CN110142348B - Self-scrap-suction stamping device for machining of steel sleeve bearing - Google Patents

Abstract

The invention discloses a self-scrap-suction stamping device for machining a steel sleeve bearing, which structurally comprises: when the stamping platform machine body, the stamping motor head, the hydraulic rod group, the bearing box, the base pad seat and the control box are used, the magnetic absorption insert block mechanism is arranged, so that the invention can avoid the condition that the bearing platform below needs to have a very high bearing capacity requirement, meanwhile, when stamping is carried out, high pressure can enable metal to generate certain fragments, the fragments can stay at the periphery of the lower module, dies are all relatively accurate structural components, therefore, the metal fragments need to be cleaned frequently, otherwise, the accuracy of the mechanism can be influenced, the problem of irreversible influence is brought to the equipment, the equipment can automatically cooperate and adsorb the metal fragments generated on the bearing platform, and further, the flatness and accuracy of stamping are ensured.

Description

Self-scrap-suction stamping device for machining of steel sleeve bearing

Technical Field

The invention discloses a self-scrap-suction stamping device for machining a steel sleeve bearing, and belongs to the field of bearing manufacturing equipment.

Background

With the rapid development of modern industry, more and more high-precision projects begin to appear, meanwhile, a lot of mechanical parts need to be machined in short supply, stamping is a common method for manufacturing exquisite parts by using a self-chip-absorption stamping device for machining steel sleeve bearings, and the stamping is a production technology for obtaining product parts with certain shapes, sizes and performances by directly applying deformation force to a plate in a die and deforming the plate by means of the power of conventional or special stamping equipment.

The prior art has the following defects: the mould board all is the dead device of fixed lock under general, therefore just need have very high bearing capacity requirement to the plummer in below, and simultaneously when carrying out the punching press, high pressure can make the metal produce certain piece, and these pieces then can stop at die set periphery down, and the mould all is comparatively accurate structural component, therefore need often clear up the metal piece otherwise can influence the precision of mechanism, bring irreversible influence for equipment.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a self-scrap-suction stamping device for machining a steel sleeve bearing, so as to solve the existing problems.

In order to achieve the purpose, the invention is realized by the following technical scheme: a from inhaling bits stamping device for steel sleeve bearing processing, its structure includes: stamping platform organism, stamping motor head, hydraulic stem group, bearing box, base plate, control box, the stamping motor head is installed in hydraulic stem group top and with hydraulic stem group lock joint, hydraulic stem group below is equipped with the stamping platform organism, stamping platform organism and hydraulic stem group swing joint, the stamping platform organism is installed in bearing box upper end and with the bearing box halving, the bearing box front end is equipped with the control box, the control box is connected with the bearing box electricity, the bearing box below is equipped with the base plate and with base plate lock joint, the stamping platform organism includes module device, processing platform, dead lever orifice plate down, the lower module device is installed in the processing platform inboard and with processing platform swing joint, four edges of processing platform are equipped with the dead lever orifice plate, dead lever and processing platform lock joint.

Preferably, the lower module device comprises an assembling device, a chip absorbing layer device, a linking spring, a spring bottom rod set and an inner loading disc, the assembling device is installed above the spring bottom rod set and is buckled with the spring bottom rod set, the assembling device is arranged on the inner side of the chip absorbing layer device and is in clearance fit with the chip absorbing layer device, the linking spring is arranged below the chip absorbing layer device, and the linking spring is installed on the inner side of the inner loading disc and is in clearance fit with the inner loading disc.

Preferably, the assembling device comprises a linkage rod, an assembling clamping rod and a bearing platform, the assembling clamping rod is installed at the center of the bearing platform and welded with the bearing platform, the linkage rod is arranged below the bearing platform and fastened with the linkage rod, the linkage rod is installed on the periphery of the lower end of the assembling clamping rod, and the linkage rod is installed above the linking spring and in clearance fit with the linking spring.

As preferred, inhale bits layer device includes screw thread circle, trough of belt intermediate layer, synchronous connection cable frame, inhales the bits magnetic path, the screw thread circle inboard be equipped with the trough of belt intermediate layer and with trough of belt intermediate layer lock joint, trough of belt intermediate layer inboard is equipped with inhales the bits magnetic path, inhale bits magnetic path and trough of belt intermediate layer clearance fit, trough of belt intermediate layer below is equipped with synchronous connection cable frame, synchronous connection cable frame is installed in the gangbar top.

Preferably, the scrap-absorbing magnetic block is of an embedded structure and is embedded into the interlayer with the groove when not being punched, and the edge depth of the bearing table is deeper than the center of the bearing table, so that the collection of metal scraps is facilitated.

Preferably, the inner diameter of the chip absorbing layer device is larger than the outer diameter of the bearing, so that the chip absorbing layer device is ensured not to influence the stamping of the bearing.

Preferably, the chip-absorbing magnetic block has a certain distance with the periphery of the punched target bearing when being pulled out.

Preferably, a user can place a bearing sleeve head to be processed and punched above the bearing platform and assemble and fix the bearing sleeve head by the assembling clamping rod, the bottom cushion seat is used for providing the stability of the bearing box, the starting of the punching motor head is controlled by the control box, and then the punching action is carried out on the lower die assembly device due to the matching displacement of the fixed rod hole plate and the hydraulic rod group, when the punching motor head is contacted with the processing bearing, the assembling clamping rod can extrude the spring bottom rod group due to the action of force, meanwhile, the bearing platform can drive the linkage rod to synchronously descend to extrude the connecting spring along the inner loading disc, in the process, due to the connecting state of the synchronous connecting cable frame and the linkage rod, the scrap absorbing magnetic block can be driven to displace towards the inner interlayer groove of the interlayer, the influence on the punching action is reduced, when the punching action is completed, the spring bottom rod group and the connecting spring are, and then inhale the bits magnetic path and just can make remaining metal piece in plummer top adsorb to the periphery because the effect of magnetic attraction, the deepening at plummer edge is handled and also is more favorable to metal piece's collection, and the screw thread circle structure makes inhales bits layer device and is removable dismantlement structure, and then has ensured assembly quality's processing stability and accuracy nature.

Advantageous effects

Compared with the prior art, the invention has the beneficial effects that: in the in-process of carrying out the punching press, through lower module device, the processing steel bushing bearing reduces the pressure that the plummer brought under mutually supporting of assembly kelly and spring sill bar group, simultaneously through the cooperation of distinctive gangbar, can finish when taking up the bearing processing with the peripheral bits of inhaling magnetic path that produces of plummer displacement to the inboard, and then make metal debris adsorbed, keep the clean and tidy of plummer, reduce the trouble of clearance, guarantee punching press mechanism's accuracy simultaneously.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is an appearance structure schematic diagram of a self-scrap-suction stamping device for steel sleeve bearing processing according to the present invention.

Fig. 2 is a schematic top view of the stamping platform body according to the present invention.

FIG. 3 is a detailed structural diagram of the lower module device according to the present invention.

Fig. 4 is a schematic top view of the mounting device of the present invention.

FIG. 5 is a schematic top view of the chip absorbing layer device of the present invention.

In the figure: the stamping device comprises a stamping platform machine body-1, a stamping motor head-2, a hydraulic rod group-3, a bearing box-4, a bottom cushion seat-5, a control box-6, a lower die group device-a, a processing platform-b, a fixed rod orifice plate-c, an assembling device-a 1, a chip absorbing layer device-a 2, a connecting spring-a 3, a spring bottom rod group-a 4, an inner loading disc-a 5, a linkage rod-a 11, an assembling clamping rod-a 12, a bearing table-a 13, a threaded ring-a 21, an interlayer groove-a 22, a synchronous connecting cable frame-a 23 and a chip absorbing magnetic block-a 24.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1 to 5, the present invention provides a technical solution of a self-scrap-suction stamping device for steel sleeve bearing processing: the structure includes: the stamping platform comprises a stamping platform body 1, a stamping motor head 2, a hydraulic rod group 3, a bearing box 4, a base seat 5 and a control box 6, wherein the stamping motor head 2 is arranged above the hydraulic rod group 3 and is buckled with the hydraulic rod group 3, the stamping platform body 1 is arranged below the hydraulic rod group 3, the stamping platform body 1 is movably connected with the hydraulic rod group 3, the stamping platform body 1 is arranged at the upper end of the bearing box 4 and is locked with the bearing box 4, the control box 6 is arranged at the front end of the bearing box 4, the control box 6 is electrically connected with the bearing box 4, the base seat 5 is arranged below the bearing box 4 and is buckled with the base seat 5, the stamping platform body 1 comprises a lower module device a, a processing platform b and a fixed rod hole plate c, the lower module device a is arranged at the inner side of the processing platform b and is movably connected with the processing platform b, the fixed rod c is arranged at four corners of the processing platform b, and the fixed rod hole plate c is buckled with the processing platform b.

The lower module device a comprises an assembling device a1, a chip suction layer device a2, a linking spring a3, a spring bottom rod group a4 and an inner loading disc a5, wherein the assembling device a1 is installed above the spring bottom rod group a4 and is buckled with the spring bottom rod group a4, the assembling device a1 is arranged on the inner side of a chip suction layer device a2 and is in clearance fit with the chip suction layer device a2, the linking spring a3 is arranged below the chip suction layer device a2, the linking spring a3 is installed on the inner side of the inner loading disc a5 and is in clearance fit with the inner loading disc a5, the lower module device a is fixed with a steel sleeve bearing through the assembling device a1 and is further in punching fit with the punching motor head 2, and the punching process of the bearing is completed.

The assembling device a1 comprises a linkage rod a11, an assembling clamping rod a12 and a bearing platform a13, the assembling clamping rod a12 is installed at the center of the bearing platform a13 and welded with the bearing platform a13, the linkage rod a11 is arranged below the bearing platform a13 and buckled with the linkage rod a11, the linkage rod a11 is installed at the periphery of the lower end of the assembling clamping rod a12, the linkage rod a11 is installed above the linking spring a3 and in clearance fit with the linking spring a3, and the assembling device a1 indirectly drives the chip absorbing layer device a2 through the matching of the linkage rod a11 and the linking spring a 3.

The chip absorption layer device a2 comprises a threaded ring a21, a grooved interlayer a22, a synchronous connecting cable frame a23 and a chip absorption magnetic block a24, the grooved interlayer a22 is arranged on the inner side of the threaded ring a21 and fastened with the grooved interlayer a22, a chip absorption magnetic block a24 is arranged on the inner side of the grooved interlayer a22, the chip absorption magnetic block a24 is in clearance fit with the grooved interlayer a22, a synchronous connecting cable frame a23 is arranged below the grooved interlayer a22, the synchronous connecting cable frame a23 is mounted above a linkage rod a11, and the chip absorption layer device a2 drives the chip absorption a24 to displace in the grooved interlayer a22 through the cooperation of the synchronous connecting cable frame a23 so as to absorb metal chips generated above a 13.

The invention is mainly characterized in that: a user can place a bearing sleeve head to be processed and punched above a bearing platform a13 and is assembled and fixed by an assembling clamping rod a12, a base pad seat 5 is used for providing the stability of a bearing box 4, the starting of a punching motor head 2 is controlled by a control box 6, and then the punching action is carried out on a lower module device a due to the matching displacement of a fixed rod hole plate c and a hydraulic rod group 3, when the punching motor head 2 is contacted with a processing bearing, the assembling clamping rod a12 can extrude a spring bottom rod group a4 under the action of force, meanwhile, the bearing platform a13 can drive a linkage rod a11 to synchronously descend to extrude a spring connecting spring a3 along an inner loading disc a5, in the process, due to the connecting state of synchronously connecting a cable frame a23 and the linkage rod a11, a scrap absorbing magnetic block a24 can be driven to displace towards an inner side groove interlayer a22, the influence on the punching action is reduced, when the punching action is finished, the spring bottom rod group a4 and the spring a3 can be reset and connected, and then inhale bits magnetic path a24 just can make the remaining metal debris in plummer a13 top adsorb to the periphery owing to the effect of magnetic attraction, and the deepening at plummer a13 edge is also more favorable to the collection of metal debris, and the screw ring a21 structure makes inhales bits layer device a2 and is removable dismantlement structure, and then has ensured assembly quality a 1's processing stability and accuracy nature.

According to the invention, through the mutual combination of the components, when the equipment is used, the magnetic absorption insert block mechanism is arranged, so that the universal lower die plate is prevented from being a fixed locking device, the requirement on the bearing table below is particularly high, meanwhile, when the equipment is stamped, metal can generate certain scraps due to high pressure, the scraps can stay at the periphery of the lower die set, the dies are accurate structural components, the metal scraps need to be cleaned frequently, otherwise, the accuracy of the mechanism is influenced, the problem of irreversible influence is brought to the equipment, the equipment can automatically cooperate and adsorb the metal scraps generated on the bearing table, and the flatness and accuracy of stamping are further ensured.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (3)

1. A from inhaling bits stamping device for steel sleeve bearing processing, its structure includes: stamping platform organism (1), stamping motor head (2), hydraulic stem group (3), bearing box (4), heelpiece seat (5), control box (6), stamping motor head (2) install in hydraulic stem group (3) top and with hydraulic stem group (3) lock joint, hydraulic stem group (3) below is equipped with stamping platform organism (1), its characterized in that:

the stamping platform machine body (1) is arranged at the upper end of the bearing box (4) and is locked with the bearing box (4), a control box (6) is arranged at the front end of the bearing box (4), the control box (6) is electrically connected with the bearing box (4), and a bottom cushion seat (5) is arranged below the bearing box (4);

the stamping platform machine body (1) comprises a lower die set device (a), a processing platform (b) and fixed rod hole plates (c), wherein the lower die set device (a) is installed on the inner side of the processing platform (b) and is movably connected with the processing platform (b), and the fixed rod hole plates (c) are arranged at four corners of the processing platform (b);

the lower module device (a) comprises an assembling device (a1), a chip absorbing layer device (a2), an engaging spring (a3), a spring bottom rod group (a4) and an inner loading disc (a5), wherein the assembling device (a1) is installed above the spring bottom rod group (a4) and is buckled with the spring bottom rod group (a4), the assembling device (a1) is arranged on the inner side of the chip absorbing layer device (a2), the engaging spring (a3) is arranged below the chip absorbing layer device (a2), and the engaging spring (a3) is installed on the inner side of the inner loading disc (a 5);

the assembling device (a1) comprises a linkage rod (a11), an assembling clamping rod (a12) and a bearing platform (a13), wherein the assembling clamping rod (a12) is installed at the center of the bearing platform (a13), the linkage rod (a11) is arranged below the bearing platform (a13), the linkage rod (a11) is installed at the periphery of the lower end of the assembling clamping rod (a12), and the linkage rod (a11) is installed above a connecting spring (a 3);

inhale bits layer device (a2) including screw thread circle (a21), trough of belt intermediate layer (a22), synchronous connection cable rack (a23), inhale bits magnetic block (a24), screw thread circle (a21) inboard is equipped with trough of belt intermediate layer (a22), trough of belt intermediate layer (a22) inboard is equipped with inhales bits magnetic block (a24), trough of belt intermediate layer (a22) below is equipped with synchronous connection cable rack (a23), install in gangbar (a11) top synchronous connection cable rack (a 23).

2. The self-scrap-suction stamping device for steel sleeve bearing machining according to claim 1, characterized in that: the scrap-absorbing magnetic block (a24) is of an embedded structure and is embedded into the grooved interlayer (a22) when not being punched, and the edge depth of the bearing table (a13) is deeper than the center, so that the collection of metal scraps is facilitated.

3. The self-scrap-suction stamping device for steel sleeve bearing machining according to claim 1, characterized in that: the inner diameter of the chip absorbing layer device (a2) is larger than the outer diameter of the bearing, so that the chip absorbing layer device is ensured not to influence the stamping of the bearing.

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