CN2931064Y - Vertical compression type mould-clipping mechanism for hot press - Google Patents
Vertical compression type mould-clipping mechanism for hot press Download PDFInfo
- Publication number
- CN2931064Y CN2931064Y CN 200620123235 CN200620123235U CN2931064Y CN 2931064 Y CN2931064 Y CN 2931064Y CN 200620123235 CN200620123235 CN 200620123235 CN 200620123235 U CN200620123235 U CN 200620123235U CN 2931064 Y CN2931064 Y CN 2931064Y
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- mould
- platform
- oil
- clamping mechanism
- hot press
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Abstract
A direct pressing clamp mould mechanism for heat pressing machine comprises mainly a pair of side plates fixed on a stander, a static mould base between upper end of two side plates, a clamp mould mechanism arranged on the stander and a movable mould base arranged on the clamp mould mechanism, wherein, the clamp mould mechanism is an oil pressing tank. A piston of the oil pressing tank comprises a platform, the top of which is provided with the movable mould base. A side wall is connected with the circumference of the platform and extends into the interior of the oil pressing tank. An oil liquid space comprises the platform and the side wall. The action oil of the oil pressing tank is filled in the oil liquid space. The movable mould base and mould driven by the clamp mould mechanism has a deformation mode of inclined to the static mould base. Therefore, once the lock mould reversal force undertaken by the platform is uneven due to deformation of the static mould base, the pressing stress of the action oil makes the platform zone of little stress deform accordingly, thereby printing the decorative pattern on mould plane on the final product completely.
Description
Technical field
The utility model relates to hot press, more detailed it, mean the direct press type clamping mechanism of hot press.
Background technology
As Fig. 1, Fig. 2, the heat pressing forming machines primary structure generally comprises a quiet die holder 10, a dynamic model seat 11 and a clamping mechanism 12, respectively establishes a mould 13,14 on this quiet die holder 10 and this dynamic model seat 11.This clamping mechanism 15 provides action and required strength such as this hot-forming machine-operated mould, locked mode, die sinking.What Fig. 1 was represented is a kind of fluid pressure type clamping system (or claiming direct press type clamping mechanism); it utilizes the oil hydraulic cylinder force-output shaft 151 of dynamic model seat 11 axis directions to come clamping; this force-output shaft 151 is affixed with dynamic model seat 11; this dynamic model seat 11 is subjected to the effect of this force-output shaft 151 and moves, and reaches the purpose with quiet die holder 10 matched moulds, locked mode, die sinking.
The mould of above-mentioned direct press type clamping mechanism closes and locked mode strength is produced by the force-output shaft 151 of dynamic model seat 11 below axis directions; the locked mode strength of this force-output shaft 151 acts on the middle section of this dynamic model seat 11; this locked mode strength can be through mould 13,14, quiet die holder 10 and is reached side plate 16; and because of the locked mode strength that quiet die holder 10 middle sections are born can be greater than its neighboring area; in the course of time; the sightless distortion of naked eyes can take place in quiet die holder 10; other forms may also may take place in this distortion sample attitude as shown in Figure 3.But it is opposite; above-mentioned direct press type clamping mechanism 15; its sturdy force-output shaft 151 is to be a kind of hollow state; the dynamic model seat 11 and the mould 13 of these force-output shaft 151 peripheries have the identical deformation pattern of tending to quiet die holder 10 relatively; but dynamic model seat 11 and 13 on mould with respect to force-output shaft 151 hollow parts are subjected to these force-output shaft 151 thrusts obviously less, and the dynamic model seat 11 of this part just middle section of dynamic model seat 11 does not then produce the identical deformation pattern of tending to quiet die holder 10 or produces less deflection.Therefore during mould 13,14 matched moulds of this dynamic and static die holder 11,10, the locked mode gap takes place in its mould 13,14, though the overall shape of finished product is penetrated in these gaps unlikely influences of possibility, but the die face decorative pattern that may make gap location can't be successful transfer printing on finished product, perhaps the decorative pattern of finished surface has the disappearance of block.
What should specify is that for showing the problem in quiet die holder distortion and locked mode gap, Fig. 3 expresses the sightless situation of naked eyes with the sample attitude of exaggeration.
Summary of the invention
The utility model purpose is, a kind of direct press type clamping mechanism of hot press is provided, and the dynamic model seat is passed to clamp force on the mould and the identical deformation pattern of tending to quiet die holder is arranged, and then solve the locked mode clearance issues in the prior art.
Technical solutions of the utility model: a kind of direct press type clamping mechanism of hot press, this hot press has a pair of side plate that is fixed on the support, has a quiet die holder between the upper end of two side plates, has a clamping mechanism on this support, have a dynamic model seat in this clamping mechanism, the vertically opposite position of this dynamic model seat and this quiet die holder respectively has a mould; This clamping mechanism is an oil hydraulic cylinder, and this oil hydraulic cylinder has a piston body, has in this oil hydraulic cylinder to be subjected to one to advance/draining control system effect and control the start oil that this piston body moves back and forth; It is characterized in that: this piston body comprises:
One platform, above-mentioned dynamic model seat is positioned at this platform end face;
One is connected in the periphery of this platform and the sidewall that extends to the inside of this oil hydraulic cylinder; And
This platform and structure that this sidewall encloses have a fluid space in order to the start oil in this oil hydraulic cylinder of filling.
Wherein, this sidewall is that one is connected with the periphery of this platform.
Wherein, this platform has a main oil pressure acting surface.
The utility model progress effect: the utility model main purpose and effect are dynamic model seat and the mould that this clamping mechanism is driven, and have the identical deformation pattern of tending to this quiet die holder.The platform bottom surface that mainly is this piston body is a fluid space, this start oil riddles in this fluid space, and the compression strength of start oil acts on the main oil pressure acting surface of this platform bottom surface widely, when in case the locked mode reaction force that this platform upper surface bore becomes inequality because of the little distortion of quiet die holder, the compression strength of this start oil can make and be out of shape by the less land regions of reaction force thereupon, make the die face decorative pattern fully, successfully transfer printing is being penetrated on the finished product, the regionality disappearance that finished surface does not have in the prior art to be produced.
Description of drawings
Fig. 1 is the structural representation of known hot press and clamping mechanism.
Fig. 2 is the schematic diagram of this known hot press matched moulds.
When being this known hot press matched moulds, Fig. 3 because of quiet die holder distortion the schematic diagram in matched moulds gap takes place.
Fig. 4 is the structural representation of the utility model hot press and clamping mechanism.
Fig. 5 is the schematic diagram of the utility model hot press matched moulds.
Dynamic and static die holder cooperated deformation and eliminates the schematic diagram in matched moulds gap when Fig. 6 was the utility model hot press matched moulds.
The specific embodiment
Heat pressing forming machines as shown in Figure 4; primary structure generally comprises a pair of side plate 21 that is fixed on the support 20; establish a quiet die holder 22 between the upper end of two side plates 21; establish a clamping mechanism 30 on this support 20; establish a dynamic model seat 32 in this clamping mechanism 30, a mould 321,221 is respectively established in the vertically opposite position of this dynamic model seat 32 and this quiet die holder 22.This clamping mechanism 30 provides action and required strength such as this hot-forming machine-operated mould, locked mode, die sinking.
This clamping mechanism 30 is an a kind of fluid pressure type clamping system, comprises an oil hydraulic cylinder 33, is an oil groove 34 in the cylinder, establishes a piston body 35 in this oil groove 34.This piston body 35 has special shape, mainly comprises a platform 351, is connected in this platform 351 peripheries and the sidewall 352 that extends and by this platform 351 and the fluid space 353 that structure forms that this sidewall 352 encloses in this oil groove 34; The surface in relative this fluid space 353 of this platform 351 is a main oil pressure acting surface 354, and the bottom of this sidewall 352 then is auxiliary oil pressure acting surface 355; These platform 351 end faces are provided with the dynamic model seat 32 of this heat pressing forming machines, establish above-mentioned mould 321 on this dynamic model seat 32.
The start oil of this oil hydraulic cylinder 33 is subjected to one to advance/effect of draining control system 36, the start oil of scheduled volume is entered in the oil groove 34 with a kind of pressurized state, start oil acts on the above-mentioned main oil pressure acting surface 354 of this piston body 35 and should auxiliary oil pressure acting surface 355, this piston body 35 is moved up, reach the purpose of Guan Mo, locked mode, as Fig. 5.Otherwise during die sinking, this advances/and draining control system 36 control start oil release scheduled volume, and this piston body 35 descends and returns original position again.
The mould of the utility model direct press type clamping mechanism closes and locked mode strength is produced by the piston body 35 of dynamic model seat 32 below axis directions; the locked mode strength of this piston body 35 acts on the bottom surface of this whole dynamic model seat 32, and this locked mode strength can be through mould 321,221, quiet die holder 22 and reached two side plates 21.The locked mode strength that acts on these dynamic model seat 32 bottom surfaces is with respect to the middle section of this quiet die holder 22, so the locked mode strength that these quiet die holder 22 middle sections are born can be greater than its neighboring area, in the course of time, the sightless distortion of naked eyes can take place in this quiet die holder 22, other forms may also may take place in this distortion sample attitude as shown in Figure 6.For ease of explanation, Fig. 6 shows this distortion sample attitude with a kind of comparatively manifestation mode of exaggeration.
In Fig. 6, the platform 351 of this piston body 35 has the identical deformation pattern of tending to this quiet die holder 22.Platform 351 bottom surfaces that mainly are this piston body 35 are a fluid space 353, this start oil riddles in this fluid space 353, and the compression strength of start oil acts on the main oil pressure acting surface 354 of these platform 35 bottom surfaces widely, in case when the locked mode reaction force that these platform 351 upper surfaces are born was unequal, the compression strength of this start oil can make and be out of shape by the less land regions of reaction force thereupon.Situation with Fig. 6, arch upward on the mediad of this quiet die holder 22 and mould 221 thereof, when this dynamic model seat 32 and mould 321 and quiet die holder 22 and mould 221 locked modes thereof, the zone that the central authorities of this quiet die holder 22 and mould 221 arch upward can be less than other zones to the locked mode reaction force of this dynamic model work 32 and mould 321 thereof, again because the compression strength that the main oil pressure acting surface 354 of platform 35 bottom surfaces of piston body 35 bears start oil widely, this compression strength equates with the locked mode reaction force, therefore can be greater than the arch upward locked mode reaction force in zone of above-mentioned central authorities, the compression strength of this start oil can make the middle section of this dynamic model seat and mould also produce the upwards tendency of distortion, and then make, quiet die holder 32,22 mould 321,221 driving fits completely when locked mode, and do not have the locked mode gap to produce.So even the sightless little distortion of naked eyes has taken place for this quiet die holder and mould, this dynamic model work 32 and piston body 35 can be fitted and just be remedied this little distortion, eliminate the locked mode gap.This for die face tool decorative pattern must transfer printing penetrate finished product this partly be quite favourable because can make the die face decorative pattern fully, successfully transfer printing is being penetrated on the finished product, the regionality disappearance that finished surface does not have in the prior art to be produced.
Though the utility model is to do explanation with a most preferred embodiment, is skillful in this skill person and can makes various multi-form changes not breaking away under the utility model spirit and the category.Above illustrated embodiment is only in order to explanation the utility model, and is non-in order to limit scope of the present utility model.Such as do not disobey various modifications or the variation that the utility model spirit is engaged in, all belong to the utility model claim.
Claims (3)
1. the direct press type clamping mechanism of a hot press, this hot press has a pair of side plate (21) that is fixed on the support (20), has a quiet die holder (22) between the upper end of two side plates (21), has a clamping mechanism (30) on this support (20), have a dynamic model seat (32) in this clamping mechanism (30), the vertically opposite position of this dynamic model seat (32) and this quiet die holder (22) respectively has a mould (321) (221); This clamping mechanism (30) is an oil hydraulic cylinder (33), and this oil hydraulic cylinder (33) has a piston body (35), has in this oil hydraulic cylinder (33) to be subjected to one to advance/draining control system (36) effect and control the start oil that this piston body (35) moves back and forth; It is characterized in that: this piston body (35) comprising:
One platform (351), above-mentioned dynamic model seat (32) is positioned at this platform (351) end face;
One is connected in periphery of this platform (351) and the sidewall (352) that extends to the inside of this oil hydraulic cylinder (33); And
This platform (351) and this sidewall (352) enclose structure a fluid space (353) in order to the start oil in this oil hydraulic cylinder of filling (33).
2. the direct press type clamping mechanism of hot press according to claim 1, it is characterized in that: this sidewall (352) is that one is connected with the periphery of this platform (351).
3. the direct press type clamping mechanism of hot press according to claim 1, it is characterized in that: this platform (351) has a main oil pressure acting surface (354).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN 200620123235 CN2931064Y (en) | 2006-08-01 | 2006-08-01 | Vertical compression type mould-clipping mechanism for hot press |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN 200620123235 CN2931064Y (en) | 2006-08-01 | 2006-08-01 | Vertical compression type mould-clipping mechanism for hot press |
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CN2931064Y true CN2931064Y (en) | 2007-08-08 |
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CN 200620123235 Expired - Fee Related CN2931064Y (en) | 2006-08-01 | 2006-08-01 | Vertical compression type mould-clipping mechanism for hot press |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101380824B (en) * | 2007-09-07 | 2010-09-29 | 洪荣崇 | Pressure-equalizing device for microstructure transfer printing |
-
2006
- 2006-08-01 CN CN 200620123235 patent/CN2931064Y/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101380824B (en) * | 2007-09-07 | 2010-09-29 | 洪荣崇 | Pressure-equalizing device for microstructure transfer printing |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20070808 Termination date: 20100801 |