CN114953568B - Push-out structure of scrap iron cake press - Google Patents

Abstract

The invention relates to the field of forging equipment, in particular to a push-out structure of a scrap iron cake press, which comprises the following components: the support platform and the shell are connected with the support platform; the cake pressing mechanism is connected with the shell; the vibration mechanism is connected with the supporting table and the cake pressing mechanism; wherein, cake pressing mechanism includes: the extrusion assembly is connected with the shell; the ejection assembly is arranged between the shell and the extrusion assembly; the pushing component is arranged at the outer side of the extrusion component and used for pushing out the discus after being ejected out; the connecting component is arranged between the pushing component and the ejection component, and the pushing component and the ejection component are arranged, so that the compressed discus can be automatically discharged from the inner side of the shell, a worker can receive materials more conveniently, and the working efficiency of the worker is improved.

Description

Push-out structure of scrap iron cake press

Technical Field

The invention relates to the field of forging equipment, in particular to a push-out structure of a scrap iron cake press.

Background

When the scrap iron is transported, a large amount of space is occupied, about three tons of scrap iron needs 186m, the space is wasted greatly, but after the scrap iron is shaped by a scrap iron cake press, the storage space of the scrap iron is 85m, the space rate is saved by 54.3 percent, meanwhile, the scattered scrap iron is scattered and is difficult to arrange, about 3 tons of scrap iron needs 9.6 meters of truck transportation, and after the scrap iron is pressed into cakes, the scrap iron can be transported by a train of 4.6 meters, so that the transportation cost is saved greatly, the selling price of the scrap iron is only one half of the price of waste steel, the volume is reduced after the scrap iron is pressed into cakes, and the selling price is increased by 30 percent.

The existing iron fillings cake press is after the extrusion is accomplished, takes out the discus through the manpower generally, and the trouble that the receipts material is very influences iron fillings machining efficiency, consequently, to above current situation, need urgently develop an iron fillings cake press release structure to overcome the not enough in the current practical application.

Disclosure of Invention

The invention aims to provide a push-out structure of a scrap iron cake press, which aims to solve the problems in the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions:

an ejection structure of a scrap iron cake press, comprising:

the support platform and the shell are connected with the support platform;

the cake pressing mechanism is connected with the shell;

the vibration mechanism is connected with the supporting table and the cake pressing mechanism and is used for driving the supporting table to vibrate in cooperation with the cake pressing mechanism;

wherein, cake pressing mechanism includes:

the extrusion assembly is connected with the shell and is used for extruding scrap iron;

the ejection assembly is arranged between the shell and the extrusion assembly and is used for ejecting the discus positioned at the inner side of the extrusion assembly;

the pushing component is arranged at the outer side of the extrusion component and used for pushing out the discus after being ejected out;

the connecting component is arranged between the pushing component and the ejection component and is used for being matched with the ejection component to drive the pushing component.

Compared with the prior art, the invention has the beneficial effects that:

when the device operates, the extrusion subassembly suppresses the iron disc with iron fillings into, and the iron disc is ejecting after the suppression, simultaneously, ejecting subassembly passes through the coupling assembling drive pushing assembly, pushing assembly can be with the iron disc from the inboard release of casing after the iron disc is ejecting completely, ejecting subassembly can also drive vibration mechanism realizes the vibration of casing, utilizes the vibration of casing for the iron disc can take place the separation with ejecting subassembly by ejecting in-process, and then conveniently promotes the subassembly and promote, this application is in order to push the iron disc press in prior art after the extrusion is accomplished, takes out the iron disc through the manpower generally, and the material is very troublesome, influences iron disc machining efficiency, through setting up ejecting subassembly and pushing assembly for the iron disc after the compression can follow the inboard automatic discharge of casing, thereby make the staff can more convenient receive the material, improved staff's work efficiency.

Drawings

Fig. 1 is a schematic structural view of a push-out structure of a scrap iron cake press.

Fig. 2 is a schematic diagram of the pushing assembly in the pushing structure of the scrap iron cake press.

Fig. 3 is a schematic view of a part of the structure of the connecting assembly in the pushing structure of the scrap iron cake press.

Fig. 4 is a schematic structural view of a driving plate in the push-out structure of the scrap iron cake press.

In the figure: the device comprises a 1-supporting table, a 2-shell, a 3-placing box, a 4-placing groove, a 5-pressing plate, a 6-telescopic piece, a 7-supporting plate, an 8-sliding rod, a 9-movable plate, a 10-fixed rod, an 11-driving piece, a 12-first gear, a 13-driving rod, a 14-belt wheel, a 15-belt, a 16-rotating rod, a 17-driving block, a 18-driving plate, a 19-first rack, a 20-second rack, a 21-pushing plate, a 22-pushing rod, a 23-fixing frame, a 24-protective cover, a 25-cushion pad, a 26-collecting box, a 27-placing plate, a 28-first elastic piece, a 29-base, a 30-threaded rod, a 31-driven rod, a 32-connecting rod, a 33-controlling rod, a 34-sliding plate, a 35-connecting rope, a 36-second elastic piece, a 37-guiding frame, a 38-second gear, a 39-rope wheel and a 40-limiting block.

Detailed Description

The technical scheme of the patent is further described in detail below with reference to the specific embodiments.

Embodiments of the present patent are described in detail below, examples of which are illustrated in the accompanying drawings, wherein the same or similar reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present patent and are not to be construed as limiting the present patent.

Referring to fig. 1, in one embodiment of the present invention, a pushing structure of a scrap iron cake press comprises: a support table 1 and a housing 2, the housing 2 being connected to the support table 1; the cake pressing mechanism is connected with the shell 2; the vibration mechanism is connected with the supporting table 1 and the cake pressing mechanism and is used for driving the supporting table 1 to vibrate in cooperation with the cake pressing mechanism; wherein, cake pressing mechanism includes: the extrusion assembly is connected with the shell 2 and is used for extruding scrap iron; the ejection assembly is arranged between the shell 2 and the extrusion assembly and is used for ejecting the discus positioned at the inner side of the extrusion assembly; the pushing component is arranged at the outer side of the extrusion component and used for pushing out the discus after being ejected out; the connecting component is arranged between the pushing component and the ejection component and is used for being matched with the ejection component to drive the pushing component.

In this embodiment, when the device operates, extrusion subassembly suppresses the iron cake with iron fillings into, and the iron cake is ejecting with the iron cake after the suppression, simultaneously, ejection subassembly passes through the coupling assembling drive pushing assembly, pushing assembly can be with the iron cake from casing 2 inboard after the iron cake is ejecting completely, ejection subassembly can also drive vibration mechanism realizes the vibration of casing 2, utilizes casing 2's vibration for the iron cake can take place the separation with ejection subassembly by ejecting in-process, and then conveniently promotes the subassembly to promote, this application is in the extrusion back of accomplishing for iron cake press among the prior art, takes out the iron cake generally through the manpower, and the trouble of receiving the material ten minutes influences iron fillings machining efficiency, through setting up ejection subassembly and pushing assembly for the iron cake after the compression can follow casing 2 inboard automatic discharge, thereby make the staff can more convenient receive the material, improved staff's work efficiency.

In one embodiment of the invention, the extrusion assembly comprises: the placing box 3 is connected with the shell 2, and a placing groove 4 is arranged on the inner side of the placing box 3 and is used for placing scrap iron; the pressing plate 5 is arranged opposite to the placing groove 4, is connected with the shell 2 through a telescopic piece 6 and is used for being matched with telescopic extrusion scrap iron of the telescopic piece 6.

In this embodiment, the extensible member 6 is the hydraulic telescoping rod, extensible member 6 fixed connection sets up clamp plate 5 with between the casing 2, through setting up extrusion subassembly, can accomplish the extrusion to the iron fillings, and then make the discus.

In one embodiment of the present invention, the ejection assembly includes: the supporting plate 7 is slidably connected to the inner side of the placing groove 4 and is used for supporting the pressed discus; the movable plate 9 is arranged on the inner side of the placement box 3 in a sliding connection manner, one end of the movable plate 9 is connected with the support plate 7 through a sliding rod 8, and the other end of the movable plate is connected with a fixed rod 10; the driving piece 11 is arranged between the placement box 3 and the supporting table 1, and is connected with the supporting table 1; the regulation pole, regulation pole one end with dead lever 10 threaded connection, the other end with supporting bench 1 rotates to be connected, through the gear piece with driving piece 11 output links to each other, and through the driving piece with coupling assembling links to each other, is used for the cooperation driving piece 11 drive the lifting of backup pad 7 is realized to the dead lever.

In this embodiment, the driving piece 11 is driving motor, the driving piece 11 with supporting bench 1 fixed connection, wherein, the gear piece includes fixed connection setting and is in the first gear 12 in the driving piece 11 output outside and fixed connection setting are in the third gear in the regulation pole outside, first gear 12 and third gear meshing are connected, the driving piece includes band pulley 14 and belt, band pulley 14 is located respectively on regulation pole and the coupling assembling, and belt 15 is used for connecting both sides band pulley 14, through setting up ejecting subassembly, driving piece 11 passes through the gear piece drive regulation pole is rotatory, and it can be realized to adjust the pole cooperation dead lever 10 the lift of backup pad 7, and backup pad 7 will be located the discus of standing groove 4 is ejecting, simultaneously, adjusts the pole can pass through the driving piece drive coupling assembling, coupling assembling drive pushing assembly can be released the discus after being ejected, and then makes things convenient for the staff to receive the material.

In one embodiment of the present invention, referring to fig. 1 and 2, the pushing assembly includes: the fixing frame 23, the fixing frame 23 is fixedly connected with the placing box 3; the pushing plate 21 is arranged on the outer side of the placing groove 4 and is in sliding connection with the placing box 3; the sliding plate 34 is slidably connected to the inner side of the fixed frame 23, one end of the sliding plate 34 is connected to the push plate 21 through the push rod 22, and the other end of the sliding plate is connected to the fixed frame 23 through the second elastic member 36 and the connecting assembly, so as to cooperate with the connecting assembly to drive the push plate 21 to push out the discus.

In this embodiment, the push plate 21 is disposed between the placement groove 4 and the pressing plate 5, where the second elastic member 36 is a second spring, the second elastic member 36 is fixedly connected to be disposed between the slide plate 34 and the fixing frame 23, by setting a pushing component, the slide plate 34 is driven to move towards a side close to the discus by the connection component in the process of being ejected from the inner side of the placement groove 4, and then the slide plate 34 is driven to move towards a side far away from the discus, and the second elastic member 36 is extruded, after the discus is completely separated from the placement groove 4, the connection component can release the stretching of the slide plate 34, and the slide plate 34 pushes out the discus through the push plate 21 under the driving of the second elastic member 36, so that a worker can more conveniently collect the discus, and the working efficiency of the worker is improved.

In one embodiment of the present invention, referring to fig. 1, 3 and 4, the connection assembly includes: a connection box connected to the fixing frame 23; the transmission rod 13 is rotationally connected with the connecting box and is connected with the transmission piece; the rotating rod 16 is arranged on the outer side of the transmission rod 13 and is rotationally connected with the connecting box; the rope wheel 39, the rope wheel 39 is fixedly connected with the rotating rod 16, and is connected with the sliding plate 34 through a connecting rope 35; the transmission plate 18 is arranged between the transmission rod 13 and the rotating rod 16, is connected with a transmission block 17 which is arranged on the outer side of the transmission rod 13 in a threaded connection manner, and is used for being matched with the transmission rod 13 to move along the wall of the connecting box; the first rack 19 and the second rack 20 are longitudinally arranged at intervals, are connected with the transmission plate 18, are meshed with the second gear 38 arranged on the outer side of the rotating rod 16, and are used for driving the rotating rod 16 to rotate in cooperation with lifting of the transmission plate 18.

In this embodiment, the pulley 14 is fixedly connected to the outer side of the driving rod 13, the two sides of the driving plate 18 are fixedly connected to the limiting block 40, the limiting block 40 is slidably connected with the limiting groove formed in the wall of the connecting box, by arranging the connecting assembly, in the process of performing discus ejection, the first rack 19 cooperates with the second gear 38 to drive the rotating rod 16 to rotate, so that the connecting rope 35 is separated from the rope wheel 39, then the rope wheel 39 is wound by the second rack 20 and the second gear 38, so as to compress the second elastic member 36, along with the continued movement of the driving plate 18, the second rack 20 is separated from the second gear 38, the rotating rod 16 can freely rotate, the second elastic member 36 drives the push plate 21 to push out the discus, in the process of resetting the supporting plate 7, the second rack 20 cooperates with the second gear 38 to drive the rope wheel 39 to wind the connecting rope 35, when the second gear 38 is located between the first rack 19 and the second rack 20, and then the second elastic member 36 resets, and then the second rack 19 cooperates with the second gear 38 to press the push plate 21 to press the outer side of the pressing plate 4, so that the pressing plate 4 can be further moved;

in addition, the outside of the fixing frame 23 is fixedly connected with a guide frame 37 for supporting the connecting rope 35, and the flexibility of the connecting rope 35 during movement can be enhanced by arranging the guide frame 37.

In one embodiment of the present invention, the vibration mechanism includes: the base 29 is arranged on the outer side of the supporting table 1 in a sliding connection manner, and a threaded rod 30 is fixedly arranged on the inner side of the base 29 in a connection manner; the driven rod 31 is in threaded connection with the outer side of the threaded rod 30 and is in rotary connection with the supporting table 1; the control rod 33, control rod 33 with supporting bench 1 rotates to be connected, one end with ejecting subassembly links to each other, and the other end through connecting rod 32 with driven lever 31 links to each other, is used for cooperating the extrusion subassembly drive driven lever 31 rotation realizes the vibration of supporting bench 1.

In this embodiment, the outside fixed connection of control lever 33 be provided with the fourth gear of first gear 12 meshing connection, control lever 33 with be provided with between the driven lever 31 with the connecting rod 32 that brace table 1 rotated and is connected, connecting rod 32 both ends with all link to each other through the bevel gear between control lever 33 and the driven lever 31, through setting up vibration mechanism, can cooperate the vibration of brace table 1 is realized to the extrusion subassembly, and then makes discus and backup pad 7 separation to conveniently promote the subassembly and release discus.

In one embodiment of the present invention, further comprising: the recovery assembly is arranged on one side of the extrusion assembly, which is far away from the pushing assembly, and is used for receiving and storing the pushed discus; wherein, the recovery assembly includes: a protective cover 24, wherein the protective cover 24 is connected with the supporting table 1; a collection box 26, wherein the collection box 26 is detachably connected with the protection cover 24 and is used for storing the pushed discus; a placement plate 27, said placement plate 27 being provided inside said collecting tank 26 and being connected to said collecting tank 26 by means of a first elastic member 28 for supporting discuses entering inside the collecting tank 26.

In this embodiment, collection box 26 with protection casing 24 joint, place board 27 sliding connection setting is in collection box 26 is inboard, collection box 26 with place fixed connection between the board 27 and be provided with first elastic component 28, first elastic component 28 is first spring, in addition, collection box 26 keep away from casing 2 one side top be provided with the blotter 25 that protection casing 24 links to each other, blotter 25 is the rubber pad, through setting up recovery unit, falls into collection box 26 inboard under the shielding of protection casing 24 by the discus that the pushing unit released, both makes things convenient for people to retrieve the discus, avoids moving discus to cause the injury to personnel again.

According to the pushing structure of the scrap iron cake press, through arranging the ejection assembly and the pushing assembly, compressed discus can be automatically discharged from the inner side of the shell 2, so that a worker can receive the discus more conveniently, the working efficiency of the worker is improved, through arranging the ejection assembly, the driving piece 11 drives the adjusting rod to rotate through the gear piece, the adjusting rod is matched with the fixing rod 10 to realize the lifting of the supporting plate 7, the supporting plate 7 ejects the discus positioned on the inner side of the placing groove 4, meanwhile, the adjusting rod can drive the connecting assembly through the transmission piece, the connecting assembly drives the pushing assembly to push the discus which is ejected out, the worker can receive the discus conveniently, through arranging the pushing assembly, the connecting assembly can drive the sliding plate 34 to move towards the side close to the discus in the process of being ejected from the inner side of the placing groove 4, the slide plate 34 is driven to move towards the side far away from the discus and the second elastic piece 36 is extruded, when the discus is completely separated from the placing groove 4, the connecting component can release the stretching of the slide plate 34, the slide plate 34 pushes out the discus through the push plate 21 under the driving of the second elastic piece 36, so that the working efficiency of the working personnel is improved, through the arrangement of the connecting component, in the process of discus ejection, the first rack 19 is matched with the second gear 38 to drive the rotating rod 16 to rotate, so that the connecting rope 35 is separated from the rope wheel 39, then the second rack 20 is matched with the second gear 38 to enable the rope wheel 39 to wind the connecting rope 35, the compression of the second elastic piece 36 is completed, the second rack 20 is separated from the second gear 38 along with the continued movement of the transmission plate 18, the rotating rod 16 can rotate freely, the second elastic piece 36 drives the push plate 21 to push out the discus, in the reset process of the supporting plate 7, the second rack 20 and the second gear 38 cooperate to drive the rope wheel 39 to wind the connecting rope 35, when the second gear 38 is positioned between the first rack 19 and the second rack 20, the second elastic piece 36 resets, and then the first rack 19 and the second gear 38 cooperate again, so that the push plate 21 moves to the outer side of the placing groove 4, the pressing plate 5 can continuously squeeze scrap iron, and the discus pushed out by the pushing component falls into the inner side of the collecting box 26 under the shielding of the protective cover 24 by arranging the recovery component, thereby being convenient for people to recover the discus and avoiding the damage of the moving discus to the personnel.

The foregoing is merely a preferred embodiment of the present invention, and it should be noted that modifications and improvements can be made by those skilled in the art without departing from the spirit of the present invention, and these should also be considered as the scope of the present invention, which does not affect the effect of the implementation of the present invention and the utility of the patent.

Claims (3)

1. The utility model provides a scrap iron cake press release structure which characterized in that includes:

the support platform and the shell are connected with the support platform;

the cake pressing mechanism is connected with the shell;

the vibration mechanism is connected with the supporting table and the cake pressing mechanism and is used for driving the supporting table to vibrate in cooperation with the cake pressing mechanism;

wherein, cake pressing mechanism includes:

the extrusion assembly is connected with the shell and is used for extruding scrap iron;

the ejection assembly is arranged between the shell and the extrusion assembly and is used for ejecting the discus positioned at the inner side of the extrusion assembly;

the pushing component is arranged at the outer side of the extrusion component and used for pushing out the discus after being ejected out;

the connecting component is arranged between the pushing component and the ejection component and is used for being matched with the ejection component to drive the pushing component;

the extrusion assembly includes:

the placing box is connected with the shell, and a placing groove is formed in the inner side of the placing box and used for placing scrap iron;

the pressing plate is arranged opposite to the placing groove, connected with the shell through a telescopic piece and used for extruding scrap iron in a telescopic way in cooperation with the telescopic piece;

the ejection assembly includes:

the supporting plate is arranged on the inner side of the placing groove in a sliding connection manner and is used for supporting the pressed discus;

the movable plate is arranged on the inner side of the placement box in a sliding connection manner, one end of the movable plate is connected with the support plate through a sliding rod, and the other end of the movable plate is connected with the fixed rod;

the driving piece is arranged between the placement box and the supporting table and is connected with the supporting table;

the adjusting rod is in threaded connection with one end of the fixing rod, the other end of the adjusting rod is in rotary connection with the supporting table, is connected with the output end of the driving piece through a gear piece, is connected with the connecting assembly through a transmission piece and is used for driving the fixing rod to achieve lifting of the supporting plate in cooperation with the driving piece;

the pushing assembly includes:

the fixing frame is fixedly connected with the placing box;

the pushing plate is arranged on the outer side of the placing groove and is in sliding connection with the placing box;

the sliding plate is arranged on the inner side of the fixed frame in a sliding connection manner, one end of the sliding plate is connected with the push plate through a push rod, the other end of the sliding plate is connected with the fixed frame through a second elastic piece and is connected with the connecting assembly, and the sliding plate is used for driving the push plate to push out the discus in cooperation with the connecting assembly;

the connection assembly includes:

the connecting box is connected with the fixing frame;

the transmission rod is rotationally connected with the connecting box and is connected with the transmission piece;

the rotating rod is arranged on the outer side of the transmission rod and is rotationally connected with the connecting box;

the rope wheel is fixedly connected with the rotating rod and connected with the sliding plate through a connecting rope;

the transmission plate is arranged between the transmission rod and the rotating rod, is connected with a transmission block which is arranged on the outer side of the transmission rod in a threaded connection manner and is used for being matched with the transmission rod to move along the wall of the connecting box;

the first rack and the second rack are longitudinally arranged at intervals, are connected with the transmission plate and are meshed with a second gear arranged on the outer side of the rotating rod, and are used for being matched with the transmission plate to lift and drive the rotating rod to rotate.

2. The pushing structure of the scrap iron cake press as set forth in claim 1, wherein said vibration mechanism includes:

the base is arranged on the outer side of the supporting table in a sliding connection manner, and a threaded rod is fixedly arranged on the inner side of the base in a connection manner;

the driven rod is in threaded connection with the outer side of the threaded rod and is in rotary connection with the supporting table;

the control rod is rotationally connected with the supporting table, one end of the control rod is connected with the ejection assembly, the other end of the control rod is connected with the driven rod through a connecting rod and is used for being matched with the extrusion assembly to drive the driven rod to rotate so as to realize vibration of the supporting table.

3. The pushing structure of the scrap iron cake press as set forth in claim 2, further comprising:

the recovery assembly is arranged on one side of the extrusion assembly, which is far away from the pushing assembly, and is used for receiving and storing the pushed discus;

wherein, the recovery assembly includes:

the protective cover is connected with the supporting table;

the collecting box is detachably connected with the protective cover and used for storing the pushed discus;

the placing plate is arranged on the inner side of the collecting box and connected with the collecting box through a first elastic piece and used for supporting discus entering the inner side of the collecting box.