CN219581470U - Oil way cooling mechanism of high-speed punch - Google Patents

Abstract

The utility model relates to the technical field of radiator processing, in particular to an oil way cooling mechanism of a high-speed punch press, which comprises a bearing transmission mechanism and a cooling stamping mechanism, wherein the bearing transmission mechanism comprises a base, a main supporting plate arranged on the base, a bracket arranged on the base, a servo motor connected in the bracket and a pull rod connected on the servo motor. Through setting up the mould pressing base that can restraint the position support to welding second half, and install the main layer board on the base top body of rod, and strengthen the sloping frame at the outside movable mounting of the body of rod, the slope frame bottom is strengthened in the cooperation is fixed to the montant, when strengthening the sloping frame wholly by pull rod reciprocative traction transmission, the die-cut end of montant bottom alright carry out die-cut processing to half after the welding this moment, and install the shower on montant bottom end outer wall just can last spraying to the die-cut end of its bottom and welded half, thereby avoided montant bottom end to take place the problem that the port curls because of die-cut intensification.

Description

Oil way cooling mechanism of high-speed punch

Technical Field

The utility model relates to the technical field of radiator processing, in particular to an oil way cooling mechanism of a high-speed punch.

Background

In the production and manufacturing links of the radiator, the parts in the radiator are required to be processed by utilizing equipment such as welding, punching, polishing, paint spraying and the like, and the most main parts in the radiator are half parts, so that after the half parts are welded, punching processing is required, a punching assembly is an important assembly in a punching machine, and in order to improve the safety of continuous use of punching equipment, cooling of a punching oil way is very necessary.

When the welded back half piece is processed by punching equipment at present, as the surface temperature of the welded half piece is extremely high, continuous punching of the punching end head on the edge plate of the welded half piece can generate a large amount of heat energy, and the port of the cooling punching end head can not be easily curled during operation, so that the problem of a large amount of burrs in the subsequent half piece punching is caused.

The method aims at processing the half-fin which is welded in the radiator, and how to avoid continuous temperature rise of the die-cut end in the die-cut process of the half-fin after welding is the technical difficulty to be solved by the method.

Disclosure of Invention

The present utility model aims to solve one of the technical problems existing in the prior art or related technologies.

The technical scheme adopted by the utility model is as follows:

the utility model provides an oil circuit cooling body of high-speed punch press, includes bearing drive mechanism and cooling stamping mechanism, bearing drive mechanism includes the base, installs the main layer board on the base, installs support on the base, connects servo motor in the support, connects the pull rod on servo motor, connects eccentric carousel in the pull rod bottom, installs the stand at base top surface one end and installs the mould pressing base on the stand top, cooling stamping mechanism includes movable mounting on the base strengthen oblique frame, connects the sleeve pipe in strengthening oblique frame, installs the montant in strengthening oblique frame bottom, installs the vice layer board on the montant, installs at the outside pipe of cooling storehouse, intercommunication pipe on the pipe and installs the shower outside montant bottom end in the cooling storehouse.

The present utility model may be further configured in a preferred example to: the body of rod has been seted up to the one end at base top, and has seted up the cross bore in the end at body of rod top.

Through adopting above-mentioned technical scheme, utilize to offer the end of constraint in servo motor axostylus axostyle at the top of the body of rod, when servo motor operates, servo motor inner axostylus axostyle just can rotate under the constraint of body of rod top end this moment, and the carousel alright drive pull rod and eccentric carousel of servo motor outer end rotate this moment, strengthen the inclined frame just can carry out reciprocating expansion along the body of rod this moment.

The present utility model may be further configured in a preferred example to: the main supporting plate and the auxiliary supporting plate are both composed of funnel-shaped end parts and pressure springs.

Through adopting above-mentioned technical scheme, utilize main layer board and vice layer board to strengthen the elastic support at sloping both ends respectively, when strengthening the sloping and receiving eccentric carousel and draw and go up and down, in case montant bottom and half die-cut extrusion time, main layer board and vice layer board alright guarantee to strengthen the holistic stability of sloping this moment, avoided its in-process of going up and down to shake.

The present utility model may be further configured in a preferred example to: the rotary table is arranged at the end head of the external shaft lever of the servo motor, and the inserted bars are arranged on the outer wall of the eccentric rotary table and the outer wall of the rotary table.

Through adopting above-mentioned technical scheme, utilize carousel and outer wall inserted bar to the restraint at pull rod top to combine eccentric carousel and outer wall inserted bar to the connection of pull rod bottom, the enhancement inclined frame of this moment can go on reciprocating lift along with servo motor's operation, and die-cut the second half of welding is exerted pressure.

The present utility model may be further configured in a preferred example to: the spray pipe is formed by a plurality of groups of rectangular pipelines and Z-shaped guide pipes, and uniformly distributed spray ports are formed in one rectangular pipeline close to the punching end head at the bottom end of the vertical rod.

Through adopting above-mentioned technical scheme, after the coolant liquid entering cooling bin in the pipe is transferred to through the back flow, the coolant liquid that carries to in a plurality of rectangle pipes through a plurality of zigzag pipes respectively carries out comprehensive cooling to the die-cut end in montant bottom, can combine the coolant liquid that its sprays again to carry out the cooling treatment to half after the die-cut.

By adopting the technical scheme, the beneficial effects obtained by the utility model are as follows:

1. according to the utility model, the die-pressing base capable of carrying out beam position support on the welded rear half piece is arranged, the main supporting plate is arranged on the rod body at the top of the base, the reinforcing inclined frame is movably arranged outside the rod body and matched with the bottom end of the reinforcing inclined frame to fix the vertical rod, when the whole reinforcing inclined frame is driven by the reciprocating traction of the pull rod, the die-cutting end at the bottom of the vertical rod can be subjected to die-cutting treatment on the welded half piece, and the spray pipe arranged on the outer wall of the end at the bottom of the vertical rod can continuously spray against the die-cutting end at the bottom end and the welded half piece, so that the problem of port curling of the end at the bottom of the vertical rod due to die-cutting temperature rise is avoided.

2. According to the utility model, the main supporting plate and the auxiliary supporting plate which can be elastically supported are respectively connected to the two ends of the reinforced inclined frame, so that when the vertical rod descends downwards and presses and punches against the half piece, the main supporting plate and the auxiliary supporting plate can maintain the stability of the gravity center of the reinforced inclined frame, and the problem of shaking in the reciprocating lifting process of the reinforced inclined frame is avoided.

Drawings

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

FIG. 2 is a schematic view of a load bearing transmission mechanism of the present utility model;

FIG. 3 is a schematic view in partial cross-section of FIG. 2 of the present utility model;

fig. 4 is a schematic view of a cooling press mechanism according to the present utility model.

Reference numerals:

100. a bearing transmission mechanism; 110. a base; 120. a main pallet; 130. a bracket; 140. a servo motor; 150. a pull rod; 160. an eccentric turntable; 170. a column; 180. molding a base;

200. cooling the stamping mechanism; 210. reinforcing the inclined frame; 220. a sleeve; 230. a vertical rod; 240. an auxiliary supporting plate; 250. a cooling bin; 260. a conduit; 270. a return pipe; 280. a spray pipe.

Detailed Description

The objects, technical solutions and advantages of the present utility model will become more apparent by the following detailed description of the present utility model with reference to the accompanying drawings. It should be noted that, without conflict, the embodiments of the present utility model and features in the embodiments may be combined with each other.

It is to be understood that this description is merely exemplary in nature and is not intended to limit the scope of the present utility model.

An oil path cooling mechanism of a high-speed punch provided by some embodiments of the present utility model is described below with reference to the accompanying drawings.

Embodiment one:

referring to fig. 1 to 4, the oil path cooling mechanism of a high-speed punch provided by the utility model comprises a bearing transmission mechanism 100 and a cooling stamping mechanism 200, wherein the cooling stamping mechanism 200 is arranged on the bearing transmission mechanism 100.

The load bearing transmission mechanism 100 comprises a base 110, a main supporting plate 120, a bracket 130, a servo motor 140, a pull rod 150, an eccentric turntable 160, a column 170 and a die pressing base 180, and the cooling stamping mechanism 200 comprises a reinforcing inclined frame 210, a sleeve 220, a vertical rod 230, a secondary supporting plate 240, a cooling bin 250, a guide pipe 260, a return pipe 270 and a spray pipe 280.

Specifically, main pallet 120 is installed on base 110, support 130 is installed on base 110, servo motor 140 is connected in support 130, pull rod 150 is connected on servo motor 140, eccentric turntable 160 is connected in the bottom of pull rod 150, stand 170 is installed in one end of the top surface of base 110, die pressing base 180 is installed on the top of stand 170, reinforcing inclined frame 210 is movably installed on base 110, sleeve 220 is connected in reinforcing inclined frame 210, vertical rod 230 is installed at the bottom end of reinforcing inclined frame 210, auxiliary pallet 240 is installed on vertical rod 230, cooling bin 250 is installed at the bottom of vertical rod 230, conduit 260 is connected outside cooling bin 250, return conduit 270 is communicated with conduit 260, and shower pipe 280 is installed outside the end of the bottom of vertical rod 230.

By movably mounting the reinforcing inclined frame 210 outside the rod body and fixing the bottom end of the reinforcing inclined frame 210 to the vertical rod 230, when the whole reinforcing inclined frame 210 is driven by the reciprocating traction of the pull rod 150, the die-cut end at the bottom of the vertical rod 230 can be subjected to die-cut treatment on the welded half piece, the spray pipe 280 arranged on the outer wall of the end at the bottom of the vertical rod 230 can continuously spray the die-cut end at the bottom end and the welded half piece, when the vertical rod 230 falls downwards and presses and punches the half piece, the main supporting plate 120 and the auxiliary supporting plate 240 can maintain the stability of the center of gravity of the reinforcing inclined frame 210, and the cooling treatment can be performed on the die-cut end and the half piece while the shaking in the reciprocating lifting process of the reinforcing inclined frame 210 is avoided.

Embodiment two:

referring to fig. 2 and 3, on the basis of the first embodiment, a rod body is provided at one end of the top of the base 110, a transverse hole is provided in the end of the top of the rod body, a turntable is provided on the end of the external shaft lever of the servo motor 140, and insert rods are provided on the outer wall of the eccentric turntable 160 and the outer wall of the turntable.

By arranging the end constrained to the shaft lever of the servo motor 140 at the top of the rod body, when the servo motor 140 operates, the shaft lever at the inner end of the servo motor 140 rotates under the constraint of the end of the top of the rod body, the rotary disc at the outer end of the servo motor 140 can drive the pull rod 150 and the eccentric rotary disc 160 to rotate, the reinforcing inclined frame 210 can extend reciprocally along the rod body, the constraint of the rotary disc and the outer wall inserted rod to the top of the pull rod 150 is combined, the connection of the eccentric rotary disc 160 and the outer wall inserted rod to the bottom end of the pull rod 150 is combined, and the reinforcing inclined frame 210 at the moment can lift reciprocally along with the operation of the servo motor 140 and die-cut and press the welded rear half.

Embodiment III:

referring to fig. 2 and fig. 4, on the basis of the first embodiment, the main supporting plate 120 and the auxiliary supporting plate 240 are both composed of funnel-shaped end parts and pressure springs, the spraying pipe 280 is composed of a plurality of groups of rectangular pipelines and zigzag pipes, and uniformly distributed spraying ports are formed on one rectangular pipeline near the punching end of the bottom end of the vertical rod 230.

The main supporting plate 120 and the auxiliary supporting plate 240 are utilized to respectively support the two ends of the reinforced inclined frame 210, when the reinforced inclined frame 210 is pulled by the eccentric turntable 160 to lift, once the bottom end of the vertical rod 230 and the half sheet are punched and extruded, the main supporting plate 120 and the auxiliary supporting plate 240 can ensure the overall stability of the reinforced inclined frame 210, and the cooling liquid which is transferred into the guide pipe 260 through the return pipe 270 is matched to enter the cooling bin 250, so that the cooling liquid which is transferred into a plurality of rectangular guide pipes through a plurality of Z-shaped guide pipes can comprehensively cool the punched end at the bottom of the vertical rod 230.

The working principle and the using flow of the utility model are as follows: firstly, the bracket 130 is installed at the top end of the top rod body of the base 110, then the servo motor 140 is installed in the groove at the inner side of the bracket 130, at this time, the shaft rod at one end of the servo motor 140 penetrates to the outside of the top rod body of the base 110, then the pull rod 150 is movably installed on the rotary table of the shaft rod at the outer end of the servo motor 140, then the bottom end of the pull rod 150 is movably installed on the end rod at one side of the eccentric rotary table 160, and the inner end of the eccentric rotary table 160 is installed at the top of the reinforcing inclined frame 210, at this time, the reinforcing inclined frame 210 is elastically supported by the main supporting plate 120, then the die pressing base 180 is installed at the other end of the top of the base 110 by the upright post 170, then the auxiliary supporting plate 240 is installed at the outside of the vertical post 230, at this time, the vertical rod 230 is installed in the end of the bottom of the reinforced inclined frame 210, when the servo motor 140 is started and operated, the pull rod 150 drives the reinforced inclined frame 210 to reciprocally extend along the rod body at the top of the base 110, at this time, the vertical rod 230 installed in the end of the bottom of the reinforced inclined frame 210 can punch the edge of the welded half-piece part, and when the end of the bottom of the vertical rod 230 is repeatedly punched, the spray pipe 280 located on the punched end of the bottom of the vertical rod 230 can cool the cooling liquid towards the punched end and the welded half-piece part, so as to avoid the problem that the end of continuous operation of the punched end of the bottom of the vertical rod 230 is curled due to temperature rise.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the spirit and scope of the utility model as defined by the appended claims and their equivalents.

Claims (5)

1. An oil way cooling mechanism of a high-speed punch press is characterized by comprising a bearing transmission mechanism (100) and a cooling stamping mechanism (200);

the bearing transmission mechanism (100) comprises a base (110), a main supporting plate (120) arranged on the base (110), a bracket (130) arranged on the base (110), a servo motor (140) connected in the bracket (130), a pull rod (150) connected on the servo motor (140), an eccentric rotary table (160) connected at the bottom of the pull rod (150), an upright post (170) arranged at one end of the top surface of the base (110) and a die-pressing base (180) arranged at the top end of the upright post (170);

the cooling stamping mechanism (200) is arranged on the bearing transmission mechanism (100) and comprises a reinforcing inclined frame (210) movably arranged on the base (110), a sleeve (220) connected in the reinforcing inclined frame (210), a vertical rod (230) arranged at the bottom end of the reinforcing inclined frame (210), a secondary supporting plate (240) arranged on the vertical rod (230), a cooling bin (250) arranged at the bottom of the vertical rod (230), a guide pipe (260) connected to the outside of the cooling bin (250), a return pipe (270) communicated with the guide pipe (260) and a spray pipe (280) arranged outside the end head at the bottom of the vertical rod (230).

2. The oil cooling mechanism of a high-speed punching machine according to claim 1, wherein a rod body is provided at one end of the top of the base (110), and a transverse hole is provided in the end of the top of the rod body.

3. The oil cooling mechanism of high speed punch press according to claim 1, wherein the main pallet (120) and the auxiliary pallet (240) are each composed of funnel-shaped end pieces and compression springs.

4. The oil-way cooling mechanism of a high-speed punch press according to claim 1, wherein the end of the outer shaft lever of the servo motor (140) is provided with a rotary disc, and the outer wall of the eccentric rotary disc (160) and the outer wall of the rotary disc are provided with inserted bars.

5. The oil-way cooling mechanism of a high-speed punch press according to claim 1, wherein the spray pipe (280) is formed by a plurality of groups of rectangular pipelines and Z-shaped guide pipes, and uniformly distributed spray ports are formed on one rectangular pipeline near the punching end of the bottom end of the vertical rod (230).