CN210877536U - Finished product output device and double-layer powder filling forming machine - Google Patents

Abstract

The utility model belongs to the technical field of powder forming equipment, in particular to a finished product output device and a double-layer powder filling forming machine, wherein the finished product output device comprises a bracket, a vibration collecting mechanism and a vibration conveying mechanism, the vibration collecting mechanism and the vibration conveying mechanism are sequentially arranged on the bracket along the moving direction of finished products, and the vibration collecting mechanism is used for collecting the finished products; the vibration conveying mechanism comprises a direct vibration feeder, a bottom plate and a funnel, the bottom plate is arranged on the feeding end surface of the direct vibration feeder, one end of the bottom plate extends to the forming end of the powder forming machine, and the other end of the bottom plate is connected with the input end of the vibration collecting mechanism; the bottom plate is provided with a plurality of filter holes at intervals, the funnel is arranged at the lower end of the bottom plate and used for collecting powder passing through the filter holes to the lower end of the bottom plate, and the vibration collecting mechanism further comprises a recovery box used for collecting the powder. The beneficial effects of the utility model reside in that: the powder attached to the finished product can be efficiently separated, manual treatment is replaced, the production efficiency is improved, and the product quality is ensured.

Description

Finished product output device and double-layer powder filling forming machine

Technical Field

The utility model belongs to the technical field of the powder former, especially, relate to a finished product output device and double-deck powder make-up machine of filling.

Background

Powder metallurgical forming is one of the basic processes in powder metallurgical production, with the aim of making loose powders into semi-finished or finished products of predetermined geometry, size, density and strength.

Powder metallurgy forming is generally formed by pressing powder molding equipment, the powder molding equipment generally comprises an upper die, a lower die and a molding plate arranged on the lower die, a molding groove is arranged on the molding plate, the upper die is provided with a pressing rod for pressing powder, the powder is stacked in the molding groove, the upper die and the lower die are assembled, and the pressing rod extends into the molding groove to extrude the powder so as to form the powder; after the powder is pressed and molded into a finished product, the powder with smaller volume is inevitably attached to the outer surface of the finished product, the manual processing procedure is generally added in the prior art to ensure the quality of the product, but the processing mode can increase the production steps, prolong the production time, reduce the production efficiency and is not beneficial to the development of enterprises.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a finished product output device and double-deck powder make-up machine of filling, aim at solving the powder make-up machine among the prior art and increase the production step for the powder of handling the finished product surface, lead to the technical problem that production efficiency reduces.

In order to achieve the above object, an embodiment of the present invention provides a finished product output device, which is suitable for a powder forming machine, and is characterized by comprising a support, a vibration collecting mechanism and a vibration conveying mechanism, wherein the vibration collecting mechanism and the vibration conveying mechanism are sequentially arranged on the support along a finished product moving direction, and the vibration collecting mechanism is used for collecting finished products; the vibration conveying mechanism comprises a direct vibration feeder, a bottom plate and a funnel, the bottom plate is arranged on the feeding end surface of the direct vibration feeder, one end of the bottom plate extends to the forming end of the powder forming machine, and the other end of the bottom plate is connected with the input end of the vibration collecting mechanism; the bottom plate is provided with a plurality of filter holes at intervals for filtering powder, the funnel is arranged at the lower end of the bottom plate and used for collecting powder passing through the filter holes to the lower end of the bottom plate, and the vibration collecting mechanism further comprises a recovery box for collecting powder output by the funnel.

Optionally, the recycling box is disposed on the bracket, and the direct vibration feeder and the vibration collecting mechanism are disposed at intervals to form a fifth station on the bracket for accommodating the recycling box.

Optionally, the support includes rotatory supporting seat, switching-over support and brace table, the supporting seat is located on the lateral wall of powder forming machine's frame, the switching-over support is "L" type, the vertical end of switching-over support with rotatory supporting seat rotates to be connected, the brace table is located on the horizontal end of switching-over support, be equipped with in the rotatory supporting seat and be used for locking the retaining member of the vertical end of switching-over support, directly shake the feeder with the vibration is collected the mechanism and is all located on the brace table.

Optionally, the vibration is collected the mechanism and is included vibrator, coupling assembling and is used for collecting the off-the-shelf material receiving tray, coupling assembling locates the output of vibrator, the material receiving tray is located just on the coupling assembling the material receiving tray slope sets up, the material receiving tray is close to the one end of the feeder that directly shakes is equipped with the input port, the bottom plate with the input port is connected.

Optionally, the connecting assembly comprises a fixing plate, a pre-tightening screw, a first limiting body and a second limiting body, a first limiting hole is formed in the circumferential edge of the fixing plate, and second limiting holes are formed in the first limiting body and the second limiting body.

Optionally, the first limiting hole and the second limiting hole are both long-strip-shaped, so that the first limiting body and the second limiting body can adjust positions according to the size of the material receiving disc, and then a positioning groove matched with the material receiving disc is formed.

Optionally, the second spacing body is "L" type, the second spacing body includes installation department and butt portion, the one end of installation department connect in the one end of the bottom of fixed plate, the other end of installation department extends to the fixed plate outside and with the butt portion is connected, butt portion down the holding surface direction of fixed plate extends in order to be used for the butt the lateral wall of receipts charging tray.

Optionally, two opposite side walls of the material receiving tray extend to form a support plate back to the inner side of the material receiving tray.

The embodiment of the utility model provides an above-mentioned one or more technical scheme of finished product output device has one of following technological effect at least: the finished product removes to the bottom plate on and under the vibratory action of the feeder that directly shakes, the product removes to the vibration collection mechanism in along the length direction of bottom plate in, the powder attached to the finished product drops and passes the filtration pore and drops in retrieving the box under the vibratory action, compare the collection device among the powder forming machine among the prior art and lack filter mechanism, the process that the powder attached to the finished product was handled to the existence needs add the manual work, lead to the production process to increase, production time increases, the technical problem that production efficiency reduces, the embodiment of the utility model provides a vibration conveying mechanism among the finished product output device can separate attached to off-the-shelf powder high-efficiently, replaces manual work and handles, improves production efficiency, guarantees the quality of product.

In order to achieve the above objects, another embodiment of the present invention provides a dual-layer powder filling forming machine, which includes the above product output device.

The embodiment of the utility model provides an above-mentioned one or more technical scheme in the double-deck powder make-up machine of filling has one of following technological effect at least: because this double-deck powder make-up machine of filling has adopted foretell finished product output device, and among this finished product output device, the finished product removes on the bottom plate and under the vibratory action of the feeder that directly shakes, the product removes to in the vibration collection mechanism along the length direction of bottom plate, the powder attached to the finished product drops and passes the filtration pore and drop in retrieving the box under the vibratory action, compare in the powder make-up machine among the prior art collection device lacks filter mechanism, there is the process that needs add the manual work and handle the powder attached to the finished product, leads to the production process to increase, and the production time increases, the technical problem that production efficiency reduces, the embodiment provides a vibration conveying mechanism among the double-deck powder make-up machine of filling can separate the powder attached to the finished product high-efficiently, replaces manual work to handle, improves production efficiency, guarantees the quality of product.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive labor.

Fig. 1 is a schematic structural view of a double-layer powder filling forming machine according to an embodiment of the present invention.

Fig. 2 is a schematic structural view of the double-layer powder filling molding machine shown in fig. 1 after the casing is disassembled.

Fig. 3 is a front view of the dual layer powder filling molding machine of fig. 2.

Fig. 4 is an exploded view of the structure of the forming plate and the pressing part in fig. 3.

Fig. 5 is a schematic structural diagram of a connection mechanism according to a second embodiment of the present invention.

Fig. 6 is a schematic structural view of a first feeding mechanism provided in the third embodiment of the present invention.

Fig. 7 is a schematic structural diagram of a finished product output device according to a fourth embodiment of the present invention.

Fig. 8 is an exploded view of the connection assembly of fig. 7.

Wherein, in the figures, the respective reference numerals:

10-engine base 20-forming die 4220-butt plate

40-finished product output device 21-first station 22-second station

23-third station 24-fourth station 31-first feeding mechanism

32-second feeding mechanism 33-driving mechanism 25-mould base

26-upper die assembly 27-forming plate 28-lower die assembly

29-pressing part 290-connecting block 291-locking plate

292-pressure lever 293-groove 294-unthreaded hole

4251-abutting part 51-first housing 52-second housing

53-third shell 54-fourth shell 55-fifth shell

56-sixth housing 60-first feeding mechanism 70-second feeding mechanism

260-first connecting plate 261-first driving source 262-connecting mechanism

263 driving shaft 264 connecting body 265 limiting body

266-limit groove 267-body 268-projection

269-extension block 265 a-main body 265 b-connecting portion

34-feeding component 35-pin joint seat 36-support frame

37-feeding driving component 38-swinging arm 39-connecting rod

370-mounting seat 423-fixing plate 424-first limiting body

4250-mounting part 425-second limiting body 375-driving motor

376-guide rod 377-frame 378-mounting block

379-connecting seat 3770-main board 3771-side board

41-support 42-vibration collecting mechanism 43-vibration conveying mechanism

44-direct vibration feeder 45-bottom plate 46-funnel

410-rotary supporting seat 411-reversing support 412-supporting table

420-vibrator 421-connecting component 422-material collecting tray.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to fig. 1-8 are exemplary and intended to be used to illustrate embodiments of the present invention, and should not be construed as limiting the invention.

In the description of the embodiments of the present invention, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings, which is only for convenience in describing the embodiments of the present invention and simplifying the description, and do not indicate or imply that the device or element so indicated must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the embodiments of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly, e.g., as fixed or detachable connections or as an integral part; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the embodiments of the present invention can be understood by those skilled in the art according to specific situations.

Example one

As shown in fig. 1 to 8, the present embodiment provides a product output device 40, and specifically, the detailed description of the product output device 40 of the present embodiment is further described by applying it to a double-layer powder filling forming machine: a double-layer powder filling forming machine comprises a machine base 10, a forming die 20, a feeding device (not marked) and a finished product output device 40, the molding die 20 is disposed on the base 10 and used for pressing and molding the powder into a product with a predetermined shape, a first station 21, a second station 22, a third station 23 and a fourth station 24 are arranged at the upper end of the mould closing end of the forming mould 20 at intervals in the circumferential direction, the feeding device comprises a first feeding mechanism 31, a second feeding mechanism 32 and a driving mechanism 33, the first feeding mechanism 31, the second feeding mechanism 32 and the driving mechanism 33 are all arranged on the machine base 10, and the output ends of the first feeding mechanism 31, the second feeding mechanism 32 and the driving mechanism 33 are respectively connected with the first station 21, the second station 22 and the third station 23, the finished product output device 40 is arranged on the machine base 10, and the input end of the finished product output device 40 is connected with the fourth station 24; the first feeding mechanism 31 and the second feeding mechanism 32 are loaded with different types of powders.

Specifically, the first feeding mechanism 31 conveys the first powder loaded thereon to the mold closing end of the forming mold 20, the forming mold 20 presses the powder in the mold closing end to form a primary pressed product, the second feeding mechanism 32 conveys the second powder loaded thereon to the mold closing end of the forming mold 20, the forming mold 20 presses the powder in the mold closing end again to obtain a double-material mixed formed product, the driving mechanism 33 pushes the finished product to the input end of the finished product output device 40, and the finished product output device 40 outputs the product; compare in the powder make-up machine among the prior art can only realize single material pressfitting shaping, have if needs extra quality to mix, then need the artifical product after with the pressfitting to reenter the mould clamping end of forming die 20 and carry out the secondary pressfitting, seriously influence work efficiency, lead to the productivity general, be unfavorable for the technical problem of the development of enterprise, the utility model provides a double-deck powder make-up machine of filling can realize automatic extra quality mixed powder shaping, both improves production efficiency, can guarantee the quality of product again.

In this embodiment, the forming mold 20 includes a mold frame 25, an upper mold assembly 26, a forming plate 27 and a lower mold assembly 28, the mold frame 25 is disposed on the base 10, the upper mold assembly 26 and the lower mold assembly 28 are disposed in the mold frame 25 in a vertically symmetrical manner, the forming plate 27 is disposed on the lower mold assembly 28, a forming groove (not labeled in the drawing) is disposed on the forming plate 27, the first station 21, the second station 22, the third station 23 and the fourth station 24 are circumferentially spaced around the forming groove, and a pressing portion 29 for pressing powder in cooperation with the forming groove is disposed on the upper mold assembly 26; the lower mold assembly 28 may be a lower mold module of a powder forming machine, which is a structure formed by technology and mature technology, and is not described in detail in this embodiment, and is applied to cooperate with the upper mold assembly 26 to press powder.

In this embodiment, the pressing portion 29 includes a connecting block 290, a locking plate 291 and a pressing rod 292, one end of the connecting block 290 is fixedly connected to the upper die assembly 26, the locking plate 291 is connected to the other end of the connecting block 290, the locking plate 291 is provided with a groove 293, the locking plate 291 is connected to the connecting block 290 in a covering manner, a cavity (not numbered) is formed between the groove 293 and the connecting block 290, a bottom wall of the groove 293 is provided with an aperture 294 for the pressing rod 292 to pass through, the pressing rod 292 is slidably fitted with the aperture 294, an upper end of the pressing rod 292 extends into the cavity and is provided with a stopper 295 for limiting the pressing rod 292, a lower end of the pressing rod 292 extends to the outside of the aperture 294, and the pressing rod 292 is aligned with the forming groove.

In this embodiment, the number of the molding grooves, the unthreaded holes 294 and the pressing rods 292 is eight, eight groups of the pressing rods 292 are uniformly arranged in two rows at intervals, and all the unthreaded holes 294 and the molding grooves are respectively arranged corresponding to the pressing rods 292, so that a plurality of finished products are molded simultaneously, and the production efficiency is improved.

In this embodiment, the double-layer powder filling forming machine further includes a casing for protecting equipment, the casing is disposed on the machine base 10, the casing is configured to accommodate the forming mold 20 and the feeding device, the casing includes a first casing 51, a second casing 52, a third casing 53 and a fourth casing 54, the second casing 52 and the third casing 53 are symmetrically disposed on two sides of the first casing 51, the fourth casing 54 is disposed on the other side of the first casing 51, the second casing 52, the third casing 53 and the fourth casing 54 are disposed in a "T" shape, and the second casing 52, the third casing 53 and the fourth casing 54 are respectively communicated with the first casing 51; the forming mold 20 is disposed in the first housing 51, the first feeding mechanism 31 and the second feeding mechanism 32 are disposed in the second housing 52 and the third housing 53, respectively, and the driving mechanism 33 is disposed in the fourth housing 54.

In this embodiment, a fifth housing 55 is disposed at an upper end of the first housing 51, and an upper mold driving end of the forming mold 20 is disposed in the fifth housing 55.

In this embodiment, a first feeding mechanism 60 and a second feeding mechanism 70 are disposed on two sides of the fifth casing 55, the first feeding mechanism 60 and the second feeding mechanism 70 are respectively used for replenishing the powder in the first feeding mechanism 31 and the second feeding mechanism 32, and output ends of the first feeding mechanism 60 and the second feeding mechanism 70 are respectively connected to input ends of the first feeding mechanism 31 and the second feeding mechanism 32 through pipelines.

In this embodiment, the top walls of the second housing 52 and the third housing 53 are respectively provided with a clearance hole (not labeled) for a clearance pipe, so that the pipe of the feeding mechanism can be directly connected with the feeding mechanism.

In this embodiment, the first housing 51 is provided with an output opening (not numbered) for outputting a product on a side wall opposite to the fourth housing 54, and the input end of the finished product output device 40 protrudes through the output opening into the first housing 51 to be connected to the fourth station 24.

In this embodiment, glass doors (not labeled) are disposed on the open sides of the first, second and third housings 51, 52 and 53, and transparent panels (not labeled) are disposed on the sidewalls of the base 10, the fourth and fifth housings 54 and 55, so that an operator can observe the operation status of the device and handle the device in time.

In this embodiment, the housing further comprises a sixth housing 56 for accommodating electrical equipment, and the sixth housing 56 is disposed at an end of the base 10 away from the first housing 51.

Example two

As shown in fig. 5, the upper die assembly 26 includes a first coupling plate 260, a first driving source 261 and a coupling mechanism 262, the first driving source 261 is provided on the mold frame 25, the first driving source 261 is drivingly connected to the first connecting plate 260 through the connecting mechanism 262, the pressing portion 29 is disposed at the lower end of the first connecting plate 260, the connecting block 290 is fixedly connected with the first connecting plate 260, the connecting mechanism 262 includes a driving shaft 263 and a connecting body 264, the connecting body 264 is fixedly provided at the upper end of the first connecting plate 260, the upper end of the driving shaft 263 is connected to the first driving source 261, the lower end of the driving shaft 263 is provided with a stopper 265, the upper end of the connecting body 264 is provided with a limiting groove 266 which is used for being matched with the limiting body 265 in a sliding way so as to clamp the limiting body 265, and the limiting groove 266 penetrates through two ends of the connecting body 264.

Specifically, when the first connection plate 260 and the driving shaft 263 are connected, the limiting body 265 connected to the lower sheet of the driving shaft 263 is pushed into the limiting groove 266 and slides to the middle position of the limiting groove 266, compared with the driving shaft 263 and the mounting plate in the prior art, which are detachably mounted through a screw locking structure, the mounting and dismounting are troublesome, which results in the increase of the mounting time and the influence on the working efficiency; the utility model provides an upper die assembly 26 can realize the quick assembly disassembly between drive shaft 263 and the first connecting plate 260, shortens down time, improves production efficiency.

In this embodiment, the connecting body 264 includes a body 267 and two protrusions 268, the number of the protrusions 268 is two, the two protrusions 268 are respectively disposed on two sides of the upper end of the body 267, the upper ends of the opposite sidewalls of the two protrusions 268 are respectively provided with an extending block 269, and the two extending blocks 269, the two protrusions 268 and the body 267 form the limiting groove 266 therebetween.

In this embodiment, the body 267, the protrusion 268 and the extension block 269 are in a square body structure, the protrusion 268 is perpendicular to the upper end surface of the body 267, the extension block 269 is perpendicular to the side surface of the protrusion 268, and the cross section of the limiting groove 266 is in an inverted "T" shape.

In this embodiment, the body 267, the bump 268 and the extension block 269 are made of metal, and the bump 268, the extension block 269 and the body 267 are integrally formed by casting; the limiting groove 266 is formed by numerical milling through an external CNC (computer numerical control) lathe.

In this embodiment, a first guiding inclined plane (not labeled) for guiding the limiting body 265 into the inner side of the limiting groove 266 is disposed on an edge of the opening side of the limiting groove 266, and an included angle between the first guiding inclined plane and the side wall of the connecting body 264 is in an angle range of 130 ° to 150 °.

In this embodiment, the stopper 265 includes a main body 265a and a connecting portion 265b, an upper end of the connecting portion 265b is fixedly connected to the driving shaft 263, a lower end of the connecting portion 265b is connected to the main body 265a, and a width of the main body 265a is greater than that of the connecting portion 265 b; the limiting groove 266 comprises a first groove body (not marked in the drawing) and a second groove body (not marked in the drawing), the length of the first groove body is smaller than that of the second groove body, the first groove body is arranged at the upper end of the second groove body, the width of the main body 265a is larger than that of the first groove body, the first groove body is used for accommodating the connecting part 265b, the second groove body is used for accommodating the main body 265a, and the main body 265a is abutted against the inner wall of the second groove body to realize limiting clamping adaptation of the limiting body 265 and the limiting groove 266; the edge of the main body 265a is provided with a second guide slope (not numbered) which cooperates with the first guide slope to prevent the edge of the main body 265a from being damaged by collision.

In this embodiment, the cross-section of the main body 265a and the connecting portion 265b are both circular; the second direction inclined plane is located on the circumference edge of main part 265a, the upper and lower both ends of main part 265a are moulded respectively and are had first terminal surface (reference number not marked) and second terminal surface (reference number not marked), the quantity on second direction inclined plane is two, one the second direction inclined plane shaping in first terminal surface with between the side of main part 265a, another the second direction inclined plane shaping in the second terminal surface with between the side of main part 265 a.

The rest of this embodiment is the same as the first embodiment, and the unexplained features in this embodiment are explained by the first embodiment, which is not described herein again.

EXAMPLE III

As shown in fig. 6, the first feeding mechanism 31 and the second feeding mechanism 32 have the same structure, the first feeding mechanism 31 comprises a feeding assembly 34 and a pushing swing arm assembly (not numbered), the feeding component 34 is used for conveying powder into the forming groove, the pushing swing arm component comprises a supporting frame 36, a feeding driving component 37, a swing arm 38, a connecting rod 39 and a pivoting seat 35, the supporting frame 36 and the pivoting seat 35 are both arranged on the machine base 10, the feeding driving component 37 is arranged on the supporting frame 36, the output end of the feeding driving component 37 is pivoted with the end part of the swing arm 38, one end of the connecting rod 39 is pivoted with the middle position of the swing arm 38, the other end of the connecting rod 39 is pivoted with the pivoting seat 35, the feeding assembly 34 is pivoted with the free end of the swing arm 38 close to the forming die 20, and the feeding assembly 34 is connected with the first feeding mechanism 60 through a pipeline.

Specifically, when powder to shaping groove is carried in needs, pay-off drive assembly 37 drive swing arm 38 removes, connecting rod 39 is rotatory so that swing arm 38 removes toward the direction in shaping groove around pin joint seat 35, drive pay-off assembly 34 and remove to the shaping groove on so that pay-off assembly 34 inputs powder to the shaping inslot, when shaping plate 27 reciprocates, swing arm 38's free end is rotatory around connecting rod 39's tip, make pay-off assembly 34 laminate with shaping plate 27 all the time, compare in the powder forming machine among the prior art adopt artifical powder filling to carry out the material loading, there is operating time long, the technical problem that production efficiency is low, the utility model provides a feeding mechanism can realize automatic powder pay-off, has greatly improved pay-off efficiency, improves the productivity.

In this embodiment, the feeding driving assembly 37 includes a mounting seat 370, a moving seat (not labeled), and a driving portion (not labeled), the mounting seat 370 is disposed at the upper end of the supporting frame 36, the driving portion is disposed on the mounting seat 370, an output end of the driving portion is in driving connection with the moving seat, and an end of the swing arm 38 is pivotally connected to the moving seat.

In this embodiment, the driving portion includes a mounting plate (not marked), a screw pair (not marked) and a driving motor 375, the number of the mounting plate is two, the two mounting plates are respectively disposed at two ends of the side wall of the mounting base 370, two ends of the screw pair are respectively connected with the mounting plate in a rotating manner, the nut of the screw pair is fixedly connected with the movable base, the driving motor 375 is disposed on the mounting base 370, and the output shaft of the driving motor 375 is connected with the screw of the screw pair in a driving manner.

In this embodiment, the driving part further includes a guide rod 376 for guiding the movable base to move stably; the moving seat comprises a frame 377, mounting blocks 378 and connecting seats 379, nuts of the screw pair are arranged in an inner cavity of the frame 377, the number of the mounting blocks 378 is four, the four mounting blocks 378 are respectively arranged at four corners of the inner cavity of the frame 377, the number of the guide rods 376 is two, the two groups of the guide rods 376 are parallel to each other, two ends of each guide rod 376 are respectively fixedly connected with the corresponding mounting blocks 378, the connecting seats 379 are arranged on the side wall of the frame 377, and the connecting seats 379 are pivoted with the swing arms 38.

In this embodiment, the frame 377 includes a main plate 3770 and side plates 3771, the main plate 3770 has a third end surface (not marked in the drawing) and a fourth end surface (not marked in the drawing) that are bilaterally symmetric, the nut of the screw rod pair is located on the third end surface, the connecting seat 379 is located on the fourth end surface, the number of the side plates 3771 is two, the two side plates 3771 are respectively located at the upper end and the lower end of the third end surface, one end of each mounting block 378 is connected to the main plate 3770, and the other end of each mounting block 378 is connected to the corresponding side plate 3771.

In this embodiment, each side plate 3771 is perpendicular to the third end surface, and the main plate 3770 and the two side plates 3771 which are completely connected make the cross section of the frame 377 to be in an Contraband-shaped structure and wrap the mounting seat 370.

In this embodiment, the side plate 3771 is connected to the main plate 3770 by screws, and two ends of the connecting body 264 are connected to the main plate 3770 and the side plate 3771 by screws.

In this embodiment, a proximity switch 80 for detecting the moving stroke of the moving seat is disposed on a side wall of the supporting frame 36.

The rest of this embodiment is the same as the first embodiment, and the unexplained features in this embodiment are explained by the first embodiment, which is not described herein again.

Example four

As shown in fig. 7 to 8, the finished product output device 40 includes a support 41, a vibration collecting mechanism 42 and a vibration conveying mechanism 43, the support 41 is connected to the machine base 10, the vibration collecting mechanism 42 and the vibration conveying mechanism 43 are sequentially disposed on the support 41 along a finished product moving direction, and the vibration collecting mechanism 42 is used for collecting finished products for an operator to rapidly handle; the vibration conveying mechanism 43 comprises a direct vibration feeder 44, a bottom plate 45 and a funnel 46, the bottom plate 45 is arranged on the feeding end surface of the direct vibration feeder 44, one end of the bottom plate 45 extends to the fourth station 24, and the other end of the bottom plate 45 is connected with the input end of the vibration collecting mechanism 42; a plurality of filtering holes (not marked) for filtering the powder are arranged on the bottom plate 45 at intervals, the funnel 46 is arranged at the lower end of the bottom plate 45 and is used for collecting the powder passing through the filtering holes to the lower end of the bottom plate 45, and the vibration collecting mechanism 42 further comprises a recovery box (not marked) for collecting the powder output through the funnel 46; the vertical vibration feeder 44 is a structure formed by a mature technology, and will not be described in detail in this embodiment, and is used as a vibration source of the finished product to cause the powder on the surface of the finished product to fall off.

Specifically, actuating mechanism 33 is with finished product propelling movement to bottom plate 45 of forming die 20 press-fit shaping, under the vibratory action of feeder 44 directly shakes, the product removes to vibration collection mechanism 42 in along the length direction of bottom plate 45, the powder attached to the finished product drops and passes the filtration pore and drop in retrieving the box under the vibratory action, compare and lack filter mechanism in the collection device among the powder forming machine among the prior art, there is the process that needs add the manual work and handle the powder attached to the finished product, lead to the production process to increase, the process time increases, the technical problem that production efficiency reduces, the embodiment of the utility model provides a vibration conveying mechanism 43 can separate the powder attached to the finished product high-efficiently, replaces the manual work and handles, improves production efficiency, guarantees the quality of product.

In this embodiment, the recovery box is disposed on the bracket 41, and the direct vibration feeder 44 and the vibration collection mechanism 42 are disposed at intervals to form a fifth station (not numbered) for accommodating the recovery box on the bracket 41.

In this embodiment, the support 41 includes the rotary supporting seat 410, the switching-over support 411 and a supporting bench 412, the rotary supporting seat 410 is located on the lateral wall of frame 10, the switching-over support 411 is "L" type, the vertical end of switching-over support 411 with the rotary supporting seat 410 rotates and is connected, a supporting bench 412 is located on the horizontal end of switching-over support 411, be equipped with in the rotary supporting seat 410 and be used for locking the vertical end of switching-over support 411 is in order to prevent its locking member (drawing does not mark) that becomes flexible, the feeder 44 that directly shakes with the mechanism 42 is collected in the vibration all locate on the supporting bench 412.

In this embodiment, the vibration collection mechanism 42 includes vibrator 420, coupling assembling 421 and is used for collecting off-the-shelf material collecting tray 422, coupling assembling 421 locates the output of vibrator 420, material collecting tray 422 locates on the coupling assembling 421 just material collecting tray 422 slope sets up, material collecting tray 422 is close to the one end of feeder 44 directly shakes is equipped with the input port (the drawing is not marked), bottom plate 45 with the input port is connected.

In this embodiment, the connection assembly 421 includes a fixing plate 423, a pre-tightening screw (not marked), a first limiting body 424 and a second limiting body 425, a first limiting hole (not marked) is formed in a circumferential edge of the fixing plate 423, and second limiting holes (not marked) are formed in both the first limiting body 424 and the second limiting body 425.

Specifically, the pre-tightening screw sequentially passes through the first limiting hole and the second limiting hole to lock the first limiting body 424 and the second limiting body 425 on the fixing plate 423, so that the first limiting body 424 and the second limiting body 425 form a positioning groove (not marked) for accommodating the material receiving tray 422.

In this embodiment, the first position-limiting hole and the second position-limiting hole are both long strips so that the first position-limiting body 424 and the second position-limiting body 425 can adjust positions according to the size of the material receiving disc 422, and then form a positioning groove matched with the material receiving disc 422.

In this embodiment, the second stopper 425 is "L" shaped, the second stopper 425 includes a mounting portion 4250 and an abutting portion 4251, one end of the mounting portion 4250 is connected to one end of the bottom of the fixing plate 423, the other end of the mounting portion 4250 extends to the outer side of the fixing plate 423 and is connected to the abutting portion 4251, and the abutting portion 4251 extends toward the supporting surface of the fixing plate 423 to abut against the outer side wall of the material receiving tray 422.

In this embodiment, two opposite sidewalls of the material receiving tray 422 are extended with a support plate 4220 facing away from the inner side of the material receiving tray 422 to facilitate manual removal of the material receiving tray 422.

The rest of this embodiment is the same as the first embodiment, and the unexplained features in this embodiment are explained by the first embodiment, which is not described herein again.

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 (9)

1. A finished product output device is suitable for a powder forming machine and is characterized by comprising a support, a vibration collecting mechanism and a vibration conveying mechanism, wherein the vibration collecting mechanism and the vibration conveying mechanism are sequentially arranged on the support along the moving direction of finished products, and the vibration collecting mechanism is used for collecting the finished products; the vibration conveying mechanism comprises a direct vibration feeder, a bottom plate and a funnel, the bottom plate is arranged on the feeding end surface of the direct vibration feeder, one end of the bottom plate extends to the forming end of the powder forming machine, and the other end of the bottom plate is connected with the input end of the vibration collecting mechanism; the bottom plate is provided with a plurality of filter holes at intervals for filtering powder, the funnel is arranged at the lower end of the bottom plate and used for collecting powder passing through the filter holes to the lower end of the bottom plate, and the vibration collecting mechanism further comprises a recovery box for collecting powder output by the funnel.

2. The product output device of claim 1, wherein: the recycling box is arranged on the support, and the direct vibration feeder and the vibration collecting mechanism are arranged at intervals so as to form a fifth station for accommodating the recycling box on the support.

3. The product output device of claim 2, wherein: the support includes rotatory supporting seat, switching-over support and brace table, the supporting seat is located on the lateral wall of powder forming machine's frame, the switching-over support is "L" type, the vertical end of switching-over support with rotatory supporting seat rotates to be connected, the brace table is located on the horizontal end of switching-over support, be equipped with in the rotatory supporting seat and be used for locking the retaining member of the vertical end of switching-over support, directly shake the feeder with the mechanism is collected in the vibration all locates on the brace table.

4. The product output device of claim 3, wherein: the vibration is collected the mechanism and is included vibrator, coupling assembling and is used for collecting the off-the-shelf material receiving tray, coupling assembling locates the output of vibrator, the material receiving tray is located just on the coupling assembling the material receiving tray slope sets up, the material receiving tray is close to the one end of the feeder that directly shakes is equipped with the input port, the bottom plate with the input port connection.

5. The product output device of claim 4, wherein: the connecting assembly comprises a fixing plate, a pre-tightening screw, a first limiting body and a second limiting body, wherein a first limiting hole is formed in the circumferential edge of the fixing plate, and second limiting holes are formed in the first limiting body and the second limiting body.

6. The product output device of claim 5, wherein: the first limiting hole and the second limiting hole are both in a long strip shape, so that the first limiting body and the second limiting body can adjust positions according to the size of the material receiving disc, and then a positioning groove matched with the material receiving disc is formed.

7. The product output device of claim 6, wherein: the spacing body of second is "L" type, the spacing body of second includes installation department and butt portion, the one end of installation department connect in the one end of the bottom of fixed plate, the other end of installation department extends to the fixed plate outside and with the butt portion is connected, butt portion is past the holding surface direction of fixed plate extends in order to be used for the butt the lateral wall of receipts charging tray.

8. The product output device of claim 7, wherein: two opposite outer side walls of the material receiving plate extend to the inner side of the material receiving plate in a back-to-back mode and are provided with supporting plates.

9. The utility model provides a double-deck powder make-up machine that fills which characterized in that: the finished product output device comprises the finished product output device respectively combined with any one of claims 1-8.

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