CN116213625A - Impurity removing device for forging process - Google Patents

Abstract

The invention discloses an impurity removing device used in a forging process of a forging, which relates to the field of forging devices and comprises a forging table, wherein one edge of the top end of the forging table is rotationally connected with a forging plate, one edge of the forging table is provided with a lifting rod, the bottom surface of the forging plate is fixedly provided with at least one moving rail, a moving box is arranged on the moving rail in a sliding manner, two ends of the moving box are connected with pull ropes, one end of the moving box is connected with a wire collecting box, the other end of the pull rope is connected with the forging table through a plurality of groups of pulley structures, when the lifting rod stretches to jack the forging plate, the moving box moves towards a pulley on the moving rail, and a knocking hammer is used for knocking the forging plate when the moving box moves towards the pulley on the moving rail. According to the invention, the hydraulic driving inclined forging plate is arranged, and the movable knocking structure is arranged at the bottom end of the forging plate, so that the effect of safely and stably cleaning impurities on the forging table in the forging process is achieved.

Description

Impurity removing device for forging process

Technical Field

The invention relates to the field of forging devices of forgings, in particular to an impurity removing device used in the forging process of forgings.

Background

Forging is a processing method for applying pressure to a metal blank by using forging machinery to enable the metal blank to be plastically deformed so as to obtain a forging piece with certain mechanical properties, a certain shape and a certain size, and is one of two components of forging (forging and stamping).

The existing forgings are often placed on a forging table in the forging process, a hydraulic forging hammer is utilized for forging, the angle of the forgings is adjusted by using a mechanical clamp, when the hydraulic forging hammer extrudes or hammers the forgings, a large amount of oxide layer impurities are often fallen off from the surfaces of the forgings, the forgings fall on the forging table, and if the impurities on the forging table are not cleaned in time, the impurities are very easy to influence the flatness of the surfaces of the forgings.

In the prior art, most of cleaning modes for impurities are manual holding of a steel brush, after a mechanical clamp lifts up a forging piece, impurities on a forging table are brushed away, and impurities on the forging table are cleaned by driving the steel brush in a mechanical mode.

But when sweeping forging bench among the prior art, mechanical clamp all needs long-time to press from both sides the forging, and the forging of high temperature very influences workman's operational environment, and the frequent work of cleaning of workman is very hard, and the forging of high temperature also has the risk that drops simultaneously, has great threat to workman's personal safety, and utilizes mechanical system drive steel brush to rotate or translation to clean, often all is not the clean of manual cleaning, and some stacked oxide layer impurity is difficult to be cleaned, leads to forging bench everywhere to clean difficult degree inconsistent, and mechanical drive steel brush cleaning's mode exists cleans inefficiency, and simultaneously, the steel brush that moves on forging bench also has the risk of being smashed by unexpected forging that falls down.

In summary, the impurity removing device in the forging process of the existing forging is not easy to safely and stably remove impurities in the forging process.

Disclosure of Invention

Based on the above, the invention aims to provide an impurity removing device for a forging process of a forging, so as to solve the technical problem that the existing impurity removing device for the forging process of the forging is not easy to safely and stably remove impurities in the forging process.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an impurity remove device for forging in-process, includes the forging platform, a limit rotation on forging platform top is connected with the forging board, the top surface of forging platform is laminated with the bottom surface of forging board mutually, the forging platform is provided with the jacking rod in one side of relative forging board pivot, the bottom surface of forging board is fixed with at least one and moves the rail, it is provided with the box that moves to move to slide on the rail, the forging platform top is provided with the recess that holds the rail and move the box, both ends that move the box all are connected with the stay cord, the stay cord that moves box one end is connected with the admission box, and the stay cord of the other end passes through multiunit pulley structure connection forging platform, multiunit pulley structure is including setting up move a plurality of pulleys in rail one end and the forging platform recess, during the jacking rod extension will forge the board jack-up, move the box towards moving the pulley on the rail, move to be provided with in parallel with the rail and move the ratchet that moves the box, gear coaxial coupling moves the hammer to move the box outside the recess, move the hammer to beat the hammer and strike the board when beating the rail.

Through adopting above-mentioned technical scheme, set up the forging board of hydraulic drive slope, the bottom surface at the forging board is through connection structure slip setting moving the box, the both sides at moving the box rotate and connect the steel hammer structure, make the in-process that the forging board risees through linkage structure, move the box and slide in the track, the steel hammer rotates simultaneously and beats the forging board when moving the box gliding, the forging board of cooperation slope makes the easy landing of impurity on the forging board, the effect of safe and stable cleaning the impurity on forging table in the forging process has been reached.

The invention further provides that the forging table and the forging plate are provided with locking structures on one side far away from the rotating shaft of the forging plate.

Through adopting above-mentioned technical scheme, lock the forging board through locking structure when forging platform and forging board laminating, effectively avoid forging the board and appear bouncing the condition at the in-process that the forging was forged.

The invention further provides that the locking structure between the forging table and the forging plate comprises a socket and a plug tongue, the socket is arranged on the top surface of the forging table, the plug tongue is fixed on the bottom surface of the forging plate, the socket is mutually matched with the plug tongue, a through hole is formed in the plug tongue, a plug post matched with the through hole in the plug tongue is arranged in the forging table in a sliding manner, the plug post is connected with a second magnet through a connecting rod, the top end of the jacking rod is opposite to the second magnet, a first magnet and a second magnet are arranged, the first magnet and the second magnet repel each other, and a reset spring is arranged between one end of the second magnet far away from the first magnet and the inner wall of the forging table.

By adopting the technical scheme, the locking structure is in a locking state when the lifting rod is not lifted, and the locking structure is automatically unlocked when the lifting rod is lifted.

The invention is further arranged that the two sides of the top end of the jacking rod are both fixedly provided with the first magnet, and the locking structure between the forging table and the forging plate is provided with two groups which are symmetrical to each other.

By adopting the technical scheme, the forging plate can be locked more stably by two groups of mutually symmetrical locking structures.

The invention is further arranged in that the forging plate is provided with lifting lugs at the position of the lifting rods.

By adopting the technical scheme, the lifting rod is effectively prevented from being excessively lifted to be separated from contact with the bottom surface of the forging plate.

The invention is further characterized in that the top end of the jacking rod is of a cylindrical structure, and the cylindrical structure at the top end of the jacking rod is transversely arranged.

By adopting the technical scheme, the contact between the top surface and the bottom surface of the forging plate is more stable in the lifting process of the lifting rod.

The invention further provides that the knocking hammer comprises a metal hammer head and a rubber hammer rod, and the rubber hammer rod of the knocking hammer is of an L-shaped structure.

Through adopting above-mentioned technical scheme, the metal tup can hammer the bottom surface of forging the board and make the better landing of impurity of forging the board top surface, and the rubber hammer pole can take place deformation and make the hammer of beating can rotate circularly, also can absorb certain vibrations simultaneously, effectively avoids vibrations to transmit to ratchet wheel department.

The invention is further arranged that the outer wall of the forging table is provided with a collecting box at one side close to the rotating shaft of the forging plate.

Through adopting above-mentioned technical scheme, collect the oxide layer impurity on forging bench through collecting the box, when promoting operational environment aesthetic measure, the collection oxide layer impurity that can be more convenient is convenient for to the recycle of oxide layer impurity.

In summary, the invention has the following advantages:

according to the invention, the hydraulic driving inclined forging plate is arranged, the box moving structure is arranged on the bottom surface of the forging plate in a sliding manner, the steel hammer structures are rotationally connected to the two sides of the box moving structure, the box moving structure slides in the track in the ascending process of the forging plate through the linkage structure, meanwhile, the steel hammer rotates and strikes the forging plate while the box moving structure slides, and impurities on the forging plate slide easily by matching with the inclined forging plate, so that the effect of safely and stably cleaning the impurities on the forging table in the forging process is achieved;

according to the invention, the forging plate is lifted by the hydraulic rod structure to incline, and even if an accident happens, the forging directly falls on the forging plate, and the pressure relief valve in the hydraulic rod structure relieves pressure, so that the forging plate is stably reset, the structure on the forging table is prevented from being damaged, and meanwhile, the safety of workers can be ensured;

according to the invention, the locking structure which is linked with the hydraulic rod is arranged between the forging table and the forging plate, when the hydraulic rod is not lifted, the locking structure in the forging table locks the forging plate, so that the phenomenon that the forging plate bounces when the forging hammer hammers the forging piece is avoided, the forging plate can be kept stable in the forging process of the forging piece, and the locking of the forging plate can be automatically released when the hydraulic rod is lifted, so that the hydraulic rod can smoothly jack up the forging plate.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is another perspective view of the present invention;

FIG. 3 is a perspective view of the forging plate in a raised state of the present invention;

FIG. 4 is a perspective view of a raised state of the forging plate according to another aspect of the present invention;

FIG. 5 is an enlarged view of FIG. 4A in accordance with the present invention;

FIG. 6 is a front interior view of the transfer case of the present invention;

fig. 7 is a side view of the invention in a side view of the cassette:

fig. 8 is an inside view of the ratchet wheel of the present invention;

FIG. 9 is a front interior view of the locking structure of the forging plate of the present invention.

In the figure: 1. a forging stage; 2. forging a plate; 3. forging a hammer; 4. a lifting rod; 5. lifting the lug; 6. moving a rail; 7. moving the box; 8. shifting the groove; 9. a toothed belt; 10. a ratchet gear; 11. knocking a hammer; 12. a pulley; 13. a wire collecting box; 14. a socket; 15. inserting a tongue; 16. a first magnet; 17. a second magnet; 18. inserting a column; 19. and a collection box.

Description of the embodiments

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the invention.

Hereinafter, an embodiment of the present invention will be described in accordance with its entire structure.

1-9, including forging platform 1, forging platform 1's top is provided with forging hammer 3 through bearing structure, specifically, forging platform 1 and forging plate 2's top surface is the rectangle, forging plate 2's projection towards forging platform 1 and the coincidence of forging platform 1's top surface, forging platform 1's an limit rotation is connected with forging plate 2, forging platform 1's top surface is laminated with forging plate 2's bottom surface, specifically, forging platform 1 is laminated with forging plate 2, make forging plate 2 can bear bigger impact and do not take place deformation, forging platform 1 is provided with jacking rod 4 in the side of relative forging plate 2 pivot, specifically, jacking rod 4 is the hydraulic stem, further, be provided with the relief valve in the hydraulic line of jacking rod 4, can the pressure release protection jacking rod 4 when pressure exceeds the threshold value, when the accident that the forge piece accidentally falls on the inclined forging plate 2 occurs, the forging plate 2 can descend at a uniform speed, a pressure release valve in the lifting rod 4 is opened, the situation that the forging table 1 and parts on the forging table 1 are damaged is effectively avoided, at least one moving rail 6 is fixed on the bottom surface of the forging plate 2, two moving rails 6 are fixed on the bottom surface of the forging plate 2, a moving box 7 is slidably arranged on the moving rail 6, two mutually parallel moving grooves 8 are arranged on the moving rail 6, a sliding strip matched with the moving grooves 8 is arranged at the top end in the moving box 7, rollers are arranged at the bottom of the sliding strip, so that the moving box 7 can slide on the moving rail 6 more easily, grooves for accommodating the moving rail 6 and the moving box 7 are arranged at the top end of the forging table 1, pull ropes are connected at two ends of the moving box 7, a wire collecting box 13 is connected to the pull ropes at one end of the moving box 7, the initial position of the moving box 7 is close to a rotating shaft of the forging plate 2, the winding box 13 is internally provided with a spring which is connected with one end of a rope, the other end of the rope is connected with the moving box 7, when the moving box 7 moves far away from the winding box 13, the spring in the winding box 13 accumulates elastic potential energy, when the moving box 7 loses the pulling force for moving far away from the winding box 13 or the pulling force for moving the moving box 7 far away from the winding box 13 is smaller than the elastic force of the spring, the moving box 7 is pulled to one end of the winding box 13, the process of pulling the moving box 7 to the winding box 13 particularly occurs when the forging plate 2 rotates and resets, the pulling rope at the other end of the moving box 7 is connected with the forging table 1 through a plurality of groups of pulley structures, the plurality of groups of pulley structures comprise a plurality of pulleys 12 arranged at one end of the moving rail 6 and in the groove of the forging table 1, particularly, the pulleys 12 are arranged at one end of the moving rail 6, one is arranged in the groove of the forging table 1, one end of the moving box 7 stretches and stretches through the pulleys 12 in sequence and then is connected in the groove of the forging table 1, when the jacking rod 4 stretches to jack up the forging plate 2, the length side length of a pull rope between the pulleys 12 is long, the moving box 7 is pulled towards the pulley 12 on the moving rail 6, a toothed belt 9 parallel to the moving rail 6 is arranged in the moving rail 6, a ratchet gear 10 matched with the toothed belt 9 is arranged in the moving box 7, in particular, the teeth in the toothed belt 9 are trapezoidal teeth, the ratchet gear 10 is annularly provided with ratchets, so that the ratchet gear 10 can smoothly rotate when the moving box 7 moves towards the pulley 12 on the moving rail 6, otherwise, the ratchet gear 10 does not rotate when the wire collecting box 13 can more easily pull the moving box 7 back, meanwhile, when the moving box 7 moves towards the pulley 12 on the moving rail 6, the knocking hammer 11 can keep rotating with enough torque, the ratchet gear 10 is coaxially connected with the knocking hammer 11 extending to the outside the moving box 7, the knocking hammer 11 is used for knocking the forging plate 2 when the box 7 moves towards the pulley 12 on the moving rail 6, specifically, the angle of the forging plate 2 is gradually increased when the box is lifted, and the knocking hammer 11 moves from the lower end of the inclined forging plate 2 to the upper end to knock, so that oxide impurities on the forging plate 2 can sequentially and smoothly slide down, impurities are further prevented from remaining on the forging plate 2, and the impurities on the forging plate can be well cleaned.

Referring to fig. 9, a locking structure is disposed on one side of the forging table 1 and the forging plate 2 away from the rotation axis of the forging plate 2, the forging plate 2 is locked by the locking structure when the forging table 1 is attached to the forging plate 2, so as to effectively avoid the condition that the forging plate 2 bounces during forging of the forging, and make the forging process more stable, the locking structure between the forging table 1 and the forging plate 2 comprises a socket 14 and a tongue 15, the socket 14 is disposed on the top surface of the forging table 1, the tongue 15 is fixed on the bottom surface of the forging plate 2, the socket 14 and the tongue 15 are mutually matched, a through hole is disposed on the tongue 15, a post 18 matched with the through hole on the tongue 15 is slidably disposed in the forging table 1, the post 18 is connected with a second magnet 17 through a connecting rod, the top end of the lifting rod 4 is opposite to the second magnet 17, the first magnet 16 and the second magnet 17 repel each other, specifically, the first magnet and the second magnet 17 are strong magnets, neither are in direct contact with the high-temperature forging piece, a sufficient distance is reserved between the first magnet and the second magnet, and demagnetization is not easy to occur due to high temperature, a reset spring is arranged between one end of the second magnet 17, which is far away from the first magnet 16, and the inner wall of the forging table 1, so that the locking structure is in a locking state when the lifting rod 4 is not lifted, the locking structure is automatically unlocked when the lifting rod 4 is lifted, when the lifting rod 4 is in a non-lifting state, the first magnet 16 and the second magnet 17 repel each other, the inserting posts 18 orient the through holes on the inserting tongues 15, the forging plate 2 is locked, the reset spring is compressed in a compression state at the moment, once the lifting rod 4 is lifted, the first magnet 16 and the second magnet 17 are mutually separated, the magnetism is insufficient to compress the reset spring, and elastic potential energy accumulated by the reset spring is released at the moment, so that the inserting posts 18 are far away from the inserting tongues 15, the forging plate 2 is unlocked when the forging plate is pulled out of the through hole of the inserting tongue 15, the first magnets 16 are fixed on the two sides of the top end of the jacking rod 4, two groups of mutually symmetrical locking structures are arranged between the forging table 1 and the forging plate 2, and the two groups of mutually symmetrical locking structures can lock the forging plate 2 more stably.

Referring to fig. 3, the forging plate 2 is provided with a lifting lug 5 at the position of the lifting rod 4, so as to effectively avoid the lifting rod 4 from excessively lifting to be separated from the bottom surface of the forging plate 2, the top end of the lifting rod 4 is in a cylindrical structure, and the cylindrical structure at the top end of the lifting rod 4 is transversely arranged, so that the top end of the lifting rod 4 is in line contact with the bottom surface of the forging plate 2, and the contact between the top surface of the lifting rod 4 and the bottom surface of the forging plate 2 is more stable in the lifting process.

Referring to fig. 7, the striking hammer 11 includes a metal hammer head and a rubber hammer rod, specifically, the metal hammer head is a steel hammer, the rubber hammer rod of the striking hammer 11 is in an L-shaped structure, the metal hammer head can hammer the bottom surface of the forging plate 2 to enable impurities on the top surface of the forging plate 2 to slide down better, the rubber hammer rod can deform to enable the striking hammer to rotate circularly, and meanwhile, certain vibration can be absorbed, so that the vibration is effectively prevented from being transmitted to the ratchet gear 10.

Referring to fig. 1, the outer wall of the forging stage 1 is provided with a collecting box 19 at one side close to the rotating shaft of the forging plate 2, oxide layer impurities on the forging stage 1 are collected through the collecting box 19, the oxide layer impurities can be collected more conveniently while the attractive appearance of the working environment is improved, recycling of the oxide layer impurities is facilitated, the cross section of the collecting box 19 is concave, the areas on two sides of the forging stage 1 can be effectively protected, and part of impurities are effectively prevented from sliding from two sides of the forging stage 1.

The working principle of the invention is as follows: the jacking rod 4 jacks up the forging plate 2 to enable the forging plate 2 to incline, the intervals between a plurality of groups of pulleys 12 between one end of the moving rail 6 and the grooves of the forging table 1 are larger and larger in the inclination process of the forging plate 2, the connecting line length between the plurality of groups of pulleys 12 is increased, the moving box 7 is pulled in the process, the knocking hammer 11 continuously rotates to knock the bottom surface of the forging plate 2 in the sliding process of the moving box 7, the continuously inclined forging plate 2 is combined, oxide impurities slide off efficiently, the jacking rod 4 is retracted, the pull ropes between the plurality of groups of pulleys 12 are loosened, the wire collecting box 13 pulls the moving box 7 back and returns at the moment until the pull ropes between the plurality of groups of pulleys 12 are straightened, and meanwhile, the locking structure between the forging table 1 and the forging plate 2 is locked.

Although embodiments of the invention have been shown and described, the detailed description is to be construed as exemplary only and is not limiting of the invention as the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples, and modifications, substitutions, variations, etc. may be made in the embodiments as desired by those skilled in the art without departing from the principles and spirit of the invention, provided that such modifications are within the scope of the appended claims.

Claims (8)

1. Impurity removing device for forging process, including forging platform (1), its characterized in that: one side of the top end of the forging table (1) is rotationally connected with the forging plate (2), the top surface of the forging table (1) is attached to the bottom surface of the forging plate (2), one side of the forging table (1) opposite to the rotating shaft of the forging plate (2) is provided with a jacking rod (4), the bottom surface of the forging plate (2) is fixedly provided with at least one moving rail (6), the moving rail (6) is slidably provided with a moving box (7), the top end of the forging table (1) is provided with a groove for accommodating the moving rail (6) and the moving box (7), both ends of the moving box (7) are connected with pull ropes, one end of the pull rope of the moving box (7) is connected with a wire collecting box (13), the other end of the pull rope is connected with the forging table (1) through a plurality of pulley structures, the pulley structures comprise a plurality of pulleys (12) arranged in one end of the moving rail (6) and the groove of the forging table (1), when the forging plate (2) is jacked up by extension, the moving box (7) moves towards the moving rail (6) and moves towards the moving rail (12), the moving box (7) to the moving rail (6) and moves towards the moving box (6) to the inner side of the tooth (10) and moves towards the inner ratchet wheel (10), the knocking hammer (11) is used for knocking the forging plate (2) when the moving box (7) moves towards the pulley (12) on the moving rail (6).

2. The impurity removal device for use in a forging process of a forging piece according to claim 1, wherein: the forging table (1) and the forging plate (2) are provided with a locking structure on one side far away from the rotating shaft of the forging plate (2).

3. The impurity removing apparatus for use in forging a forging of claim 2, wherein: the utility model provides a lock structure between forging platform (1) and forging board (2) includes socket (14) and inserts tongue (15), socket (14) set up the top surface at forging platform (1), insert tongue (15) are fixed in the bottom surface of forging board (2), socket (14) are mutually supported with insert tongue (15), be provided with perforation on insert tongue (15), be provided with in forging platform (1) with insert tongue (15) on perforation matched with spliced pole (18), spliced pole (18) are connected with second magnet (17) through the connecting rod, the top of jacking rod (4) is provided with first magnet (16) relatively to second magnet (17), repel between first magnet (16) and second magnet (17), be provided with reset spring between the one end that first magnet (16) were kept away from to second magnet (17) and the inner wall of forging platform (1).

4. The impurity removing apparatus for use in forging a forging of claim 3, wherein: the two sides of the top end of the jacking rod (4) are both fixed with first magnets (16), and two groups of symmetrical locking structures between the forging table (1) and the forging plate (2) are arranged.

5. The impurity removal device for use in a forging process of a forging piece according to claim 1, wherein: the forging plate (2) is provided with lifting lugs (5) at the positions of the lifting rods (4).

6. The impurity removal device for use in a forging process of a forging piece according to claim 1, wherein: the top end of the jacking rod (4) is of a cylindrical structure, and the cylindrical structure at the top end of the jacking rod (4) is transversely arranged.

7. The impurity removal device for use in a forging process of a forging piece according to claim 1, wherein: the knocking hammer (11) comprises a metal hammer head and a rubber hammer rod, and the rubber hammer rod of the knocking hammer (11) is of an L-shaped structure.

8. The impurity removal device for use in a forging process of a forging piece according to claim 1, wherein: the outer wall of the forging table (1) is provided with a collecting box (19) at one side close to the rotating shaft of the forging plate (2).

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