CN221604364U - Fixing device for mold processing - Google Patents

Abstract

The utility model provides a fixing device for mold processing, which relates to the technical field of molds and comprises a limiting structure; the last swing joint of limit structure has coupling mechanism, and coupling mechanism's both sides respectively swing joint have clamping structure, and clamping structure's inside swing joint has fixed establishment, and limit structure's bottom fixedly connected with linkage structure, linkage structure simultaneously with fixed establishment swing joint, coupling mechanism includes: the connecting frame comprises a connecting frame, cushion blocks, connecting shafts A and gears, wherein the cushion blocks are fixedly connected to the periphery of the bottom of the connecting frame respectively, the connecting shafts A are fixedly connected to the two sides of the connecting frame respectively, one end of each connecting shaft A is fixedly connected with a gear, the connecting frame can rotate around a supporting column through the connecting shafts A, and the connecting frame can also simultaneously carry a die to turn over to process the front surface and the back surface of the die during rotation.

Description

Fixing device for mold processing

Technical Field

The utility model relates to the technical field of dies, in particular to a fixing device for die machining.

Background

The mould is used for producing various moulds and tools of the needed products by injection molding, blow molding, extrusion, die casting or forging, smelting, stamping and other methods in industry. In short, the mold is a tool for producing a molded article, and the mold is also an aid for various tools before processing.

The inventor finds that when the existing fixing device for die machining is used, most of clamps cannot effectively turn over after bearing and fixing the die, meanwhile, the front side and the back side of the die are convenient to machine respectively, only the die can be turned over to be fixed again, and the machining efficiency of die machining is easy to be affected.

Disclosure of utility model

The present utility model is directed to a fixing device for mold processing, which solves the problems of the prior art to a certain extent.

The utility model discloses fixing device is used in mould processing is reached by following concrete technical means:

a fixing device for mold processing comprises a limiting structure; the last swing joint of limit structure has coupling mechanism, and coupling mechanism's both sides respectively swing joint have clamping structure, and clamping structure's inside swing joint has fixed establishment, and limit structure's bottom fixedly connected with linkage structure, linkage structure simultaneously with fixed establishment swing joint, coupling mechanism includes: the connecting device comprises a connecting frame, cushion blocks, connecting shafts A and gears, wherein the cushion blocks are fixedly connected to the periphery of the bottom of the connecting frame respectively, the connecting shafts A are fixedly connected to the two sides of the connecting frame respectively, and one end of each connecting shaft A is fixedly connected with a gear.

Further, the limit structure includes: bottom plate, support column, dead lever, elastic component A, rotation groove, rack, the both sides of bottom plate are fixedly connected with support column respectively, fixedly connected with dead lever in the support column, swing joint has elastic component A on the dead lever, is equipped with rotation groove on the support column, and the rack respectively with support column, dead lever sliding connection, elastic component A's both ends laminate mutually with dead lever, rack respectively.

Further, the connecting mechanism further comprises: connecting plate, bolt, baffle, swing joint have the bolt on the link, and the connecting plate passes through bolt swing joint in the both sides of link, and baffle simultaneous fixed connection is at the top of link, and the bolt is simultaneously with baffle swing joint, and connecting axle A passes through the rotary groove and is connected with the support column rotation, gear and rack swing joint simultaneously.

Further, the clamping structure includes: the fixing frame, the slide bar, limiting plate A, elastic component B, splint A, splint B, preformed hole are equipped with the preformed hole on the fixing frame, and the fixing frame passes through preformed hole and bolt swing joint, and sliding connection has the slide bar on the fixing frame, fixedly connected with limiting plate A on the slide bar, and simultaneously swing joint has elastic component B on the slide bar, and elastic component B's both ends laminate with fixing frame, limiting plate A respectively, and the bottom fixedly connected with splint A of slide bar, one side fixedly connected with splint B of fixing frame.

Further, the fixing mechanism includes: the device comprises a rotating column, nuts, telescopic rods, fixing plates, guide rods and limiting plates B, wherein the rotating column is rotationally connected with a fixing frame through a preformed hole, nuts are fixedly connected in the rotating column and are rotationally connected with the telescopic rods simultaneously, one ends of the telescopic rods are fixedly connected with the fixing plates, the guide rods are fixedly connected with the two sides of the fixing plates simultaneously, the guide rods are in sliding connection with the fixing frame through the preformed hole, one ends of the guide rods are fixedly connected with the limiting plates B simultaneously, the limiting plates B are attached to one side of the fixing frame, and the rotating column is attached to a clamping plate A and a clamping plate B respectively.

Further, the linkage structure includes: the connecting device comprises a connecting ring, a rotary table, a driving belt, a connecting block and a connecting shaft B, wherein the connecting ring is respectively and fixedly connected to a rotating column, the rotary table is respectively and fixedly connected to two ends of the connecting shaft B, the connecting shaft B is simultaneously and rotatably connected with the connecting block, the connecting block is fixedly connected to the bottom of a fixing frame, and two ends of the driving belt are respectively and movably connected with the connecting ring and the rotary table.

Compared with the prior structure, the utility model has the following advantages:

1. According to the utility model, the connecting frame can rotate around the supporting column through the connecting shaft A, and the connecting frame can simultaneously carry the die to overturn while rotating, so that the front and back surfaces of the die can be effectively processed in the overturning process, the condition that the die needs to be repeatedly adjusted and fixed during processing is avoided, and the working efficiency of the die during processing is improved.

2. According to the fixing mechanism, the telescopic rod, the guide rod and the fixing plate can be controlled to automatically slide through the rotating column and the nut, meanwhile, the dies can be effectively fixed from two sides through the fixing plate, the dies are prevented from being separated from the inside of the connecting frame during processing, meanwhile, the clamping plate A can be controlled to be well attached to the rotating column through the elastic piece B, and the rotating column is limited through the clamping plate A and the clamping plate B.

3. According to the ventilation mechanism, the two groups of rotating columns can be controlled to rotate simultaneously through the transmission belt and the connecting shaft B, and when the rotating columns rotate simultaneously, the two groups of fixing plates can be controlled to slide respectively and clamp and fix the die, so that the die is prevented from falling out of the connecting frame, and the control mode is simple and convenient to operate manually.

Drawings

FIG. 1 is a schematic top view of the present utility model;

FIG. 2 is a schematic diagram of a limiting structure according to the present utility model;

FIG. 3 is a schematic view of the structure of the connecting mechanism of the present utility model;

FIG. 4 is a schematic view of a clamping structure according to the present utility model;

FIG. 5 is a schematic structural view of the fixing mechanism of the present utility model;

Fig. 6 is a schematic structural view of the linkage structure of the present utility model.

In the figure:

1. a limit structure; 101. a bottom plate; 102. a support column; 103. a fixed rod; 104. an elastic member A; 105. a rotating groove; 106. a rack;

2. A connecting mechanism; 201. a connecting frame; 202. a cushion block; 203. a connecting plate; 204. a bolt; 205. a baffle; 206. a connecting shaft A; 207. a gear;

3. a clamping structure; 301. a fixing frame; 302. a slide bar; 303. a limiting plate A; 304. an elastic member B; 305. a clamping plate A; 306. a clamping plate B; 307. a preformed hole;

4. A fixing mechanism; 401. rotating the column; 402. a nut; 403. a telescopic rod; 404. a fixing plate; 405. a guide rod; 406. a limiting plate B;

5. A linkage structure; 501. a connecting ring; 502. a turntable; 503. a transmission belt; 504. a connecting block; 505. and a connecting shaft B.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples.

Embodiment one:

Referring to fig. 1 to 6, a fixing device for mold processing comprises a limit structure 1; the last swing joint of limit structure 1 has coupling mechanism 2, and coupling mechanism 2's both sides respectively swing joint has clamping structure 3, and clamping structure 3's inside swing joint has fixed establishment 4, and limit structure 1's bottom fixedly connected with linkage structure 5, linkage structure 5 simultaneously with fixed establishment 4 swing joint, coupling mechanism 2 includes: the connecting frame 201, the cushion block 202, the connecting shaft A206 and the gear 207, wherein the cushion block 202 is fixedly connected to the periphery of the bottom of the connecting frame 201 respectively, the connecting shaft A206 is fixedly connected to two sides of the connecting frame 201 respectively, one end of the connecting shaft A206 is fixedly connected with the gear 207 simultaneously, the connecting frame 201 and the cushion block 202 are arranged in a step shape, and the connecting frame 201 and the cushion block 202 are arranged in a step shape and can effectively bear a die.

As shown in fig. 2, the limiting structure 1 includes: bottom plate 101, support column 102, dead lever 103, elastic component A104, rotate the groove 105, rack 106, the both sides of bottom plate 101 are fixedly connected with support column 102 respectively, fixedly connected with dead lever 103 in the support column 102, swing joint has elastic component A104 on the dead lever 103, be equipped with on the support column 102 and rotate the groove 105, rack 106 respectively with support column 102, dead lever 103 sliding connection, elastic component A104 both ends laminate with dead lever 103, rack 106 respectively, elastic component A104 adopts the spring, its effect is, can control rack 106 to slide to the top voluntarily through elastic component A104, control rack 106 laminating to the below of gear 207 simultaneously.

As shown in fig. 3, the connection mechanism 2 further includes: connecting plate 203, bolt 204, baffle 205, swing joint has bolt 204 on the link 201, connecting plate 203 passes through bolt 204 swing joint in the both sides of link 201, baffle 205 simultaneous fixed connection is at the top of link 201, bolt 204 simultaneous with baffle 205 swing joint, connecting axle A206 rotates through rotating groove 105 and support column 102 to be connected, gear 207 simultaneously with rack 106 swing joint, link 201 can rotate around support column 102 through connecting axle A206, link 201 still can carry the mould simultaneously and overturn when rotating, the mould can also effectually process the tow sides of mould in the engineering of upset, the condition that the mould needs to be adjusted repeatedly when processing takes place, the work efficiency of mould when processing is improved.

Embodiment two:

On the basis of the first embodiment, as shown in fig. 4, the clamping structure 3 includes: the fixing frame 301, the sliding rod 302, limiting plate A303, elastic element B304, splint A305, splint B306, preformed hole 307, be equipped with preformed hole 307 on the fixing frame 301, fixing frame 301 passes through preformed hole 307 and bolt 204 swing joint, sliding connection has sliding rod 302 on the fixing frame 301, fixedly connected with limiting plate A303 on the sliding rod 302, simultaneously swing joint has elastic element B304 on the sliding rod 302, the both ends of elastic element B304 laminate with fixing frame 301, limiting plate A303 respectively, the bottom fixedly connected with splint A305 of sliding rod 302, one side fixedly connected with splint B306 of fixing frame 301, splint A305, splint B306 are the arc setting respectively, its effect is, through splint A305 and splint B306 of arc setting, can make splint A305, splint B306 good laminating beat the both sides of spliced pole, sliding rod 302 is the U-shaped setting, its effect is, can make sliding rod 302 keep good stability when sliding through the sliding rod 302 of U-shaped setting.

As shown in fig. 5, wherein the fixing mechanism 4 includes: the rotating column 401, the nut 402, the telescopic link 403, the fixed plate 404, the guide link 405, limiting plate B406, the rotating column 401 rotates with the mount 301 through preformed hole 307 to be connected, fixedly connected with nut 402 in the rotating column 401, nut 402 rotates with the telescopic link 403 simultaneously to be connected, the one end and the fixed plate 404 fixed connection of telescopic link 403, the both sides of fixed plate 404 fixedly connected with guide link 405 simultaneously, guide link 405 passes through preformed hole 307 and mount 301 sliding connection, the one end and the fixedly connected with limiting plate B406 of guide link 405, limiting plate B406 laminating is in one side of mount 301, the rotating column 401 respectively with splint A305, splint B306 laminating mutually, the surface of telescopic link 403 is equipped with the screw thread, its effect is, can control telescopic link, the guide link slides with the fixed plate is automatic through rotating column and nut, simultaneously can also effectually fix the mould from both sides, avoid the mould to break away from the inside of link when processing, simultaneously can also control splint A good to the rotating column through elastic component B laminating, and carry out limiting through splint A and splint B to the rotating column laminating.

Embodiment III:

On the basis of the first embodiment and the second embodiment, as shown in fig. 6, the linkage structure 5 includes: the connecting ring 501, the carousel 502, the drive belt 503, the connecting block 504, connecting axle B505, the connecting ring 501 is fixed connection respectively on the spliced pole 401, carousel 502 is fixed connection respectively at the both ends of connecting axle B505, connecting axle B505 rotates with connecting block 504 simultaneously and is connected, connecting block 504 fixed connection is in the bottom of mount 301, the both ends of drive belt 503 respectively with connecting ring 501, carousel 502 swing joint, the drive belt 503 adopts the track, its effect is, can control simultaneously that connecting ring 501 rotates with carousel 502 through drive belt 503, can control simultaneously that two sets of spliced poles 401 rotate through drive belt 503 and connecting axle B505, still can control simultaneously that two sets of fixed plates 404 slide when rotating the spliced pole 401 rotates simultaneously, and carry out centre gripping and fixed to the mould, prevent that the mould from coming out of link 201, the control mode is comparatively simple and easy, be convenient for through manual operation.

The working principle of the embodiment is as follows:

In the utility model, firstly, a die to be processed is placed in a connecting frame 201, then the bottom of the die can be set off through a cushion block 202, then a sliding rod 302 is pulled, a rotating column 401 and a nut 402 are rotated, the nut 402 can also control a telescopic rod 403 and a fixed plate 404 to automatically slide when rotating, meanwhile, the fixed plate 404 can be well attached to two sides of the die to clamp and fix the die, after the nut 402 and the rotating column 401 stop rotating, the telescopic rod 403 can also be limited through the nut 402, simultaneously, two groups of rotating columns 401 can be simultaneously controlled to rotate through a driving belt 503, the control mode is simple, when the rotating column 401 stops rotating, the sliding rod 302 and a clamping plate A305 can be controlled to automatically slide to one end through an elastic piece B304, so that the clamping plate A305 and the clamping plate B306 are respectively attached to the rotating column 401, the rotating column 401 is prevented from automatically rotating when unmanned, after the fixing is finished, the clamping plate A305 and the clamping plate B306 can also be controlled to slide, the gear 207 and the connecting shaft A206 can also be rotated when sliding, the die is overturned, the die can also be controlled by the nut 402, after the die is stopped rotating, the driving belt 503 can also be controlled, the two groups of rotating columns 401 can be simultaneously controlled to rotate, the rotating column 401 can be controlled through a driving belt, the driving belt 503, the elastic piece can be controlled, the sliding rod 302 can be further, and the back is connected with the rack 206 through the elastic piece, and the back part, and the connecting frame to the back part, and the connecting frame to the die, and the processing device 201 is further, and the processing is 201, and the processing is finished.

Claims (6)

1. The utility model provides a fixing device is used in mould processing which characterized in that: comprises a limit structure (1); the utility model provides a limit structure (1) is gone up swing joint and is had coupling mechanism (2), and coupling mechanism (2) both sides respectively swing joint have clamping structure (3), and clamping structure (3) inside swing joint has fixed establishment (4), and limit structure (1)'s bottom fixedly connected with linkage structure (5), linkage structure (5) simultaneously with fixed establishment (4) swing joint, coupling mechanism (2) include: the connecting device comprises a connecting frame (201), cushion blocks (202), connecting shafts A (206) and gears (207), wherein the cushion blocks (202) are fixedly connected to the periphery of the bottom of the connecting frame (201), the connecting shafts A (206) are fixedly connected to the two sides of the connecting frame (201), and one end of each connecting shaft A (206) is fixedly connected with one gear (207) simultaneously.

2. The fixing device for mold processing according to claim 1, wherein: the limit structure (1) comprises: bottom plate (101), support column (102), dead lever (103), elastic component A (104), rotate groove (105), rack (106), the both sides of bottom plate (101) are fixedly connected with support column (102) respectively, fixedly connected with dead lever (103) in support column (102), swing joint has elastic component A (104) on dead lever (103), be equipped with on support column (102) and rotate groove (105), rack (106) respectively with support column (102), dead lever (103) sliding connection, the both ends of elastic component A (104) are laminated mutually with dead lever (103), rack (106) respectively.

3. The fixing device for mold processing according to claim 2, wherein: the connection mechanism (2) further comprises: connecting plate (203), bolt (204), baffle (205), swing joint have bolt (204) on link (201), and connecting plate (203) pass through bolt (204) swing joint in the both sides of link (201), baffle (205) fixed connection is at the top of link (201), bolt (204) and baffle (205) swing joint, and connecting axle A (206) are connected through rotating groove (105) and support column (102) rotation, gear (207) and rack (106) swing joint.

4. A fixing device for mold processing according to claim 3, wherein: the clamping structure (3) comprises: mount (301), slide bar (302), limiting plate A (303), elastic component B (304), splint A (305), splint B (306), preformed hole (307), be equipped with preformed hole (307) on mount (301), mount (301) are through preformed hole (307) and bolt (204) swing joint, sliding connection has slide bar (302) on mount (301), fixedly connected with limiting plate A (303) on slide bar (302), swing joint has elastic component B (304) on slide bar (302), the both ends of elastic component B (304) are laminated with mount (301), limiting plate A (303) respectively, the bottom fixedly connected with splint A (305) of slide bar (302), one side fixedly connected with splint B (306) of mount (301).

5. The fixing device for mold processing according to claim 4, wherein: the fixing mechanism (4) includes: rotation post (401), nut (402), telescopic link (403), fixed plate (404), guide bar (405), limiting plate B (406), rotation post (401) rotate through preformed hole (307) and mount (301) and be connected, fixedly connected with nut (402) in rotation post (401), nut (402) rotate with telescopic link (403) and be connected, one end and fixed plate (404) fixed connection of telescopic link (403), both sides fixedly connected with guide bar (405) of fixed plate (404), guide bar (405) pass through preformed hole (307) and mount (301) sliding connection, one end fixedly connected with limiting plate B (406) of guide bar (405), limiting plate B (406) laminating is in one side of mount (301), rotation post (401) laminate with splint A (305), splint B (306) respectively.

6. The fixing device for mold processing according to claim 5, wherein: the linkage structure (5) comprises: the connecting ring (501), the rotating disc (502), the driving belt (503), the connecting block (504) and the connecting shaft B (505), wherein the connecting ring (501) is respectively and fixedly connected to the rotating column (401), the rotating disc (502) is respectively and fixedly connected to two ends of the connecting shaft B (505), the connecting shaft B (505) is simultaneously and rotatably connected with the connecting block (504), the connecting block (504) is fixedly connected to the bottom of the fixing frame (301), and two ends of the driving belt (503) are respectively and movably connected with the connecting ring (501) and the rotating disc (502).