draught grid dedicated processing mould embodiment;
Fig. 2 is the partial enlarged drawing of A in Fig. 1;
Fig. 3 is the axonometric drawing that does not contain hook and fixture block of the utility model cabinet air-conditioner air draught grid dedicated processing mould embodiment;
Fig. 4 is the axonometric drawing that does not contain hook of the utility model cabinet air-conditioner air draught grid dedicated processing mould embodiment;
Fig. 5 is the installation diagram of the fixture block of the utility model cabinet air-conditioner air draught grid dedicated processing mould embodiment while being positioned at groove;
Fig. 6 is that the fixture block of the utility model cabinet air-conditioner air draught grid dedicated processing mould embodiment departs from installation diagram when groove;
Fig. 7 is the cutaway view of the second ejecting mechanism;
Fig. 8 is the structural representation of the first ejecting mechanism and the second ejecting mechanism.
Reference numeral: 1, upper bolster; 2, die; 3, punch; 4, cushion block; 5, die shoe; 6, hook; 61, hook groove; 7, slideway; 71, the second chamfering; 72, groove; 8, the first ejecting mechanism; 81, the first liftout plate; 82, the first liftout plate fixed head; 83, the first knock-pin; 9, the second ejecting mechanism; 91, the second liftout plate; 92, the second liftout plate fixed head; 93, the second knock-pin; 10, fixture block; 101, reseting groove; 102, the first chamfering; 11, chute; 12, back-moving spring.
Detailed description of the invention
Referring to figs. 1 through Fig. 8, the utility model cabinet air-conditioner air draught grid dedicated processing mould embodiment is described further.
A kind of cabinet air-conditioner air draught grid dedicated processing mould, comprise upper bolster 1, die 2, punch 3, 2 cushion blocks 4, liftout attachment and die shoe 5, described each parts are arranged successively, described liftout attachment is between 2 cushion blocks 4, described ejecting mechanism comprises the first ejecting mechanism 8 and the second ejecting mechanism 9, the first described ejecting mechanism 8 comprises the first liftout plate 81, first liftout plate fixed head 82 and several first knock-pins 83, the second described ejecting mechanism 9 comprises the second liftout plate 91, second liftout plate fixed head 92 and several second knock-pins 93, the second described ejecting mechanism 9 is between the first ejecting mechanism 8 and die shoe 5, the second described ejecting mechanism 9 side parallel with 2 cushion block 4 line directions is provided with chute 11, the fixture block 10 that is provided with back-moving spring 12 in described chute 11 and slides, one end of described fixture block 10 protrudes from chute 11, described chute 11 can be accommodated fixture block 10, the end face of described fixture block 10 relative chutes 11 is provided with 2 reseting grooves 101, described back-moving spring 12 has 2 and lay respectively in 2 reseting grooves 101 and be connected with fixture block 10, the other end of described back-moving spring 12 is connected with one end of chute 11, on the side of described die shoe 5, be fixed with the slideway 7 extending towards upper bolster 1, described slideway 7 is provided with the groove 72 of placing fixture block 10, the seamed edge that described fixture block 10 protrudes from relative first ejecting mechanism 8 in one end of chute 11 is provided with the first chamfering 102, described groove 72 is provided with second chamfering 71 corresponding with the first chamfering 102 back to one end of die shoe 5, in described slideway 7, be provided with hook 6, described hook 6 is provided with hook groove 61, one end that described fixture block 10 protrudes from chute 11 is positioned at hook groove 61, described hook 6 respectively with the first ejecting mechanism 8, die 2 is fixedly connected with, one end of described hook 6 relative die shoes 5 be provided with the first chamfering 102 with respect to the 3rd chamfering.
After part injection mo(u)lding, need to part be ejected by ejecting mechanism, at this moment drive hook 6 in the interior slip of slideway 7, and fixture block 10 is positioned at hook groove 61, hook 6 is owing to being connected with the first ejecting mechanism 8, therefore linking up with 6 can drive the first ejecting mechanism 8 to move together with the second ejecting mechanism 9 in the process of slideway 7 interior slips simultaneously, the first knock-pin 83 and the second knock-pin 93 will eject part, and now all part all in sustained height, the first chamfering 102 on fixture block 10 is against in the second chamfering 71, along with the continuation campaign of hook 6, because two bevel edges are conflicted mutually, fixture block 10 will be towards the interior slip of chute 11, until the whole chute 11 that is positioned at of fixture block 10, now back-moving spring 12 is in compressive state, and due to the existence of reseting groove 101, can effectively prevent that spring from bending and can reduce the degree of depth of chute 11, at this moment fixture block 10 just departs from hook groove 61, hook 6 just cannot pull the second ejecting mechanism 9, and the first ejecting mechanism 8 is still along with hook 6 together motion, and the part being ejected by the first ejecting mechanism 8 will be far away apart from the distance of punch 3 than the part being ejected by the second ejecting mechanism 9 apart from the distance of punch 3, thereby just form stereovision, facilitate manipulator pickup, and along with hook 6 continues motion, hook 6 leaves chute 11 places, back-moving spring 12 will promote fixture block 10 towards the outer motion of chute 11, some protrudes from chute 11 to make fixture block 10, and after manipulator all takes out part, hook 6 can be towards the direction motion of die shoe 5, and in the process of hook 6 motions, the 3rd chamfering on hook 6 can contact with the first chamfering 102, thereby promote fixture block 10 towards the interior motion of chute 11, until the whole chute 11 that is positioned at of fixture block 10, and along with the continuation campaign hook groove 61 of slide block can be gradually close chute 11, when hook groove 61 is just to chute 11 time, back-moving spring 12 just ejects fixture block 10, and owing to being evenly distributed with 2 reseting grooves on fixture block 10, in reseting groove, all there is back-moving spring 12, therefore back-moving spring 12 can be comparatively steady in promoting fixture block 10, when back-moving spring 12 recovers after nature, fixture block 10 parts are positioned at hook groove 61, thereby the work that can continue.
Claims (5)
1. a cabinet air-conditioner air draught grid dedicated processing mould, comprise upper bolster, die, punch, 2 cushion blocks, liftout attachment and die shoe, described each parts are arranged successively, described liftout attachment is between 2 cushion blocks, it is characterized in that: described ejecting mechanism comprises the first ejecting mechanism and the second ejecting mechanism, the second described ejecting mechanism is between the first ejecting mechanism and die shoe, the second described ejecting mechanism side parallel with 2 cushion block line directions is provided with chute, in described chute, be provided with the fixture block of slip, one end of described fixture block protrudes from chute, described chute can be accommodated fixture block, on the side of described die shoe, be fixed with the slideway extending towards upper bolster, described slideway is provided with the groove of placing fixture block, the seamed edge that described fixture block protrudes from relative first ejecting mechanism in one end of chute is provided with the first chamfering, described groove is provided with second chamfering corresponding with the first chamfering back to one end of die shoe, in described slideway, be provided with hook, described hook is provided with hook groove, one end that described fixture block protrudes from chute is positioned at hook groove, described hook respectively with the first ejecting mechanism, die is fixedly connected with.
2. cabinet air-conditioner air draught grid dedicated processing mould according to claim 1, it is characterized in that: in described chute, be provided with back-moving spring, one end of described back-moving spring is connected with fixture block, the other end of described back-moving spring and chute are connected back to one end of hook, one end of the described relative die shoe of hook be provided with the first chamfering with respect to the 3rd chamfering.
3. cabinet air-conditioner air draught grid dedicated processing mould according to claim 2, it is characterized in that: the first described ejecting mechanism comprises the first liftout plate, the first liftout plate fixed head and several the first knock-pins, the second described ejecting mechanism comprises the second liftout plate, the second liftout plate fixed head and several the second knock-pins.
4. cabinet air-conditioner air draught grid dedicated processing mould according to claim 3, is characterized in that: the end face of the described relative chute of fixture block is provided with reseting groove, and described back-moving spring is positioned at reseting groove.
5. cabinet air-conditioner air draught grid dedicated processing mould according to claim 4, is characterized in that: described reseting groove has 2 and be uniformly distributed on fixture block, in described reseting groove, is equipped with back-moving spring.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201420396773.1U CN203945581U (en) | 2014-07-18 | 2014-07-18 | Cabinet air-conditioner air draught grid dedicated processing mould |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201420396773.1U CN203945581U (en) | 2014-07-18 | 2014-07-18 | Cabinet air-conditioner air draught grid dedicated processing mould |
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CN203945581U true CN203945581U (en) | 2014-11-19 |
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CN201420396773.1U Expired - Fee Related CN203945581U (en) | 2014-07-18 | 2014-07-18 | Cabinet air-conditioner air draught grid dedicated processing mould |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108057843A (en) * | 2017-12-14 | 2018-05-22 | 重庆同益机械有限公司 | A kind of monolithic brake disc production mould |
-
2014
- 2014-07-18 CN CN201420396773.1U patent/CN203945581U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108057843A (en) * | 2017-12-14 | 2018-05-22 | 重庆同益机械有限公司 | A kind of monolithic brake disc production mould |
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Date | Code | Title | Description |
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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: 20141119 Termination date: 20150718 |
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EXPY | Termination of patent right or utility model |