CN105414293A - High-efficiency mould device - Google Patents

Abstract

A high-efficiency mould device comprises a frame (9), a movable convex mould (8) which is opposite to a concave mould (91) arranged at the bottom of the frame (9), is circumferentially fixed in an inner cavity (90) in the bottom of the frame (9) and is movable in the axial direction, and a connection bearing pillar (7), wherein the lower end of the connection bearing pillar (7) passes through a lower flexible connection piece (78) and is connected with the movable convex mould (8); the movable convex mould (8) is fixed with the connection bearing pillar (7) in the circumferential direction through a plurality of convex mould extension parts (81) which are fixedly arranged on the upper surface and slidably stretch into the connection bearing pillar (7); the upper end of the connection bearing pillar (7) is connected with a thread block (6) in a threaded cooperation manner in a threaded sleeve (5) through an upper flexible connection piece (76).

Description

A kind of high efficiency die device

Technical field

The present invention relates to mould manufacturing field, especially a kind of high efficiency die device.

Background technology

In die device, some mould screw-downs are often adopted to drive dynamic model.Type of drive often has fluid pressure type and screw-type etc.For small-sized mold pressing processing, screw-type drives the advantage pressing down and can have cost reduction and be convenient to safeguard.

Threaded engagement itself has self-locking performance, and therefore the mode that presses down of this pattern can carry dynamic model gravity and other loads well, and makes Whole Equipment have good stability.

But the measure of precision due to threaded engagement has influence on running precision and the transmission efficiency of equipment, easily impact load is conducted to threaded engagement position when dynamic model is subject to extraneous accidental shock, this can cause threaded engagement to be affected.Especially in the cargo handling process of workpiece and especially true in the transportation of equipment.

Summary of the invention

The object of the present invention is to provide a kind of high efficiency die device, it can overcome above-mentioned defect of the prior art.

According to the present invention, a kind of high efficiency die device, comprise frame, relative with the die of the bottom being arranged on described frame and in the bottom inner chamber of described frame fixing and movable force plug movable in the axial direction and connect bolster stake in circumference, the lower end of described connection bolster stake is connected with described movable force plug by lower Flexible Connector, and described movable force plug is by being fixedly installed at upper surface and the multiple punch extension stretched into slidably in described connection bolster stake and be connected bolster stake fix in the circumferential with described, the upper end of described connection bolster stake is connected with the threaded block of threaded engagement in threaded sleeve by upper Flexible Connector, and described threaded block is by being fixedly installed at lower surface and the multiple threaded block extension stretched into slidably in described connection bolster stake and be connected bolster stake fix in the circumferential with described, described threaded sleeve to be carried on rotationally in described frame and to be driven by the drive motors be installed in described frame, wherein, the side of described connection bolster stake is provided with the lock slots that many circumferences extend, in order to be symmetricly set in the described locking teeth be connected on the locking position block of bolster stake both sides and coordinate thus the axial location of described connection bolster stake is locked, each in two described locking position blocks is all fixedly installed the piston piece that can slide in corresponding plunger shaft, described piston piece to upwards extend and can be fixedly connected with by the corresponding swinging plate engaged be fixedly installed in the turning wheel diametrically relatively on both sides of described threaded sleeve, stir described locking position block thus overcome the elastic force of elasticity of compression parts and do outwards to slide to depart from and the described joint being connected bolster stake, described piston piece delay component by action and by described elasticity of compression parts inside forced to move time to be compared to mutually with described outside slip and slowly inwardly to slide, the locking teeth of described locking position block is made to keep departing from the described bolster stake that is connected during driving described turning wheel to rotate with the described threaded sleeve of box lunch, described connection bolster stake is allowed to move up and down by the driving of described threaded block thus, when after described threaded sleeve stall, described locking position block slowly inwardly slides thus is locked by the axial location of described connection bolster stake, to cut off from described movable force plug to the load transfer of described threaded block, described movable force plug both sides are equipped with roller, described roller is fixedly connected with described movable force plug by described movable force plug side, described roller rolls by described frame side and described frame and is connected, and described roller is for improving flexibility when described movable force plug moves up and down.

By such scheme, owing to being provided with the fixture block that the axial location connecting bolster stake can be locked, therefore, it is possible to avoid the impact of automatic mold to be directly conducted to threaded engagement position.And by arranging unidirectional slow action mechanism, can make to lock fixture block moves relatively slow in the process resetted, to utilize threaded sleeve stirring driving effect and keeping fixture block to open to avoid interference the motion of dynamic model operationally; And, thus protection thread fiting part out of service rear automatically to the locking of connection bolster stake at threaded sleeve.By being arranged on the elastomeric element at the place of two ends up and down connecting bolster stake, make the connection between threaded block and dynamic model have floatability, and ensure that the starting stage of rotating at threaded sleeve provides certain angle of rotation free degree when locking fixture block and not yet unlocking.And more can prevent the transmission risk of impact.And by extension and being slidably matched of hole being connected bolster stake, can double thread block carries out between frame while the shock-absorbing capacity ensureing elastomeric element circumference fix, to ensure equipment reliability of operation.Whole plant running is reliable and stable, can solve the problem of screw thread protection very well.

Accompanying drawing explanation

Fig. 1 schematically illustrates a kind of schematic diagram of high efficiency die device.

Fig. 2 shows the relativeness schematic diagram between threaded sleeve in Fig. 1 and swinging plate.

Fig. 3 is the details diagram of the connection bolster stake near sites in Fig. 1.

Detailed description of the invention

Be described below in conjunction with Fig. 1-3 pairs of embodiments of the present invention.

With reference to Fig. 1-3, according to the high efficiency die device of embodiment, comprise frame 9, relative with the die 91 of the bottom being arranged on described frame 9 and in the bottom inner chamber 90 of described frame 9 fixing and movable force plug 8 movable in the axial direction and connect bolster stake 7 in circumference, the lower end of described connection bolster stake 7 is connected with described movable force plug 8 by lower Flexible Connector 78, and described movable force plug 8 is by being fixedly installed at upper surface and the multiple punch extension 81 stretched into slidably in described connection bolster stake 7 and fixing in the circumferential with the described bolster stake 7 that is connected, the upper end of described connection bolster stake 7 is connected with the threaded block 6 of threaded engagement in threaded sleeve 5 by upper Flexible Connector 76, and described threaded block 6 is by being fixedly installed at lower surface and the multiple threaded block extension 61 stretched into slidably in described connection bolster stake 7 and fixing in the circumferential with the described bolster stake 7 that is connected, described threaded sleeve 5 to be carried on rotationally in described frame 9 and to be driven by the drive motors 59 be installed in described frame 9, wherein, the side of described connection bolster stake 7 is provided with the lock slots that many circumferences extend, in order to coordinate with the locking teeth be symmetricly set on the described locking position block 4 being connected bolster stake 7 both sides thus to be locked by the axial location of described connection bolster stake 7, each in two described locking position blocks 4 is all fixedly installed the piston piece 43 that can slide in corresponding plunger shaft 901, described piston piece 43 to upwards extend and can be fixedly connected with by the corresponding swinging plate engaged 41 be fixedly installed in the turning wheel 51 diametrically relatively on both sides of described threaded sleeve 5, stir described locking position block 4 thus overcome the elastic force of elasticity of compression parts 49 and do outwards to slide to depart from and the described joint being connected bolster stake 7, described piston piece 43 delay component by action and by described elasticity of compression parts 49 inside forced to move time to be compared to mutually with described outside slip and slowly inwardly to slide, the locking teeth of described locking position block 4 is made to keep departing from the described bolster stake 7 that is connected during driving described turning wheel 51 to rotate with the described threaded sleeve of box lunch 5, described connection bolster stake 7 is allowed to move up and down by the driving of described threaded block 6 thus, when after the stall of described threaded sleeve 5, described locking position block 4 slowly inwardly slides thus is locked by the axial location of described connection bolster stake 7, to cut off from described movable force plug 8 to the load transfer of described threaded block 6, described movable force plug 8 both sides are equipped with roller 92, described roller 92 is fixedly connected with described movable force plug 8 by described movable force plug 8 side, described roller 92 rolls by described frame 9 side and described frame 9 and is connected, and described roller 92 is for improving flexibility when described movable force plug 8 moves up and down.

Valuably, wherein, described action delays component and comprises the check valve 42 and choke valve 43 that are connected with described piston piece 43, when described piston piece 43 outwards slides, described check valve 42 is opened thus allows air-flow to enter the annular seal space of the inner side of described piston piece 43, to allow relatively outwards sliding fast of described locking position block 4; When described piston piece 43 inwardly slides, described check valve 42 is closed, thus the gas in the annular seal space of the inner side of described piston piece 43 is discharged by described choke valve 43, to realize slowly inwardly sliding of described locking position block 4.

Valuably, the tooth top of described locking teeth has chamfered portion in order to coordinate leading for the described clamping lock motion being connected bolster stake 7 to described clamping block 4 with the inclined-plane at described lock slots place.

Valuably, it is for mould process sheet type workpiece.

Owing to being provided with the fixture block that the axial location connecting bolster stake can be locked, therefore, it is possible to avoid the impact of automatic mold to be directly conducted to threaded engagement position.And by arranging unidirectional slow action mechanism, can make to lock fixture block moves relatively slow in the process resetted, to utilize threaded sleeve stirring driving effect and keeping fixture block to open to avoid interference the motion of dynamic model operationally; And, thus protection thread fiting part out of service rear automatically to the locking of connection bolster stake at threaded sleeve.By being arranged on the elastomeric element at the place of two ends up and down connecting bolster stake, make the connection between threaded block and dynamic model have floatability, and ensure that the starting stage of rotating at threaded sleeve provides certain angle of rotation free degree when locking fixture block and not yet unlocking.And more can prevent the transmission risk of impact.And by extension and being slidably matched of hole being connected bolster stake, can double thread block carries out between frame while the shock-absorbing capacity ensureing elastomeric element circumference fix, to ensure equipment reliability of operation.

By with upper type, those skilled in the art can make various change according to mode of operation within the scope of the invention.

Claims (4)

1. a high efficiency die device, comprise frame (9), relative with the die (91) of the bottom being arranged on described frame (9) and fixing and movable in the axial direction in circumference in the bottom inner chamber (90) of described frame (9) movable force plug (8), and connect bolster stake (7), the lower end of described connection bolster stake (7) is connected with described movable force plug (8) by lower Flexible Connector (78), described movable force plug (8) is by being fixedly installed at upper surface and the multiple punch extension (81) stretched into slidably in described connection bolster stake (7) and fixing in the circumferential with the described bolster stake (7) that is connected, the upper end of described connection bolster stake (7) is connected with the threaded block (6) of threaded engagement in threaded sleeve (5) by upper Flexible Connector (76), and described threaded block (6) is by being fixedly installed at lower surface and the multiple threaded block extension (61) stretched into slidably in described connection bolster stake (7) and fixing in the circumferential with the described bolster stake (7) that is connected, described threaded sleeve (5) to be carried on rotationally in described frame (9) and to be driven by the drive motors (59) be installed in described frame (9), wherein, the side of described connection bolster stake (7) is provided with the lock slots that many circumferences extend, in order to be symmetricly set in the described locking teeth be connected on the locking position block (4) of bolster stake (7) both sides and coordinate thus the axial location of described connection bolster stake (7) is locked, each being all fixedly installed in two described locking position blocks (4) can at the middle piston piece (43) slided of corresponding plunger shaft (901), described piston piece (43) to upwards extend and can be fixedly connected with by the corresponding swinging plate engaged (41) be fixedly installed in the turning wheel (51) diametrically relatively on both sides of described threaded sleeve (5), stir described locking position block (4) thus overcome the elastic force of elasticity of compression parts (49) and do outwards to slide to depart from and the described joint being connected bolster stake (7), described piston piece (43) delay component by action and by described elasticity of compression parts (49) inside forced to move time to be compared to mutually with described outside slip and slowly inwardly to slide, the locking teeth of described locking position block (4) is made to keep departing from the described bolster stake (7) that is connected during driving described turning wheel (51) to rotate with the described threaded sleeve of box lunch (5), described connection bolster stake (7) is allowed to move up and down by the driving of described threaded block (6) thus, when after described threaded sleeve (5) stall, described locking position block (4) is slowly inwardly slided thus is locked by the axial location of described connection bolster stake (7), to cut off the load transfer from described movable force plug (8) to described threaded block (6), described movable force plug (8) both sides are equipped with roller (92), described roller (92) is fixedly connected with described movable force plug (8) by described movable force plug (8) side, described roller (92) rolls by described frame (9) side and described frame (9) and is connected, described roller (92) is for improving flexibility when described movable force plug (8) moves up and down.

2. high efficiency die device as claimed in claim 1, wherein, described action delays component and comprises the check valve (42) and choke valve (43) that are connected with described piston piece (43), when described piston piece (43) outwards slides, described check valve (42) is opened thus allows air-flow to enter the annular seal space of the inner side of described piston piece (43), to allow relatively outwards sliding fast of described locking position block (4); When described piston piece (43) inwardly slides, described check valve (42) is closed, thus the gas in the annular seal space of the inner side of described piston piece (43) is discharged by described choke valve (43), to realize slowly inwardly sliding of described locking position block (4).

3. high efficiency die device as claimed in claim 1 or 2, the tooth top of described locking teeth has chamfered portion in order to coordinate leading for the described clamping lock motion being connected bolster stake (7) to described clamping block (4) with the inclined-plane at described lock slots place.

4. high efficiency die device as claimed in claim 1 or 2, it is for mould process sheet type workpiece.