CN216461080U - Rotary feeding mechanism of punch press - Google Patents

Abstract

The utility model discloses a rotation formula feeding mechanism of punch press belongs to punch press technical field, including workstation, dead lever, mount A, hydraulic stem A, punching press head, punching press platform, the equal fixed mounting in both sides has the dead lever around workstation top both ends, and fixed mounting has mount A in the middle of the workstation top, and mount A top fixed mounting has hydraulic stem A, and hydraulic stem A bottom fixed mounting has the punching press head, and the workstation top is close to punching press head bottom fixed mounting and has the punching press platform. The utility model discloses staff control electric telescopic handle E stretches out the scraping wings, makes the scraping wings contact the plate that the punching press finishes to promote the plate and drop to the baffle box in, the rethread baffle box deposits in the leading-in storage case of putting the thing inslot of the plate that the punching press finishes, and after the plate that will remain the needs to carry out the punching press finishes and collects the storage case with same mode punching press at the staff, the staff takes out the storage case and carries other workplaces.

Description

Rotary feeding mechanism of punch press

Technical Field

The utility model belongs to the technical field of the punch press, specifically be a rotation formula feeding mechanism of punch press.

Background

A punching machine is a punching press, called a punching machine for short, and generally uses a plate material to perform blanking, punching, forming, deep drawing, trimming, fine punching and the like on the plate material through a die.

The current punch press uses at the staff, when needing to carry out the punching press processing to a large amount of punching press plates, because current punch press does not possess autoloading's mechanism, make still need the staff manual to place the punching press platform surface with the material spare, make like this and produce the potential safety hazard easily, lead to causing the injury to the staff, and also special inconvenient during the use, still need the staff manual material spare after the punching press to take out manually, place the storage incasement again, unusual trouble and more two take time.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: in order to solve the problems, a rotary type feeding mechanism of a punch press is provided.

The utility model adopts the technical scheme as follows: the utility model provides a rotation formula feeding mechanism of punch press, includes workstation, dead lever, mount A, hydraulic stem A, punching press head, punching press platform, the equal fixed mounting in both sides has the dead lever around workstation top both ends, fixed mounting has mount A in the middle of the workstation top, mount A top fixed mounting has hydraulic stem A, hydraulic stem A bottom fixed mounting has the punching press head, the workstation top is close to punching press head bottom fixed mounting and has the punching press platform, workstation top one end is provided with rotation formula feeding mechanism, the dead lever opposite face all is provided with automatic guide mechanism.

Wherein, rotation formula feeding mechanism comprises spout, mount B, electric gyro wheel, electric telescopic handle A, support frame A, electric telescopic handle B, splint A and lug A, workstation top one end fixed mounting has the spout, the spout top is provided with mount B, both sides all are provided with electric gyro wheel through the bearing rotation around mount B bottom both ends, the equal fixed mounting in both ends has electric telescopic handle A around the mount B top, electric telescopic handle A other end fixed mounting has support frame A, the equal fixed mounting in upper and lower both ends of support frame A opposite face has electric telescopic handle B, the equal fixed mounting of the electric telescopic handle B other end has splint A, the equal fixed mounting in splint A opposite face has lug A, lug A has a plurality of, and is and sets up side by side.

Wherein, automatic guide mechanism comprises lead screw slide rail A, lead screw slide rail B, mount C, electric telescopic handle C, support frame B, electric telescopic handle D, splint B and lug B, the equal fixed mounting of dead lever opposite face has lead screw slide rail A, it is provided with lead screw slide rail B all to slide through the slider between the lead screw slide rail A, lead screw slide rail B opposite face all slides through the slider and is provided with mount C, the equal fixed mounting of mount C opposite face has electric telescopic handle C, electric telescopic handle C other end fixed mounting has support frame B, the equal fixed mounting in upper and lower both sides of support frame B front end has electric telescopic handle D, the equal fixed mounting of electric telescopic handle D opposite face has splint B, the equal fixed mounting of splint B opposite face has lug B, lug B has a plurality of, and is and sets up side by side.

The material pushing device comprises a workbench, a storage tank, a storage plate, an electric telescopic rod E, a material pushing plate and a material pushing plate, wherein a groove is formed in the middle of the other end of the top of the workbench, the front end of the workbench is embedded into the other end of the top of the workbench, the material pushing plate is arranged between the storage tank and the groove, a material storage tank is arranged on the inner side of the material pushing plate, the hydraulic rod B is fixedly mounted at two ends of the bottom of the groove, the material pushing plate is fixedly mounted between the tops of the hydraulic rod B, the electric telescopic rod E is fixedly mounted at the other end of the inner side of the groove, and the material pushing plate is fixedly mounted at the other end of the electric telescopic rod E.

And the outer surfaces of the lug A and the lug B are made of silicon rubber.

And the outer surfaces of the lug A and the lug B are both made of foamed rubber.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. this kind of rotation formula feeding mechanism of punch press can make staff control electric telescopic handle A stretch out support frame A through being provided with electric gyro wheel and splint A, and electric telescopic handle B of controlling again stretches out splint A, makes the lug A on splint A surface contact punching press plate both ends surface, with punching press plate centre gripping back, and the staff opens the supporting motor of electric gyro wheel and drives electric gyro wheel and slide in the spout inboard, makes mount B move the spout other end through electric gyro wheel.

2. This kind of rotation formula feeding mechanism of punch press is through being provided with put thing board and scraping wings, can make staff control hydraulic stem B shrink and put thing board to the recess inside, and at this moment the staff controls electric telescopic handle E again and stretches out the scraping wings, makes the scraping wings contact the plate that the punching press finishes to in promoting the plate and dropping the baffle box, deposit in the leading-in storage case of putting the thing inslot of the plate that the rethread baffle box finishes the punching press.

Drawings

FIG. 1 is a schematic diagram of a front sectional structure of a punch press according to the present invention;

FIG. 2 is a schematic diagram of a plane structure of the middle punch press of the present invention;

FIG. 3 is a schematic diagram of a side view structure of a middle fixing frame B of the present invention;

FIG. 4 is a schematic diagram of a side view structure of a middle support frame B of the present invention;

fig. 5 is a schematic sketch of the front perspective structure of the middle splint B of the present invention.

The labels in the figure are: 1. a work table; 101. a chute; 102. fixing the rod; 103. a fixed mount A; 104. a hydraulic rod A; 105. punching a head; 106. a punching stage; 2. a fixed mount B; 201. an electric roller; 202. an electric telescopic rod A; 203. a support frame A; 204. an electric telescopic rod B; 205. a splint A; 206. a bump A; 3. a screw rod slide rail A; 301. a screw rod slide rail B; 302. a fixed frame C; 303. an electric telescopic rod C; 304. a support frame B; 305. an electric telescopic rod D; 306. a splint B; 307. a bump B; 4. a groove; 401. a material guide chute; 5. a hydraulic rod B; 501. a storage plate; 6. an electric telescopic rod E; 601. a material pushing plate; 7. a storage groove; 8. a material storage box.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model discloses in:

referring to fig. 1-5, a rotation type feeding mechanism of punch press, including workstation 1, dead lever 102, mount A103, hydraulic stem A104, punching press head 105, punching press platform 106, equal fixed mounting in both sides has dead lever 102 around the 1 top both ends of workstation, fixed mounting has mount A103 in the middle of the 1 top of workstation, mount A103 top fixed mounting has hydraulic stem A104, hydraulic stem A104 bottom fixed mounting has punching press head 105, 1 top of workstation is close to punching press head 105 bottom fixed mounting has punching press platform 106, 1 top one end of workstation is provided with rotation type feeding mechanism, the dead lever 102 opposite face all is provided with automatic guide mechanism.

Referring to fig. 1, 2 and 3, further, the rotary feeding mechanism is composed of a chute 101, a fixing frame B2, an electric roller 201, an electric telescopic rod a202, a supporting frame a203, an electric telescopic rod B204, a clamping plate a205 and a projection a 206;

one end of the top of the workbench 1 is fixedly provided with a chute 101, the top of the chute 101 is provided with a fixed frame B2, the front side and the rear side of two ends of the bottom of a fixed frame B2 are respectively provided with an electric roller 201 through a bearing in a rotating way, the front end and the rear end of the top of a fixed frame B2 are respectively and fixedly provided with an electric telescopic rod A202, the other end of the electric telescopic rod A202 is fixedly provided with a supporting frame A203, the upper end and the lower end of the opposite surface of the supporting frame A203 are respectively and fixedly provided with an electric telescopic rod B204, the other end of the electric telescopic rod B204 is respectively and fixedly provided with a clamping plate A205, the opposite surface of the clamping plate A205 is respectively and fixedly provided with a convex block A206, a plurality of convex blocks A206 are arranged in parallel, when a worker needs to use a punching machine to punch a large number of plates, the worker carries a large number of plates to a working site, and places one of the plates between two pairs of clamping plates A205, the worker controls the electric telescopic rods A202 to extend out of the supporting frame A203 and then controls the electric telescopic rods B204 to extend out of the clamping plates A205, the convex block a206 on the surface of the clamping plate a205 is contacted with the two end surfaces of the punching plate, after the punching plate is clamped, a worker opens the motor matched with the electric roller 201 to drive the electric roller 201 to slide on the inner side of the sliding groove 101, so that the fixing frame B2 moves to the other end of the sliding groove 101 through the electric roller 201 to perform secondary feeding processing.

Referring to fig. 1, 2, 4 and 5, further, the automatic material guiding mechanism is composed of a lead screw slide rail a3, a lead screw slide rail B301, a fixed frame C302, an electric telescopic rod C303, a supporting frame B304, an electric telescopic rod D305, a clamping plate B306 and a projection B307;

the opposite surfaces of the fixed rod 102 are fixedly provided with screw rod slide rails A3, screw rod slide rails B301 are arranged between the screw rod slide rails A3 in a sliding manner through sliders, the opposite surfaces of the screw rod slide rails B301 are provided with fixed frames C302 in a sliding manner through sliders, the opposite surfaces of the fixed frames C302 are fixedly provided with electric telescopic rods C303, the other ends of the electric telescopic rods C303 are fixedly provided with supporting frames B304, the upper side and the lower side of the front end of each supporting frame B304 are fixedly provided with electric telescopic rods D305, the opposite surfaces of the electric telescopic rods D305 are fixedly provided with clamping plates B306, the opposite surfaces of the clamping plates B306 are fixedly provided with convex blocks B307, a plurality of the convex blocks B307 are arranged in parallel, when the fixed frame B2 moves to the other end of the sliding chute 101 through an electric roller 201, so that the two unclamped ends of a stamping plate clamped at the top of the fixed frame B2 respectively correspond to the fixed frame C302, a worker controls the screw rod slide rails A3 to drive the two opposite screw rod slide rails B301 to descend through sliders, after two supporting frames B304 are leveled with the stamping plate, a worker controls an electric telescopic rod C303 to extend out of the supporting frames B304, the stamping plate is positioned between the supporting frames B304, the worker controls an electric telescopic rod D305 to extend out of a clamping plate B306, a bump B307 on the surface of the clamping plate B306 is contacted with the surface of the stamping plate to clamp the other two ends of the stamping plate, the worker controls an electric telescopic rod B204 to contract a clamping plate A205, controls an electric telescopic rod A202 to contract a supporting frame A203, controls a screw rod sliding rail A3 to drive the stamping plate to rise through a sliding block, controls a screw rod sliding rail B301 to drive the stamping plate to move to the top of a stamping table 106 through the sliding block, controls a screw rod sliding rail A3 to drive the stamping plate to fall through the sliding block, enables the stamping plate to be contacted with the surface of the stamping table 106, controls the electric telescopic rod D to contract the clamping plate B306, controls the electric telescopic rod C303 to contract the supporting frame B305, the staff control hydraulic stem A104 descends punching press head 105 and carries out punching press processing to punching press board spare, and at this moment the plate punching press back that finishes, the staff again carries out the centre gripping with the plate after the punching press with same mode to control lead screw slide rail A3 and drive the punching press plate through the slider and rise, and control lead screw slide rail B301 passes through the slider and drives the punching press plate and remove to the recess 4 top again.

Referring to fig. 1, further, a groove 4 is embedded in the middle of the other end of the top of the workbench 1, an article placing groove 7 is embedded in the other end of the front end of the workbench 1, a material guide groove 401 is embedded between the article placing groove 7 and the groove 4, a material storage box 8 is arranged inside the article placing groove 7, hydraulic rods B5 are fixedly mounted at both ends of the bottom of the groove 4, an article placing plate 501 is fixedly mounted between the tops of the hydraulic rods B5, an electric telescopic rod E6 is fixedly mounted at the other end of the inner side of the groove 4, a material pushing plate 601 is fixedly mounted at the other end of the electric telescopic rod E6, when a stamped plate moves to the top of the groove 4, a worker controls the hydraulic rod B5 to extend out of the article placing plate 501, so that after the article placing plate 501 contacts the bottom of the stamped plate, the worker controls the electric telescopic rod D305 to retract the clamping plate B306 and controls the electric telescopic rod C303 to retract the supporting frame B304, the worker controls the hydraulic rod B5 to retract the article placing plate 501 to the inside of the groove 4, at this moment, the staff controls the electric telescopic rod E6 to stretch out the material pushing plate 601 again, so that the material pushing plate 601 contacts the plate after the stamping, the plate is pushed to fall into the material guiding groove 401, the plate after the stamping is guided into the material storage box 8 in the material storage groove 7 through the material guiding groove 401 to be stored, and after the staff finishes the stamping of the rest plates needing the stamping in the same manner and collects the plate into the material storage box 8, the staff takes out the material storage box 8 to be carried to other work sites.

Referring to fig. 1 to 5, further, the hydraulic rod a102 and the hydraulic rod B5 are both electrically connected to an external power source through a control panel, the electric roller 201 is electrically connected to a battery through a matching motor, and the electric telescopic rod a202, the electric telescopic rod B204, the lead screw slide rail A3, the lead screw slide rail B301, the electric telescopic rod C303, the electric telescopic rod D305, and the electric telescopic rod E6 are all electrically connected to the battery through the control panel.

Referring to fig. 1, 3, 4 and 5, further, the materials of the outer surfaces of the bump a206 and the bump B307 are silicon rubber, and because the silicon rubber has a characteristic of high active adsorption, when the pressing plate is clamped by the clamping plate a205 and the clamping plate B306, respectively, the bump a206 and the bump B307 are in contact with the surface of the pressing plate, and at this time, the friction between the bump a206 and the bump B307 and the pressing plate is increased, so that the pressing plate can be prevented from falling off.

As shown in fig. 1, 3, 4, 5, the utility model discloses outside the embodiment with lug a206 and lug B307 surface material be silicon rubber, there is still another implementation, lug a206 and lug B307 surface material are foam rubber, because of the foam rubber material has light and handy wear-resisting and skid-proof characteristic, can make splint a205 and splint B306 respectively when centre gripping punching press plate, will make lug a206 and lug B307 contact on the punching press plate surface, at this moment will make the friction increase between lug a206 and lug B307 and the punching press plate, when can preventing that the punching press plate from causing to drop, have anti tearing, the foam rubber material of characteristic resistance to wears, can prevent that splint a205 and splint B306 clamping force is too big makes lug a206 and lug B307 produce to tear and damage.

The working principle is as follows: firstly, when a worker needs to use a punching machine to punch a large number of plates, the worker carries the large number of plates to a working place, and places one of the plates between two pairs of clamping plates A205, then controls the electric telescopic rod A202 to extend out of the supporting frame A203, and controls the electric telescopic rod B204 to extend out of the clamping plate A205, so that the bump A206 on the surface of the clamping plate A205 contacts with the surfaces of two ends of the punched plate, after the punched plate is clamped, the worker opens a motor matched with the electric roller 201 to drive the electric roller 201 to slide on the inner side of the sliding groove 101, so that the fixing frame B2 moves to the other end of the sliding groove 101 through the electric roller 201, so that the two unclamped ends of the punched plate clamped at the top of the fixing frame B2 are respectively opposite to the fixing frame C302, and then controls the lead screw sliding rail A3 to drive the two opposite lead screw sliding rails B301 to descend through the sliding blocks, so that the two supporting frames B304 are flush with the punched plate, the worker controls the electric telescopic rod C303 to extend out of the support frames B304, so that the punching plate is positioned between the support frames B304, then controls the electric telescopic rod D305 to extend out of the clamp plate B306, so that the lug B307 on the surface of the clamp plate B306 is contacted with the surface of the punching plate to clamp the other two ends of the punching plate, at this time, the worker controls the electric telescopic rod B204 to retract the clamp plate A205, controls the electric telescopic rod A202 to retract the support frame A203, controls the lead screw slide rail A3 to drive the punching plate to ascend through the slide block, controls the lead screw slide rail B301 to drive the punching plate to move to the top of the punching table 106 through the slide block, controls the lead screw slide rail A3 to drive the punching plate to descend through the slide block, so that the punching plate is contacted with the surface of the punching table 106, controls the electric telescopic rod D305 to retract the clamp plate B306, controls the electric telescopic rod C303 to retract the support frame B304, controls the worker to control the hydraulic rod A104 to descend the punching head 105 to perform punching processing on the punching plate, at this time, after the plate is stamped, the worker clamps the stamped plate in the same way, controls the lead screw slide rail a3 to drive the stamped plate to rise through the slider, controls the lead screw slide rail B301 to drive the stamped plate to move to the top of the groove 4 through the slider, finally controls the hydraulic rod B5 to extend out of the object placing plate 501, controls the electric telescopic rod D305 to retract the clamp plate B306 after the object placing plate 501 contacts the bottom of the stamped plate, controls the electric telescopic rod C303 to retract the support frame B304, controls the hydraulic rod B5 to retract the object placing plate 501 into the groove 4, controls the electric telescopic rod E6 to extend out the material pushing plate 601 at this time, enables the material pushing plate 601 to contact the stamped plate, pushes the plate to fall into the material guide chute 401, and guides the stamped plate into the material storage box 8 in the object placing chute 7 through the material guide chute 401 to be stored, and after the staff finishes stamping the rest plates needing stamping in the same way and collects the plates into the storage box 8, the staff takes out the storage box 8 and carries the plates to other work sites.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. The utility model provides a rotation formula feeding mechanism of punch press, includes workstation (1), dead lever (102), mount A (103), hydraulic stem A (104), punching press head (105), punching press platform (106), the equal fixed mounting in both sides has dead lever (102) around workstation (1) top both ends, fixed mounting has mount A (103) in the middle of workstation (1) top, mount A (103) top fixed mounting has hydraulic stem A (104), hydraulic stem A (104) bottom fixed mounting has punching press head (105), workstation (1) top is close to punching press head (105) bottom fixed mounting and has punching press platform (106), its characterized in that: one end of the top of the workbench (1) is provided with a rotary feeding mechanism, and the opposite surfaces of the fixed rods (102) are provided with automatic material guide mechanisms.

2. The rotary feeding mechanism of a punch press according to claim 1, wherein: the rotary type feeding mechanism consists of a sliding groove (101), a fixing frame B (2), an electric roller (201), an electric telescopic rod A (202), a supporting frame A (203), an electric telescopic rod B (204), a clamping plate A (205) and a bump A (206);

workstation (1) top one end is provided with spout (101), spout (101) top is provided with mount B (2), both sides all are provided with electric gyro wheel (201) through the bearing rotation around mount B (2) bottom both ends, both ends all are provided with electric telescopic handle A (202) around mount B (2) top, electric telescopic handle A (202) other end fixed mounting has support frame A (203), the upper and lower both ends of support frame A (203) opposite face all are provided with electric telescopic handle B (204), the equal fixed mounting of electric telescopic handle B (204) other end has splint A (205), the equal fixed mounting of splint A (205) opposite face has lug A (206), lug A (206) have a plurality of, and are and set up side by side.

3. The rotary feeding mechanism of a punch press according to claim 1, wherein: the automatic material guide mechanism consists of a screw rod slide rail A (3), a screw rod slide rail B (301), a fixing frame C (302), an electric telescopic rod C (303), a supporting frame B (304), an electric telescopic rod D (305), a clamping plate B (306) and a lug B (307);

dead lever (102) opposite face all is provided with lead screw slide rail A (3), it is provided with lead screw slide rail B (301) all to slide through the slider between lead screw slide rail A (3), lead screw slide rail B (301) opposite face all is provided with mount C (302) through the slider activity, the equal fixed mounting of mount C (302) opposite face has electric telescopic handle C (303), electric telescopic handle C (303) other end fixed mounting has support frame B (304), the upper and lower both sides of support frame B (304) front end all are provided with electric telescopic handle D (305), electric telescopic handle D (305) opposite face all is provided with splint B (306), the equal fixed mounting of splint B (306) opposite face has lug B (307), lug B (307) have a plurality of, and are and set up side by side.

4. The rotary feeding mechanism of a punch press according to claim 1, wherein: embedding is provided with recess (4) in the middle of workstation (1) the top other end, workstation (1) front end other end embedding is provided with puts thing groove (7), it is provided with baffle box (401) to put the embedding between thing groove (7) and recess (4), it is provided with storage case (8) to put thing groove (7) inboard, the equal fixed mounting in recess (4) bottom both ends has hydraulic stem B (5), be provided with between hydraulic stem B (5) the top and put thing board (501), recess (4) inboard other end fixed mounting has electric telescopic handle E (6), electric telescopic handle E (6) other end fixed mounting has scraping wings (601).

5. The rotary feeding mechanism of a punch press according to claim 2, wherein: the materials of the outer surfaces of the convex block A (206) and the convex block B (307) are silicon rubber.

6. The rotary feeding mechanism of a punch press according to claim 2, wherein: the outer surfaces of the lug A (206) and the lug B (307) are both made of foamed rubber.

Images