CN214813997U - Punching forming device for bearing blank plate - Google Patents

Abstract

The utility model provides a die-cut forming device of bearing blank, including supporting the assembly subassembly, die-cut lower mould subassembly, separate the direction subassembly, die-cut drive assembly and die-cut upper die subassembly, this die-cut forming device of bearing blank sets up two sets of die-cut nib in lower mould base, and separate these die-cut nib through separating the bead, set up two sets of die-cut die heads that correspond with die-cut nib in upper mould base bottom, can follow and separate bead both sides and go up unloading respectively, carry out die-cut shaping processing to two blank boards simultaneously, and separate the bead and can regard as the limit structure of blank on lower mould base, carry on spacingly to the blank board of both sides, be favorable to promoting work efficiency, and the equipment cost is reduced.

Description

Punching forming device for bearing blank plate

Technical Field

The utility model relates to a bearing production facility especially relates to a die-cut forming device of bearing blank board.

Background

In the production process of the sliding bearing, the blank plate needs to be processed by adopting punching equipment to form a specific joint structure at the end part of the sliding bearing, and the common punching equipment can only carry out loading and unloading on one side, so that the production efficiency is low. Therefore, it is necessary to optimize the structure of the die-cutting forming device to overcome the above-mentioned drawbacks.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a die-cut forming device of bearing blank board to promote die-cut efficiency.

The utility model discloses a solve the technical scheme that its technical problem adopted and be:

a bearing blank punching and forming device comprises:

a support assembly having an installation space therein;

the lower die cutting assembly is arranged on the supporting assembly, and a blank plate to be formed can be placed on the lower die cutting assembly;

the separating guide assembly is arranged on the lower die cutting assembly;

the punching transmission component is arranged on the support assembly component, is connected with the power driving and rotating component and drives the punching transmission component to operate;

the die-cut upper die assembly corresponds to the die-cut lower die assembly in position and is linked up with the die-cut transmission assembly, the die-cut upper die assembly is driven by the die-cut transmission assembly to operate, and the die-cut forming processing is carried out on a blank plate placed on the die-cut lower die assembly by the die-cut upper die assembly.

The support assembly includes:

a support base plate disposed in a lateral direction;

the pair of supporting side plates are arranged, and each supporting side plate is respectively arranged at two ends of the supporting bottom plate and extends out of the upper part of the supporting bottom plate;

the supporting top plate is transversely arranged, two ends of the supporting top plate are respectively fixed to the tops of the supporting side plates, and the punching lower die assembly is installed on the supporting top plate;

and the support back plate is arranged on the support bottom plate and extends towards the upper part of the support bottom plate, the middle part of the support back plate is jointed with the support top plate, the top part of the support back plate is positioned above the support top plate, and the punching transmission assembly is arranged on the support back plate.

Die-cut lower mould subassembly includes:

the lower die base is positioned above the supporting top plate, the top of the lower die base is provided with a positioning plane for placing the blank plate, two groups of die cutting holes are formed in the lower die base, and each die cutting hole penetrates through two ends of the lower die base;

and the lower die supporting columns are arranged in a group, are respectively connected between the lower die base and the supporting top plate and support the lower die base through the lower die supporting columns.

The partition guide assembly includes:

and the separation convex edge is arranged at the top of the lower die base and protrudes above the lower die base, the lower die base is separated by the separation convex edge, and the two groups of punching die holes are respectively positioned at two sides of the separation convex edge.

Die-cut drive assembly includes:

the transmission guide frames are provided with a pair of transmission guide frames, each transmission guide frame is respectively arranged on the support back plate and points to the lower die base, and the inner walls of the transmission guide frames are provided with transmission guide grooves;

the punching carrier is positioned between the transmission guide frames, two ends of the punching carrier respectively extend into the transmission guide grooves and can move along the transmission guide grooves, and the upper punching die assembly is arranged at the bottom of the punching carrier;

and the transmission pressure rod is arranged at the top of the punching carrier and is connected with the power driving and rotating assembly, and the power driving and rotating assembly drives the punching carrier to move along the transmission guide groove through the transmission pressure rod.

Die-cut upper die assembly includes:

the upper die base is arranged at the bottom of the punching carrier, a positioning notch is formed in the bottom of the punching carrier, and a positioning convex edge is arranged at the top of the upper die base and clamped into the positioning notch and fixedly connected with the positioning convex edge through a connecting bolt;

the two groups of punching die heads are respectively arranged at the bottom of the upper die base and are respectively matched with the punching die holes;

the upper die pressing plate is positioned below the upper die base and is connected with the upper die base through a spring, two groups of position-avoiding die holes are formed in the upper die pressing plate, each position-avoiding die hole is respectively matched with the punching die head, the punching die heads can extend out of the position-avoiding die holes, and separation grooves matched with the separation convex edges are formed in the upper die pressing plate;

the guide upright columns are arranged in a group, each guide upright column is respectively installed at the edge of the lower die base and extends out of the upper portion of the lower die base, guide sliding holes are respectively formed in the upper die pressing plate and the upper die base, and each guide upright column extends out of each guide sliding hole so that the upper die pressing plate and the upper die base can move along the guide upright columns.

The top of the separating convex edge is provided with a guide inclined plane which is inclined towards the central line direction of the separating convex edge.

The utility model has the advantages that:

this die-cut forming device of bearing base plate sets up two sets of die-cut nib in lower die base to separate these die-cut nib through separating the bead, set up two sets of die-cut die heads that correspond with die-cut nib in last die base bottom, can follow and separate bead both sides and go up unloading respectively, carry out die-cut shaping processing to two base plates simultaneously, and separate the bead and can regard as the limit structure of base plate on lower die base, carry on spacingly to the base plate of both sides, be favorable to promoting work efficiency, and equipment cost is reduced.

Drawings

Fig. 1 is a schematic structural view of the bearing blank punching and forming device of the present invention.

Fig. 2 is a schematic view of the structure of the partition beads.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings in the embodiments of the present invention are combined below to clearly and completely describe the technical solutions in the embodiments of the present invention. It is to be understood that the embodiments described are only some of the embodiments of the present invention, and not all of them. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As fig. 1, fig. 2 is shown, the utility model provides a die-cut forming device of bearing blank board is including supporting the assembly subassembly, die-cut lower mould subassembly, separate the direction subassembly, die-cut transmission assembly and die-cut upper die assembly, the installation space has in the support assembly subassembly, die-cut lower mould unit mount is on supporting the assembly subassembly, treat that the shaping blank board can arrange in on the die-cut lower mould subassembly, separate the direction subassembly and install on die-cut lower mould subassembly, die-cut transmission assembly installs on supporting the assembly subassembly, and drive the subassembly with power and link up, drive the operation of die-cut transmission assembly by power and change the subassembly, die-cut upper die assembly corresponds with die-cut lower mould unit position, and link up with die-cut transmission assembly, drive die-cut upper die assembly operation by die-cut transmission assembly, carry out die-cut shaping processing to the blank board on the die-cut lower mould subassembly by die-cut upper die assembly. The supporting assembly component comprises a supporting bottom plate 110, supporting side plates 120, a supporting top plate 130 and a supporting back plate 140, wherein the supporting bottom plate is transversely placed, the supporting side plates are provided with a pair of supporting side plates, the supporting side plates are respectively installed at two ends of the supporting bottom plate and extend towards the upper side of the supporting bottom plate, the supporting top plate is transversely placed, two ends of the supporting top plate are respectively fixed at the tops of the supporting side plates, the punching lower die component is installed on the supporting top plate, the supporting back plate is installed on the supporting bottom plate and extends towards the upper side of the supporting bottom plate, the middle part of the supporting back plate is jointed with the supporting top plate, the top of the supporting top plate is located above the supporting top plate, and the punching transmission component is installed on the supporting back plate. Die-cut lower mould subassembly includes lower mould base 210 and lower mould pillar 220, and lower mould base is located the roof top that supports, and its top has the location plane of placing the blank board, and it is inside to have seted up two sets of die-cut nib, and each die-cut nib runs through lower mould base both ends, and the lower mould pillar is equipped with a set ofly, and each lower mould pillar is connected respectively between lower mould base and the roof that supports, is supported lower mould base by the lower mould pillar. The separating guide assembly comprises a separating convex rib 310 which is arranged at the top of the lower die base and protrudes above the lower die base, the lower die base is separated by the separating convex rib, two groups of punching die holes are respectively positioned at two sides of the separating convex rib, a guide inclined plane 311 is arranged at the top of the separating convex rib, and the guide inclined plane is inclined towards the central line direction of the separating convex rib. The punching transmission assembly comprises a transmission guide frame 410, a punching carrier 420 and a transmission pressure rod 430, the transmission guide frame is provided with a pair of transmission guide frames, each transmission guide frame is respectively installed on the supporting back plate and points to the lower die base, the transmission guide groove is formed in the inner wall of the transmission guide frame, the punching carrier is located between the transmission guide frames, two ends of the punching carrier respectively extend into the transmission guide grooves and can move along the transmission guide groove, the punching upper die assembly is installed at the bottom of the punching carrier, the transmission pressure rod is installed at the top of the punching carrier and is connected with the power driving assembly, and the power driving assembly drives the punching carrier to move along the transmission guide groove through the transmission pressure rod. The punching upper die assembly comprises an upper die base 510, punching die heads (not shown in the figure), an upper die pressing plate 520 and guide upright posts 530, wherein the upper die base is installed at the bottom of a punching carrier, the bottom of the punching carrier is provided with a positioning notch, the top of the upper die base is provided with positioning convex ribs, the positioning convex ribs are clamped into the positioning notch and fixedly connected through connecting bolts, the punching die heads are provided with two groups and are respectively installed at the bottom of the upper die base, each punching die head is respectively matched with a punching die hole, the upper die pressing plate is positioned below the upper die base and is connected through a spring, the upper die pressing plate is provided with two groups of avoiding die holes, each avoiding die hole is respectively matched with the punching die head, the punching die heads can extend out of the avoiding die holes, the upper die pressing plate is provided with separating grooves matched with the separating convex ribs, during punching, the guiding is performed by the guide inclined surfaces on the separating convex ribs, the guide upright posts are provided with one group, and the guide upright posts are respectively installed at the edge of the lower die base, and the upper die pressing plate and the upper die base are respectively provided with a guide sliding hole, and each guide upright post respectively extends out of the guide sliding hole, so that the upper die pressing plate and the upper die base can move along the guide upright posts. This die-cut forming device of bearing base plate sets up two sets of die-cut nib in lower die base to separate these die-cut nib through separating the bead, set up two sets of die-cut die heads that correspond with die-cut nib in last die base bottom, can follow and separate bead both sides and go up unloading respectively, carry out die-cut shaping processing to two base plates simultaneously, and separate the bead and can regard as the limit structure of base plate on lower die base, carry on spacingly to the base plate of both sides, be favorable to promoting work efficiency, and equipment cost is reduced.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "left", "right", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, or orientations or positional relationships that are conventionally placed when the products of the present invention are used, or orientations or positional relationships that are conventionally understood by those skilled in the art, and are only for convenience of description of the present invention and simplification of description, but do not indicate or imply that the designated devices or elements must have a specific orientation, be configured and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance. In the description of the present invention, it should be further noted that, unless explicitly stated or limited otherwise, the terms "disposed" and "connected" are to be interpreted broadly, and for example, "connected" may be a fixed connection, a detachable connection, or an integral connection; can be mechanically or electrically connected; the connection may be direct or indirect via an intermediate medium, and may be a communication between the two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Claims (7)

1. The utility model provides a die-cut forming device of bearing blank which characterized in that includes:

a support assembly having an installation space therein;

the punching lower die assembly is arranged on the supporting assembly;

the separating guide assembly is arranged on the lower die cutting assembly;

the punching transmission component is arranged on the support assembly component and is connected with the power driving and rotating component;

the die-cut upper die assembly corresponds to the die-cut lower die assembly in position and is connected with the die-cut transmission assembly.

2. The apparatus of claim 1, wherein the support assembly comprises:

a support base plate disposed in a lateral direction;

the pair of supporting side plates are arranged, and each supporting side plate is respectively arranged at two ends of the supporting bottom plate and extends out of the upper part of the supporting bottom plate;

the supporting top plate is transversely arranged, two ends of the supporting top plate are respectively fixed to the tops of the supporting side plates, and the punching lower die assembly is installed on the supporting top plate;

and the support back plate is arranged on the support bottom plate and extends towards the upper part of the support bottom plate, the middle part of the support back plate is jointed with the support top plate, the top part of the support back plate is positioned above the support top plate, and the punching transmission assembly is arranged on the support back plate.

3. The bearing blank blanking forming device as claimed in claim 2, wherein the blanking lower die assembly includes:

the lower die base is positioned above the supporting top plate, the top of the lower die base is provided with a positioning plane for placing the blank plate, two groups of die cutting holes are formed in the lower die base, and each die cutting hole penetrates through two ends of the lower die base;

and the lower die supporting columns are provided with a group, and each lower die supporting column is respectively connected between the lower die base and the supporting top plate.

4. A bearing blank blanking forming apparatus according to claim 3, wherein the partition guide assembly comprises:

and the separation convex edge is arranged at the top of the lower die base and protrudes above the lower die base, and the two groups of punching die holes are respectively positioned at two sides of the separation convex edge.

5. The apparatus of claim 4, wherein the blanking actuator assembly comprises:

the transmission guide frames are provided with a pair of transmission guide frames, each transmission guide frame is respectively arranged on the support back plate and points to the lower die base, and the inner walls of the transmission guide frames are provided with transmission guide grooves;

the punching carrier is positioned between the transmission guide frames, two ends of the punching carrier respectively extend into the transmission guide grooves, and the punching upper die assembly is arranged at the bottom of the punching carrier;

and the transmission pressure rod is arranged at the top of the punching carrier and is connected with the power driving and rotating assembly.

6. The apparatus of claim 5, wherein the upper die assembly includes:

the upper die base is arranged at the bottom of the punching carrier, a positioning notch is formed in the bottom of the punching carrier, and a positioning convex edge is arranged at the top of the upper die base and clamped into the positioning notch and fixedly connected with the positioning convex edge through a connecting bolt;

the two groups of punching die heads are respectively arranged at the bottom of the upper die base and are respectively matched with the punching die holes;

the upper die pressing plate is positioned below the upper die base and is connected with the upper die base through a spring, two groups of position-avoiding die holes are formed in the upper die pressing plate, each position-avoiding die hole is respectively matched with the punching die head, the punching die heads can extend out of the position-avoiding die holes, and separation grooves matched with the separation convex edges are formed in the upper die pressing plate;

the guide upright posts are arranged in a group, each guide upright post is respectively installed at the edge of the lower die base and extends out of the upper portion of the lower die base, guide sliding holes are respectively formed in the upper die pressing plate and the upper die base, and each guide upright post extends out of each guide sliding hole.

7. The bearing blank blanking forming device according to claim 4, wherein:

the top of the separating convex edge is provided with a guide inclined plane which is inclined towards the central line direction of the separating convex edge.

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