CN210789389U - Positioning device for die side milling - Google Patents

Abstract

The utility model discloses a positioner for mould side milling, include: the frame body assembly, a plurality of fixing assemblies and an elastic assembly; the frame body assembly comprises a first frame body and a second frame body; the elastic assembly includes: the locking device comprises a first fixing plate, a locking assembly, a second fixing plate and an elastic piece; the first frame body is vertically connected with the second frame body, so that the first frame body and the second frame body form a right-angle position, the mold can be fixed at the right-angle position, and the moving probability of the mold is reduced; the elastic component is used for making first fixed plate and second fixed plate produce counter force, and the second support body is connected with the side of mould, and the second fixed plate is connected with the another side of mould, consequently is in under the circumstances of compression state at the elastic component, makes the second fixed plate produce pressure to the mould for the second support body is closely, laminate with the mould steadily, thereby keeps steady state when the mould is milling on the side, avoids the skew of mould emergence position, has improved the effect that the mould was milled on the side.

Description

Positioning device for die side milling

Technical Field

The utility model relates to a mould manufacturing technical field, concretely relates to a positioner for mould side milling.

Background

In the process of machining the die, the side face generally needs to be roughly milled to remove a blank on the side face of the die, and the existing positioning device has poor fixing effect on the die to be side milled, so that the die is easy to shift during side milling operation, and the milling effect of the die is reduced.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, an object of the utility model is to provide a positioner for mould side milling can fix the mould, makes the mould remain stable when the side milling operation, avoids the skew that the mould took place the position, has improved the effect that the mould side milled.

The utility model provides a technical scheme that its problem adopted is:

the utility model provides a positioner for mould side milling, include: the device comprises a frame body assembly, a plurality of fixing assemblies for fixing the die and an elastic assembly for keeping the die and the frame body assembly in a stable state; the frame body assembly comprises a first frame body for supporting a mould and a second frame body for fixing the mould, and the first frame body is vertically connected with the second frame body; the elastic assembly includes: the device comprises a first fixing plate, a locking assembly for fixing the first fixing plate, a second fixing plate for fixing the position of a mold and an elastic piece for enabling the first fixing plate and the second fixing plate to generate opposite force; the first fixing plate is connected with the locking assembly, and the first frame body is respectively connected with the locking assembly and the second fixing plate in a sliding manner; the fixing assembly is connected with the first frame body and/or the second frame body in a sliding mode; the second support body is connected with the side face of the mold, the second fixing plate is connected with the other side face of the mold, and the elastic piece is connected with the first fixing plate and the second fixing plate respectively so that the mold can be kept in a stable state between the second support body and the second fixing plate.

Furthermore, the surface of the first frame body is inwards sunken to form a plurality of first inverted T-shaped grooves; the locking assembly, the second fixing plate and the fixing assembly are respectively in sliding connection with the first inverted T-shaped groove.

Further, the locking assembly includes: the first nut and the first screw matched with the first inverted T-shaped groove; the first screw rod is respectively connected with the first fixing plate and the first inverted T-shaped groove in a sliding mode, and the first nut is in threaded connection with the first screw rod so as to fix the position of the first fixing plate.

Furthermore, the bottom surface of the second fixing plate is provided with a limiting block matched with the first inverted T-shaped groove; the limiting block is connected with the first inverted T-shaped groove in a sliding mode.

Further, the fixing assembly includes: the second nut, a second screw rod matched with the first inverted T-shaped groove, a third fixing plate for fixing a mold, a first positioning piece for fixing the second screw rod and a second positioning piece for fixing the third fixing plate; the third fixing plate can be detachably mounted on a mold and the second positioning piece, the second screw is respectively in sliding connection with the third fixing plate, the first positioning piece and the first inverted T-shaped groove, the second screw is in threaded connection with the second nut, and the first positioning piece is in threaded connection with the second positioning piece.

Further, the first positioning member includes: the first positioning column and a fixing block are used for fixing the second screw rod; the upper surface of the first positioning column is recessed inwards to form a threaded connecting hole; the fixing block is provided with a through hole; the second screw rod passes through the through-hole with fixed block sliding connection, the fixed block with the side of first locating column is connected, the second setting element pass through threaded connection hole with first locating column threaded connection.

Further, the second positioning member includes: the positioning plate is used for fixing the third fixing plate; the bottom surface of the positioning plate is connected with the top surface of the stud, the stud is in threaded connection with the first positioning column through the threaded connecting hole, and the third fixing plate can be detachably mounted on the positioning plate.

Further, the surface of the second frame body is inwards sunken to form a second inverted T-shaped groove; the fixing component is connected with the second inverted T-shaped groove in a sliding mode.

Further, the fixing assembly includes: the third screw is matched with the second inverted T-shaped groove, a third nut is used for fixing the third screw, a second positioning column and a third positioning piece are used for fixing the mould, and a fourth fixing plate is used for fixing the third positioning piece; the third screw rod respectively with the second groove of falling T-shaped with fourth fixed plate sliding connection, the third screw rod with third nut threaded connection, the fourth fixed plate can dismantle install in on the third setting element, the second reference column with third setting element threaded connection, the second reference column can dismantle and install on the mould.

The embodiment of the utility model provides an in the technical scheme who provides, following beneficial effect has at least: the fixing component is used for fixing the position of the mould; the first frame body is used for supporting the die, the second frame body is used for fixing the die, and the first frame body and the second frame body are vertically connected, so that the first frame body and the second frame body form a right-angle position, the die can be fixed at the right-angle position, and the moving probability of the die is reduced; locking Assembly is used for fixed first fixed plate position on first support body, the elastic component is used for making first fixed plate and second fixed plate produce counter force, the second support body is connected with the side of mould, the second fixed plate is connected with the another side of mould, consequently under the condition that the elastic component is in compression state, make the second fixed plate produce pressure to the mould, make second support body and mould inseparable, laminate steadily, thereby keep steady state when the mould is milling at the side, avoid the skew that the mould takes place the position, the effect that the mould side milled has been improved.

Drawings

The invention is further described with reference to the following figures and examples.

Fig. 1 is an overall structural view of an embodiment of a positioning device for die side milling according to the present invention;

FIG. 2 is a block diagram of the elastomeric component of one embodiment of the positioning device for die side milling of the present invention;

fig. 3 is a structural diagram of a second fixing plate of an embodiment of the positioning device for die side milling according to the present invention;

FIG. 4 is a block diagram of a stationary assembly of one embodiment of a positioning device for die side milling according to the present invention;

fig. 5 is a block diagram of a fixing assembly of another embodiment of the positioning device for die side milling according to the present invention.

Detailed Description

The existing positioning device has poor fixing effect on a mold to be side milled, so that the mold is easy to shift in position during side milling operation, and the milling effect of the mold is reduced. Based on this, the utility model provides a positioner for mould side milling can fix the mould, makes the mould remain stable when the side milling operation, avoids the skew that the mould took place the position, has improved the effect that the mould side milled.

The embodiments of the present invention will be further explained with reference to the drawings.

Referring to fig. 1, an embodiment of the present invention provides a positioning device for die side milling, including: a frame assembly 100, a plurality of fixing assemblies 200 for fixing a mold, and an elastic assembly 300 for maintaining a stable state between the mold and the frame assembly 100; the frame assembly 100 includes a first frame 110 for supporting a mold and a second frame 120 for fixing the mold, the first frame 110 being vertically connected to the second frame 120; the elastic member 300 includes: a first fixing plate 310, a locking assembly 320 for fixing the first fixing plate 310, a second fixing plate 330 for fixing a mold position, and an elastic member 340 for generating an opposing force to the first fixing plate 310 and the second fixing plate 330; the first fixing plate 310 is connected to the locking assembly 320, and the first frame body 110 is slidably connected to the locking assembly 320 and the second fixing plate 330; the fixing assembly 200 is slidably connected with the first frame 110 and/or the second frame 120; the second frame body 120 is connected to a side surface of a mold, the second fixing plate 330 is connected to the other side surface of the mold, and the elastic member 340 is connected to the first fixing plate 310 and the second fixing plate 330, respectively, so that the mold is maintained in a stable state between the second frame body 120 and the second fixing plate 330.

In the present embodiment, the fixing member 200 is used to fix the position of the mold; the first frame body 110 is used for supporting a mold, so that the mold is placed on the first frame body 110, the second frame body 120 is used for fixing the mold, and the first frame body 110 is vertically connected with the second frame body 120, so that the first frame body 110 and the second frame body 120 form a right-angled position, thereby enabling the mold to be fixed at the right-angled position, and reducing the moving direction and probability of the mold. The locking assembly 320 is used for fixing the position of the first fixing plate 310 on the first frame body 110, and the elastic member 340 is used for generating an opposing force between the first fixing plate 310 and the second fixing plate 330, that is, the elastic member 340 can generate a repulsive force between the first fixing plate 310 and the second fixing plate 330; when the mould side mills, certain vibrations can take place for the mould, lead to the skew of mould emergence position, because of the side of second support body 120 and mould is connected, second fixed plate 330 is connected with the another side of mould, so through setting up elastic component 340 and be connected with first fixed plate 310 and second fixed plate 330 respectively under the state of compression for second fixed plate 330 can produce pressure to the side of mould under the effect of elastic component 340, make and keep inseparable, stable laminating between second support body 120 and the mould. Wherein, according to the size and shape of the mold, the elastic member 340 can be in different compression states, so that the second fixing plate 330 can generate a different degree of pressure to the mold, thereby better adjusting the stability of the mold.

When the fixing assembly 200 is slidably connected with the first frame body 110, the fixing of the mold is realized by adjusting the position of the fixing assembly 200 on the first frame body 110; when the fixing assembly 200 is slidably connected with the second frame body 120, the fixing of the mold is realized by adjusting the position of the fixing assembly 200 on the second frame body 120; when the number of the fixing assemblies 200 is more than two, the fixing of the mold is simultaneously realized by arranging different fixing assemblies 200 to be respectively connected with the first frame body 110 and the second frame body 120 in a sliding manner. The fixing assembly 200 fixes the mold on the first frame 110, and the first fixing plate 310, the locking assembly 320, the second fixing plate 330 and the elastic member 340 fix the mold on the second frame 120; the first frame body 110 is vertically connected with the second frame body 120, so that the mold is fixed in a right-angle position formed by combining the first frame body 110 and the second frame body 120; under the combined action of the fixing assembly 200, the first fixing plate 310, the locking assembly 320, the second fixing plate 330, the elastic member 340, the first frame body 110 and the second frame body 120, the mold is in a stable state, so that the mold is kept stable during side milling, the position deviation of the mold is avoided, and the side milling effect of the mold is improved.

Further, another embodiment of the present invention also provides a positioning device for die side milling, wherein the surface of the first frame body 110 is recessed inwards to form a plurality of first inverted T-shaped grooves 111; the locking assembly 320, the second fixing plate 330 and the fixing assembly 200 are slidably connected to the first inverted T-shaped groove 111, respectively.

In this embodiment, the surface of the first frame body 110 is recessed inwards to form a plurality of first inverted T-shaped grooves 111, and the first fixing plate 310, the locking assembly 320 and the second fixing plate 330 are slidably connected to the same first inverted T-shaped groove 111, respectively, so that the elastic member 340 has the maximum elastic force on the second fixing plate 330 under the condition of the same elastic deformation, even though the elastic deformation efficiency of the elastic member 340 is the highest; the fixing member 200 is slidably coupled to the other first inverted T-shaped groove 111, so that the parts can simultaneously fix the mold and the mold is in a stable state. And the locking component 320, the second fixing plate 330 and the fixing component 200 are respectively in sliding connection with the first inverted T-shaped groove 111, so that the positions of the first fixing plate 310, the locking component 320, the second fixing plate 330 and the fixing component 200 in sliding connection with the first inverted T-shaped groove 111 can be flexibly adjusted according to different sizes or shapes of the die, and the adaptability of the positioning device is improved.

The distance between the first inverted T-shaped slots 111 may be the same, and the spatial positions between the first inverted T-shaped slots 111 and the second frame 120 may be perpendicular to each other.

Further, referring to fig. 2, another embodiment of the present invention also provides a positioning device for die side milling, wherein the locking assembly 320 includes: a first nut 321 and a first screw 322 engaged with the first inverted T-shaped groove 111; the first screw 322 is slidably connected to the first fixing plate 310 and the first inverted T-shaped groove 111, respectively, and the first nut 321 is in threaded connection with the first screw 322 to fix the position of the first fixing plate 310.

In this embodiment, the first screw 322 is engaged with and slidably connected to the first inverted T-shaped groove 111, and the first screw 322 is slidably connected to the first fixing plate 310. When the mold needs to be fixed, the sliding connection position of the first screw 322 in the first inverted T-shaped groove 111 is adjusted, so that the bottom of the first fixing plate 310 is connected with the surface of the first frame body 110; the first fixing plate 310 and the first frame body 110, the first screw rod 322 and the first inverted T-shaped groove 111 are in a fixed state by adjusting the threaded connection position of the first nut 321 and the first screw rod 322; the compression state of the elastic member 340 can be adjusted and controlled by adjusting the fixing positions of the first screw 322 and the first fixing plate 310 on the first frame body 110, so that the second fixing plate 330 generates different pressures to the mold, and the stability of the mold is adjusted.

Further, referring to fig. 3, another embodiment of the present invention further provides a positioning device for die side milling, wherein a stop block 331 engaged with the first inverted T-shaped groove 111 is disposed on a bottom surface of the second fixing plate 330; the stop block 331 is slidably connected to the first inverted T-shaped groove 111.

In this embodiment, the limit block 331 is matched with and slidably connected to the first inverted T-shaped groove 111, and the limit block 331 is disposed on the bottom surface of the second fixing plate 330, so that the second fixing plate 330 is slidably connected to the first inverted T-shaped groove 111 through the limit block 331, and the connection position between the second fixing plate 330 and the first inverted T-shaped groove 111 can be flexibly adjusted, thereby avoiding the second fixing plate 330 from deviating, improving the elastic efficiency of the elastic member 340 for the second fixing plate 330, and improving the fixing effect of the second fixing plate 330 for the mold.

Further, referring to fig. 4, another embodiment of the present invention also provides a positioning device for die side milling, wherein the fixing assembly 200 includes: a second nut 210, a second screw 220 engaged with the first inverted T-shaped groove 111, a third fixing plate 230 for fixing a mold, a first positioning member 240 for fixing the second screw 220, and a second positioning member 250 for fixing the third fixing plate 230; the third fixing plate 230 can be detachably mounted on the mold and the second positioning member 250, the second screw 220 is slidably connected to the third fixing plate 230, the first positioning member 240 and the first inverted T-shaped groove 111, the second screw 220 is in threaded connection with the second nut 210, and the first positioning member 240 is in threaded connection with the second positioning member 250.

In this embodiment, the second screw 220 is engaged with and slidably connected to the first inverted T-shaped groove 111; the third fixing plate 230 is used for fixing the mold, the first positioning member 240 is used for fixing the second screw 220, and the second positioning member 250 is used for fixing the third fixing plate 230; the bottom of the third fixing plate 230 is connected with the upper surface of the mold by adjusting the sliding connection positions between the second screw 220 and the first inverted T-shaped groove 111 and between the second screw 220 and the third fixing plate 230; by adjusting the threaded connection position of the first positioning member 240 and the second positioning member 250, that is, making the height of the second positioning member 250 consistent with the height of the mold, the second positioning member 250 supports the third fixing plate 230, that is, the bottom of the third fixing plate 230 is connected with the upper surface of the second positioning member 250, and the third fixing plate 230 is in a horizontal stable state under the action of the mold and the second positioning member 250; by adjusting the threaded connection position of the second screw 220 and the second nut 210, the second screw 220 and the first inverted T-shaped groove 111, the third fixing plate 230 and the mold, and the third fixing plate 230 and the second positioning member 250 are all in a fixed connection state, so that the mold is fixed on the first frame body 110. Wherein a communication hole may be provided at the center of the third fixing plate 230 such that the second screw 220 is connected with the third fixing plate 230 through the communication hole.

Therefore, the molds with different sizes or shapes can be fixed by adjusting the threaded connection positions of the first positioning piece 240 and the second positioning piece 250 and the threaded connection positions of the second screw 220 and the second nut 210, so that the adaptability of the positioning device is improved.

Further, another embodiment of the present invention also provides a positioning device for die side milling, wherein the first positioning member 240 includes: a first positioning column 241 and a fixing block 242 for fixing the second screw 220; the upper surface of the first positioning column 241 is recessed inwards to form a threaded connection hole; the fixing block 242 is provided with a through hole; the second screw 220 is slidably connected to the fixing block 242 through the through hole, the fixing block 242 is connected to the side surface of the first positioning post 241, and the second positioning member 250 is threadedly connected to the first positioning post 241 through the threaded connection hole.

In this embodiment, the upper surface of the first positioning column 241 is recessed inward to form a threaded connection hole, the second positioning element 250 is in threaded connection with the first positioning column 241 through the threaded connection hole, and the relative height of the second positioning element 250 is adjusted and controlled by adjusting the connection degree of the second positioning element 250 and the threaded connection hole, so as to fix the third fixing plate 230. The fixing block 242 is provided with a through hole, the second screw 220 is slidably connected with the fixing block 242 through the through hole, and the fixing block 242 is connected with the side surface of the first positioning column 241, so that the second screw 220 is arranged on the side surface of the first positioning column 241, which is convenient for adjusting the fixing position of the second positioning element 250 to the third fixing plate 230.

Further, another embodiment of the present invention also provides a positioning device for die side milling, wherein the second positioning member 250 includes: a stud 251 and a positioning plate 252 for fixing the third fixing plate 230; the bottom surface of the positioning plate 252 is connected to the top surface of the stud 251, the stud 251 is connected to the first positioning post 241 through the threaded connection hole, and the third fixing plate 230 is detachably mounted on the positioning plate 252.

In this embodiment, the positioning plate 252 is used to fix the third fixing plate 230, and the third fixing plate 230 can be detachably mounted on the positioning plate 252, that is, when the third fixing plate 230 needs to fix a mold, the third fixing plate 230 is connected with the positioning plate 252 to fix the third fixing plate 230; when the third fixing plate 230 does not need to fix the mold, the third fixing plate 230 is disconnected from the positioning plate 252. The bottom surface of the positioning plate 252 is connected with the top surface of the stud 251, and the stud 251 is in threaded connection with the first positioning column 241 through a threaded connection hole, so that the connection mode is simple, and the connection efficiency is improved. The area of the upper surface of the positioning plate 252 is not limited, and may be set according to the bottom area of the third fixing plate 230, so that the contact area between the positioning plate 252 and the third fixing plate 230 is large, thereby improving the fixing effect of the third fixing plate 230.

Further, another embodiment of the present invention also provides a positioning device for die side milling, wherein the surface of the second frame body 120 is recessed inwards to form a second inverted T-shaped groove 121; the fixing member 200 is slidably coupled to the second inverted T-shaped groove 121.

In this embodiment, the fixing component 200 is fixed on the second inverted T-shaped groove 121, and the fixing component 200 is slidably connected to the second inverted T-shaped groove 121, so that the fixing component 200 can adjust the connection position with the second inverted T-shaped groove 121 according to the placement position of the mold on the first frame body 110, and the fixing effect of the fixing component 200 on the mold is improved.

Further, referring to fig. 5, another embodiment of the present invention also provides a positioning device for die side milling, wherein the fixing assembly 200 includes: a third screw 260 engaged with the second inverted T-shaped groove 121, a third nut 270 for fixing the third screw 260, a second positioning column 280 and a third positioning member 290 for fixing a mold, and a fourth fixing plate 291 for fixing the third positioning member 290; the third screw 260 is slidably connected to the second inverted T-shaped groove 121 and the fourth fixing plate 291, the third screw 260 is threadedly connected to the third nut 270, the fourth fixing plate 291 is detachably mounted on the third positioning member 290, the second positioning column 280 is threadedly connected to the third positioning member 290, and the second positioning column 280 is detachably mounted on the mold.

In this embodiment, the third screw 260 is engaged with and slidably connected to the second inverted T-shaped groove 121; the third nut 270 is used for fixing the positions of the third screw 260 and the fourth fixing plate 291; the second positioning column 280 and the third positioning piece 290 are used for fixing the mold; the fourth fixing plate 291 is used to fix the third positioning member 290. When the mold needs to be fixed, adjusting the sliding position of the third screw 260 on the second inverted T-shaped groove 121, and fixing the position of the third screw 260 on the second inverted T-shaped groove 121 and the position of the fourth fixing plate 291 on the third screw 260 by the third nut 270; by adjusting the positions of the second positioning column 280 and the third positioning piece 290 on the upper surface of the mold and the degree of threaded connection between the third positioning piece 290 and the second positioning column 280, the upper surface of the third positioning piece 290 is connected with the bottom surface of the fourth fixing plate 291, so that the fourth fixing plate 291 can fix the second positioning column 280 and the third positioning piece 290, and the second positioning column 280 and the third positioning piece 290 can fix the mold; by adjusting the threaded connection degree between the third positioning member 290 and the second positioning post 280, the pressure of the fourth fixing plate 291 on the third positioning member 290 can be adjusted, so as to adjust the pressure of the second positioning post 280 on the upper surface of the mold, thereby improving the fixing effect of the mold.

In addition, referring to fig. 1 to 5, another embodiment of the present invention further provides a positioning device for die side milling, including: the first frame body 110, the second frame body 120, the first nut 321, the second nut 210, the third nut 270, the first screw 322, the second screw 220, the third screw 260, the first fixing plate 310, the second fixing plate 330, the third fixing plate 230, the fourth fixing plate 291, the first positioning post 241, the second positioning post 280, the fixing block 242, the stud 251, the positioning plate 252, the elastic member 340, and the third positioning member 290. The first frame body 110 is vertically connected with the second frame body 120; the surface of the first frame body 110 is recessed inwards to form a plurality of first inverted T-shaped grooves 111; a limiting block 331 matched with the first inverted T-shaped groove 111 is arranged on the bottom surface of the second fixing plate 330; the surface of the second frame body 120 is recessed inwards to form a second inverted T-shaped groove 121; the upper surface of the first positioning column 241 is recessed inwards to form a threaded connection hole; the fixing block 242 is provided with a through hole.

The first screw rod 322 is slidably connected with the first fixing plate 310, and the first nut 321 is in threaded connection with the first screw rod 322 to fix the position of the first fixing plate 310; the elastic member 340 is connected to the first fixing plate 310 and the second fixing plate 330, respectively, so that the mold is maintained in a stable state between the second frame body 120 and the second fixing plate 330; the third fixing plate 230 is detachably mounted on the mold and the positioning plate 252, the second screw 220 is slidably connected with the third fixing plate 230, the second screw 220 is in threaded connection with the second nut 210, the second screw 220 is slidably connected with the fixing block 242 through the through hole, the fixing block 242 is connected with the side surface of the first positioning column 241, the bottom surface of the positioning plate 252 is connected with the top surface of the stud 251, and the stud 251 is in threaded connection with the first positioning column 241 through the threaded connection hole; the third screw 260 is slidably connected to the second inverted T-shaped groove 121 and the fourth fixing plate 291, the third screw 260 is in threaded connection with the third nut 270, the fourth fixing plate 291 is detachably mounted on the third positioning member 290, the second positioning column 280 is in threaded connection with the third positioning member 290, and the second positioning column 280 is detachably mounted on the mold; the first inverted T-shaped groove 111 is slidably connected to the first screw 322, the stop block 331 and the second screw 220.

In this embodiment, the first frame body 110 is used for supporting a mold, the second frame body 120 is used for fixing the mold, and the first frame body 110 and the second frame body 120 are vertically connected, so that the first frame body 110 and the second frame body 120 form a right-angled position, and the mold can be fixed at the right-angled position, thereby reducing the probability of mold movement. The second nut 210, the second screw 220, the third fixing plate 230, the first positioning post 241, the fixing block 242, the stud 251 and the positioning plate 252 are used for fixing a mold, so that the mold is fixed on the first frame body 110; the first nut 321 and the first screw 322 are used for fixing the position of the first fixing plate 310 on the first frame body 110, the elastic member 340 is used for enabling the first fixing plate 310 and the second fixing plate 330 to generate an opposing force, the second frame body 120 is connected with a side surface of a mold, and the second fixing plate 330 is connected with the other side surface of the mold, so that under the condition that the elastic member 340 is in a compressed state, the second fixing plate 330 generates a pressure on the mold, so that the second frame body 120 is tightly and stably attached to the mold, a stable state is maintained when the mold is in a side milling process, the position deviation of the mold is avoided, and the side milling effect of the mold is improved.

While the preferred embodiments of the present invention have been described, the present invention is not limited to the above embodiments, and those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the present invention, and such equivalent modifications or substitutions are intended to be included within the scope of the present invention defined by the appended claims.

Claims (9)

1. A positioning device for die side milling, comprising: the device comprises a frame body assembly, a plurality of fixing assemblies for fixing the die and an elastic assembly for keeping the die and the frame body assembly in a stable state; the frame body assembly comprises a first frame body for supporting a mould and a second frame body for fixing the mould, and the first frame body is vertically connected with the second frame body; the elastic assembly includes: the device comprises a first fixing plate, a locking assembly for fixing the first fixing plate, a second fixing plate for fixing the position of a mold and an elastic piece for enabling the first fixing plate and the second fixing plate to generate opposite force; the first fixing plate is connected with the locking assembly, and the first frame body is respectively connected with the locking assembly and the second fixing plate in a sliding manner; the fixing assembly is connected with the first frame body and/or the second frame body in a sliding mode; the second support body is connected with the side face of the mold, the second fixing plate is connected with the other side face of the mold, and the elastic piece is connected with the first fixing plate and the second fixing plate respectively so that the mold can be kept in a stable state between the second support body and the second fixing plate.

2. A positioning device for die side milling according to claim 1, wherein: the surface of the first frame body is inwards sunken to form a plurality of first inverted T-shaped grooves; the locking assembly, the second fixing plate and the fixing assembly are respectively in sliding connection with the first inverted T-shaped groove.

3. A positioning device for die side milling according to claim 2, characterized in that: the locking assembly includes: the first nut and the first screw matched with the first inverted T-shaped groove; the first screw rod is respectively connected with the first fixing plate and the first inverted T-shaped groove in a sliding mode, and the first nut is in threaded connection with the first screw rod so as to fix the position of the first fixing plate.

4. A positioning device for die side milling according to claim 2, characterized in that: the bottom surface of the second fixing plate is provided with a limiting block matched with the first inverted T-shaped groove; the limiting block is connected with the first inverted T-shaped groove in a sliding mode.

5. A positioning device for die side milling according to claim 2, characterized in that: the fixing assembly includes: the second nut, a second screw rod matched with the first inverted T-shaped groove, a third fixing plate for fixing a mold, a first positioning piece for fixing the second screw rod and a second positioning piece for fixing the third fixing plate; the third fixing plate can be detachably mounted on a mold and the second positioning piece, the second screw is respectively in sliding connection with the third fixing plate, the first positioning piece and the first inverted T-shaped groove, the second screw is in threaded connection with the second nut, and the first positioning piece is in threaded connection with the second positioning piece.

6. A positioning device for die side milling according to claim 5, characterized in that: the first positioning member includes: the first positioning column and a fixing block are used for fixing the second screw rod; the upper surface of the first positioning column is recessed inwards to form a threaded connecting hole; the fixing block is provided with a through hole; the second screw rod passes through the through-hole with fixed block sliding connection, the fixed block with the side of first locating column is connected, the second setting element pass through threaded connection hole with first locating column threaded connection.

7. The positioning device for the die side milling according to claim 6, wherein: the second positioning member includes: the positioning plate is used for fixing the third fixing plate; the bottom surface of the positioning plate is connected with the top surface of the stud, the stud is in threaded connection with the first positioning column through the threaded connecting hole, and the third fixing plate can be detachably mounted on the positioning plate.

8. A positioning device for die side milling according to claim 1, wherein: the surface of the second frame body is inwards sunken to form a second inverted T-shaped groove; the fixing component is connected with the second inverted T-shaped groove in a sliding mode.

9. A positioning device for die side milling according to claim 8, wherein: the fixing assembly includes: the third screw is matched with the second inverted T-shaped groove, a third nut is used for fixing the third screw, a second positioning column and a third positioning piece are used for fixing the mould, and a fourth fixing plate is used for fixing the third positioning piece; the third screw rod respectively with the second groove of falling T-shaped with fourth fixed plate sliding connection, the third screw rod with third nut threaded connection, the fourth fixed plate can dismantle install in on the third setting element, the second reference column with third setting element threaded connection, the second reference column can dismantle and install on the mould.

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