CN220992619U - Axle half shell forming die stock stop - Google Patents

Abstract

The utility model provides a stop mechanism of an axle half-shell forming die, which belongs to the technical field of automobile manufacturing and aims to solve the problems that a positioning claw is easy to loosen, difficult to adjust, poor in rigidity and complex in operation when an existing positioning claw is used for fixing an axle half-shell; comprising the following steps: the device comprises a fixed die base, a baffle mounting groove, an outer side mounting groove, an axle support plate, an axle half shell, two side positioning mechanisms and side positioning mechanisms; the baffle mounting grooves are formed in two sides of the fixed die base; the outer side mounting groove is formed in the fixed die base; the axle support plate is fixedly connected to the fixed die base; the axle half shell is arranged on the upper end surface of the axle support plate; the two-side positioning mechanisms are arranged on the right side of the fixed die base; the side edge positioning mechanism is arranged on the upper side of the fixed die base; through adopting both sides positioning mechanism, realize making things convenient for staff's installation, through adopting side positioning mechanism, realize inside narrow and small space, make stock stop sound construction, it is convenient to adjust.

Description

Axle half shell forming die stock stop

Technical Field

The utility model belongs to the technical field of automobile manufacturing, and particularly relates to a stop mechanism of an axle half-shell forming die.

Background

The axle is used for connecting suspension and frame, needs production axle half shell when the axle processing, and axle half shell is inside with axle main part protection, and the axle half shell is through stamping die preparation, and when the axle half shell shaping, need fix a position production through keeping off the material structure on the mould, keep off the locating claw on the material structure and fix on forming die, let axle half shell more stable when stamping forming.

According to CN201310515209.7, the invention relates to a stop mechanism of an automobile back door buckling mold, which comprises a base and an earring seat which are arranged on a lower mold of the automobile back door buckling mold, and further comprises a rotary main arm, a stop plate and a rotary auxiliary arm, wherein the lower end of the rotary main arm is hinged to the base through a rotary shaft, the stop plate is connected with the upper end of the rotary main arm, one end of the rotary auxiliary arm is connected with the lower part of the rotary main arm, the other end of the rotary auxiliary arm is hinged to a piston rod head of an air cylinder, and the tail end of the air cylinder is hinged to the earring seat; the main rotating arm is 7-shaped, and the auxiliary rotating arm and the main rotating arm can rotate around a rotating shaft together. The stop mechanism of the automobile back door buckling die has the advantages of long stop length, good stability and capability of realizing automatic control.

Based on the above, the existing material blocking structure generally fixes the axle half shell through the bolt structure, and the positioning claw needs to fix all around the axle half shell when fixing the axle half shell, so that the positioning claw is weak in structure, easy to loosen, difficult to adjust, poor in rigidity and complex in operation, and meanwhile, the screw holes of the positioning claw are inconvenient to align in a narrow space, and the operation of workers is affected.

Disclosure of utility model

In order to solve the technical problems, the utility model provides the material blocking mechanism of the axle half-shell forming die, which aims to solve the problems that the existing material blocking structure generally fixes the forming die through a bolt structure, the periphery of the axle half-shell needs to be completely fixed when a positioning claw is used for fixing the forming die, the positioning claw is weak in structure, easy to loose, difficult to adjust, poor in rigidity and complex in operation, and meanwhile, screw holes of the positioning claw are inconvenient to align in a narrow space, so that the operation of workers is influenced.

The utility model discloses a purpose and an effect of a blocking mechanism of an axle half-shell forming die, which are achieved by the following specific technical means:

An axle half-shell forming die dam mechanism comprising: the device comprises a fixed die base, a baffle mounting groove, an outer side mounting groove, an axle support plate, an axle half shell, two side positioning mechanisms and side positioning mechanisms; four groups of baffle mounting grooves are formed in total, and the four groups of baffle mounting grooves are respectively formed in the left side and the right side of the fixed die base; the outer side mounting grooves are provided with two groups, and the two groups of outer side mounting grooves are respectively formed in the upper side and the lower side of the fixed die base; the axle support plate is fixedly connected to the middle position of the fixed die base; the axle half shell is arranged on the upper end surface of the axle support plate; the two-side positioning mechanisms are arranged in two groups, and the two groups of two-side positioning mechanisms are respectively arranged on the right side of the fixed die base; the side positioning mechanism is arranged on the upper side of the fixed die base.

Further, the two-side positioning mechanism comprises: a flat key supporting block, a flat key bolt and a flat key side pressing plate; the flat key supporting block is connected to the fixed die base through bolts; the flat key side pressing plate is positioned at the outer side of the flat key supporting block; the flat key bolt is in threaded connection with the flat key supporting block and the flat key side pressing plate.

Further, the two-side positioning mechanism further comprises: a limit bolt and a limit block; the limiting clamping block is connected to the outer side of the flat key supporting block in a sliding manner; the limiting bolt is in threaded connection with the limiting clamping block and the flat key supporting block.

Further, the two-side positioning mechanism further comprises: a flat key striker plate, a limiting clamping groove and a stabilizing bolt; the flat key material baffle is connected to the upper end surface of the flat key supporting block in a sliding manner, and the flat key material baffle is connected to the inner end surface of the flat key side pressing plate in a sliding manner; the limiting clamping groove is formed in the middle of the outer end face of the flat key striker plate, and is connected with the limiting clamping block in a clamping manner; the stable bolt is in threaded connection with the flat key striker plate and the flat key supporting block.

Further, the side positioning mechanism comprises: an outer support block, an outer bolt and an outer side pressing plate; the outer support block is connected to the fixed die base through bolts; the outer side pressing plate is positioned on the outer end face of the outer side supporting block; the outer side bolt is in threaded connection with the outer side supporting block and the outer side pressing plate.

Further, the side positioning mechanism further comprises: the positioning bolt and the positioning clamping block; the positioning clamping block is positioned on the outer end face of the outer support block; the positioning bolt is in threaded connection with the outer side supporting block and the positioning clamping block.

Further, the side positioning mechanism further comprises: the outer side baffle plate, the positioning clamping groove and the reinforcing bolt; the outer side baffle plate is connected to the upper side of the outer side supporting block in a sliding manner, and the outer side baffle plate is connected to the inner end face of the outer side pressing plate in a sliding manner; the positioning clamping groove is formed in the middle of the outer end face of the outer striker plate, and is connected with the positioning clamping block in a clamping manner; the reinforcing bolts are in threaded connection with the outside striker plate and the inside of the outside supporting block.

Compared with the prior art, the utility model has the following beneficial effects:

According to the utility model, by adopting the two-side positioning mechanisms, the left side and the right side of the axle half shell are fixed by sliding the flat key striker plate, when the flat key striker plate slides, the friction force for sliding the flat key striker plate is increased by the flat key side striker plate, when the threaded holes of the flat key striker plate are aligned with the threaded holes of the flat key support block, the limiting clamping block is clamped in the limiting clamping groove to fix the position of the flat key side pressing plate, so that the flat key striker plate and the threaded holes of the flat key support block are conveniently inserted by the stable bolts, the problem that the flat key striker plate and the threaded holes of the flat key support block are required to be aligned is avoided, and the installation of workers is facilitated.

According to the utility model, the side positioning mechanism is adopted, so that the positions of the upper side and the lower side of the axle half shell are fixed by sliding the outer side baffle plate, when the outer side baffle plate slides to the fixed position, the positioning clamping block is clamped in the positioning clamping groove, the outer side baffle plate is aligned with the threaded holes of the outer side support block, the reinforcing bolts are conveniently inserted into the threaded holes of the outer side baffle plate and the outer side support block, the operation of a worker on the baffle mechanism is facilitated, the operation steps of the worker are saved, and meanwhile, the baffle mechanism is firm in structure and convenient to adjust in a narrow space.

Drawings

FIG. 1 is a schematic view of a dam mechanism of the present utility model.

FIG. 2 is a schematic top view of the two-sided positioning mechanism of the present utility model.

Fig. 3 is a right-side view of the positioning mechanism of the present utility model.

Fig. 4 is a schematic diagram of the structure of the front view of the two-side positioning mechanism of the present utility model.

FIG. 5 is a schematic top view of the side positioning mechanism of the present utility model.

Fig. 6 is a left-hand schematic view of the side positioning mechanism of the present utility model.

Fig. 7 is a schematic rear view of the side positioning mechanism of the present utility model.

In the figure, the correspondence between the component names and the drawing numbers is:

1. A fixed mold base; 2. a baffle mounting groove; 3. an outer mounting groove; 4. an axle support plate; 5. an axle half-shell; 6. a flat key support block; 7. a flat key bolt; 8. a flat key side pressing plate; 9. a flat key striker plate; 901. limiting the clamping groove; 10. a restraining bolt; 11. limiting the clamping block; 12. a fixing bolt; 13. an outer support block; 14. an outer bolt; 15. an outer side pressure plate; 16. an outer dam; 1601. positioning clamping grooves; 17. positioning bolts; 18. positioning a clamping block; 19. and (5) reinforcing bolts.

Detailed Description

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

Embodiment one:

As shown in fig. 1 to 4:

The utility model provides a stop mechanism of an axle half-shell forming die, which comprises the following components: the device comprises a fixed die base 1, a baffle mounting groove 2, an outer side mounting groove 3, an axle support plate 4, an axle half shell 5 and two side positioning mechanisms; four groups of baffle mounting grooves 2 are arranged in total, and the four groups of baffle mounting grooves 2 are respectively arranged on the left side and the right side of the fixed die base 1; two groups of outer side mounting grooves 3 are arranged, and the two groups of outer side mounting grooves 3 are respectively arranged on the upper side and the lower side of the fixed die base 1; the axle support plate 4 is fixedly connected to the middle position of the fixed die base 1; the axle half shell 5 is arranged on the upper end surface of the axle support plate 4; two groups of two-side positioning mechanisms are arranged at the right side of the fixed die base 1.

Wherein, both sides positioning mechanism is including: a flat key supporting block 6, a flat key bolt 7 and a flat key side pressing plate 8; the flat key supporting block 6 is connected to the fixed die base 1 through bolts; the flat key side pressing plate 8 is positioned outside the flat key supporting block 6; the flat key bolt 7 is in threaded connection with the flat key supporting block 6 and the flat key side pressing plate 8, and in the use process, the flat key side pressing plate 8 is installed on the flat key supporting block 6 through the flat key bolt 7.

Wherein, both sides positioning mechanism still includes: a restraining bolt 10 and a restraining block 11; the limiting clamping block 11 is connected to the outer side of the flat key supporting block 6 in a sliding manner; the limiting bolt 10 is in threaded connection with the limiting clamping block 11 and the flat key supporting block 6, and in the use process, the limiting clamping block 11 is fixed on the flat key supporting block 6 through the limiting bolt 10.

Wherein, both sides positioning mechanism still includes: a flat key striker plate 9, a limiting clamping groove 901 and a fixing bolt 12; the flat key material baffle 9 is connected to the upper end surface of the flat key supporting block 6 in a sliding way, and the flat key material baffle 9 is connected to the inner end surface of the flat key side pressing plate 8 in a sliding way; the limiting clamping groove 901 is formed in the middle of the outer end face of the flat key striker plate 9, and the limiting clamping groove 901 is connected with the limiting clamping block 11 in a clamping way; firm bolt 12 threaded connection is on flat key striker plate 9 and flat key supporting shoe 6, and in the use, breaks the flat key striker plate 9 and slides, and flat key striker plate 9 slides and drives restriction draw-in groove 901 and slide, restriction draw-in groove 901 slides to restriction fixture block 11 position department, and restriction fixture block 11 blocks restriction draw-in groove 901 and restricts flat key striker plate 9 position, and flat key striker plate 9 screw hole aligns with the screw hole on flat key supporting shoe 6, installs firm bolt 12 inside the screw hole on flat key striker plate 9 and flat key supporting shoe 6.

Specific use and action of the first embodiment:

In the use, install flat key side clamp plate 8 on flat key supporting shoe 6 through flat key bolt 7, through restriction bolt 10 with restriction fixture block 11 fixed on flat key supporting shoe 6, break off flat key striker plate 9 slip off with the fingers and thumb, flat key striker plate 9 slip drives restriction draw-in groove 901 slip, restriction draw-in groove 901 slides restriction fixture block 11 position department, restriction draw-in groove 901 blocks restriction draw-in groove 901 and restricts flat key striker plate 9 position, flat key striker plate 9 screw hole aligns with the screw hole on flat key supporting shoe 6, install firm bolt 12 in flat key striker plate 9 and inside the screw hole on flat key supporting shoe 6, realize axle half-shell 5 both sides position fixation.

Embodiment two:

on the basis of the embodiment, as shown in fig. 5 to 7:

Still including side positioning mechanism, side positioning mechanism sets up in cover half base 1 upside, and side positioning mechanism is including: an outer support block 13, an outer bolt 14, and an outer side pressing plate 15; the outer support block 13 is connected to the fixed die base 1 through bolts; the outer side pressing plate 15 is positioned on the outer end surface of the outer support block 13; the outer side bolts 14 are screwed to the outer side support blocks 13 and the outer side pressing plates 15, and in use, the outer side pressing plates 15 are mounted on the outer side support blocks 13 by the outer side bolts 14.

Wherein, side positioning mechanism still includes: a positioning bolt 17 and a positioning fixture block 18; the positioning clamping block 18 is positioned on the outer end surface of the outer support block 13; the positioning bolts 17 are in threaded connection with the outer support blocks 13 and the positioning clamping blocks 18, and in the use process, the positioning clamping blocks 18 are installed on the outer support blocks 13 through the positioning bolts 17.

Wherein, side positioning mechanism still includes: an outer striker plate 16, a positioning clip groove 1601, and a reinforcing bolt 19; the outer side baffle plate 16 is connected to the upper side of the outer side supporting block 13 in a sliding manner, and the outer side baffle plate 16 is connected to the inner end surface of the outer side pressing plate 15 in a sliding manner; the positioning clamping groove 1601 is formed in the middle of the outer end face of the outer striker plate 16, and the positioning clamping groove 1601 is connected with the positioning clamping block 18 in a clamping way; the reinforcing bolt 19 is in threaded connection inside outside striker plate 16 and outside supporting shoe 13, and in the use, it slides and drives positioning clamping groove 1601 to break off outside striker plate 16, and when positioning clamping groove 1601 slid to positioning clamping block 18 position department, positioning clamping block 18 card is in the inside fixed outside striker plate 16's of positioning clamping groove 1601 position, and outside striker plate 16 screw hole aligns with outside supporting shoe 13 screw hole, and reinforcing bolt 19 inserts outside striker plate 16 and outside supporting shoe 13 screw hole inside, carries out the position reinforcement with outside striker plate 16.

Specific use and action of the second embodiment:

In the use, install outside lateral pressure plate 15 on outside supporting shoe 13 through outside bolt 14, install positioning fixture block 18 on outside supporting shoe 13 through positioning bolt 17, it slides and drive positioning card groove 1601 to slide to break off the outside striker plate 16, when positioning card groove 1601 slides to positioning fixture block 18 position department, positioning fixture block 18 card is in the inside fixed outside striker plate 16's of positioning card groove 1601 position, outside striker plate 16 screw hole aligns with outside supporting shoe 13 screw hole, reinforcing bolt 19 inserts outside striker plate 16 and outside supporting shoe 13 screw hole inside, carry out the position reinforcement with outside striker plate 16, realize that the baffle is fixed a position axle half shell 5 fast.

Claims (7)

1. An axle half-shell forming die dam mechanism comprising: the device comprises a fixed die base (1), a baffle mounting groove (2), an outer side mounting groove (3), an axle support plate (4), an axle half shell (5), two side positioning mechanisms and side positioning mechanisms; four groups of baffle mounting grooves (2) are formed in total, and the four groups of baffle mounting grooves (2) are respectively formed in the left side and the right side of the fixed die base (1); the method is characterized in that: two groups of outer side mounting grooves (3) are formed in total, and the two groups of outer side mounting grooves (3) are respectively formed in the upper side and the lower side of the fixed die base (1); the axle support plate (4) is fixedly connected to the middle position of the fixed die base (1); the axle half shell (5) is arranged on the upper end face of the axle support plate (4); two groups of two-side positioning mechanisms are arranged at the right side of the fixed die base (1) respectively; the side positioning mechanism is arranged on the upper side of the fixed die base (1).

2. The axle half-shell forming die dam mechanism of claim 1, wherein: the two-side positioning mechanism comprises: a flat key supporting block (6), a flat key bolt (7) and a flat key side pressing plate (8); the flat key supporting block (6) is connected to the fixed die base (1) through bolts; the flat key side pressing plate (8) is positioned at the outer side of the flat key supporting block (6); the flat key bolt (7) is in threaded connection with the flat key supporting block (6) and the flat key side pressing plate (8).

3. The axle half-shell forming die dam mechanism of claim 2, wherein: the two-side positioning mechanism further comprises: a limit bolt (10) and a limit clamping block (11); the limiting clamping block (11) is connected to the outer side of the flat key supporting block (6) in a sliding manner; the limiting bolt (10) is connected to the limiting clamping block (11) and the parallel key supporting block (6) in a threaded mode.

4. A bridge half-shell forming die dam mechanism as recited in claim 3, wherein: the two-side positioning mechanism further comprises: a flat key striker plate (9), a limiting clamping groove (901) and a stabilizing bolt (12); the flat key material baffle (9) is connected to the upper end face of the flat key supporting block (6) in a sliding way, and the flat key material baffle (9) is connected to the inner end face of the flat key side pressing plate (8) in a sliding way; the limiting clamping groove (901) is formed in the middle of the outer end face of the flat key striker plate (9), and the limiting clamping groove (901) is connected with the limiting clamping block (11) in a clamping manner; the stabilizing bolt (12) is connected to the flat key striker plate (9) and the flat key supporting block (6) in a threaded mode.

5. The axle half-shell forming die dam mechanism of claim 1, wherein: the side positioning mechanism comprises: an outer support block (13), an outer bolt (14) and an outer side pressing plate (15); the outer support block (13) is connected to the fixed die base (1) through bolts; the outer side pressing plate (15) is positioned on the outer end face of the outer support block (13); the outer side bolts (14) are in threaded connection with the outer side supporting blocks (13) and the outer side pressing plates (15).

6. The axle half-shell forming die dam mechanism of claim 5, wherein: the side positioning mechanism also comprises: a positioning bolt (17) and a positioning clamping block (18); the positioning clamping block (18) is positioned on the outer end face of the outer support block (13); the positioning bolt (17) is in threaded connection with the outer side supporting block (13) and the positioning clamping block (18).

7. The axle half-shell forming die dam mechanism of claim 6, wherein: the side positioning mechanism also comprises: an outer striker plate (16), a positioning clamping groove (1601) and a reinforcing bolt (19); the outer baffle plate (16) is connected to the upper side of the outer supporting block (13) in a sliding manner, and the outer baffle plate (16) is connected to the inner end surface of the outer side pressing plate (15) in a sliding manner; the positioning clamping groove (1601) is formed in the middle of the outer end face of the outer striker plate (16), and the positioning clamping groove (1601) is connected with the positioning clamping block (18) in a clamping way; the reinforcing bolts (19) are in threaded connection with the inside of the outer baffle plate (16) and the outer supporting block (13).