CN213468595U - Discharge vibration system of cold press - Google Patents

Abstract

The utility model belongs to the technical field of the cold press and specifically relates to a ejection of compact vibration system of cold press is related to, and it includes the vibration frame body, be provided with first ejection of compact frame on the vibration frame body, be provided with many spacing pipes in the first ejection of compact frame, be provided with the vibrating part on the vibration frame body, first ejection of compact frame slope sets up. This application has the effect that promotes sleeve and piece separation to purification sleeve.

Description

Discharge vibration system of cold press

Technical Field

The application relates to the field of cold presses, in particular to a discharging vibration system of a cold press.

Background

The cold press is a machine in the hardware industry, is commonly used in the manufacturing process of the sleeve, and is used for manufacturing the sleeve by cold pressing the steel bar.

The existing cold press comprises a cold press body, wherein a discharge hole is formed in the cold press body, and a cutting device for cutting the reinforcing steel bars and a stamping device for stamping the sleeves are further arranged on the cold press body. When the staff operated, tailor the device with the reinforcing bar on through the cold press body earlier and tailor, tailor into the multistage with the reinforcing bar, place the reinforcing bar in stamping device after that, carry out the punching press to one section reinforcing bar for the sleeve is made into to the reinforcing bar, and the sleeve that polishes after that leaves the cold press body through the discharge gate. Subsequently, the sleeve needs to be machined by a lathe and ground by a grinding machine.

To the correlation technique among the above-mentioned, the reinforcing bar can produce piece and particle impurity at the in-process that carries out the punching press, if the sleeve that will follow the discharge gate and go out directly transports to next step, piece and particle impurity that mix with in the sleeve, in the follow-up course of working, still need separate impurity from the sleeve, influence sleeve preparation efficiency and effect.

SUMMERY OF THE UTILITY MODEL

In order to reduce the problem of the remaining impurity in the sleeve after finishing, this application provides a ejection of compact vibration system of cold press.

The application provides a ejection of compact vibration system of cold press adopts following technical scheme:

the utility model provides a ejection of compact vibration system of cold press, includes the vibration frame body, be provided with first ejection of compact frame on the vibration frame body, be provided with many spacing pipes in the first ejection of compact frame, be provided with the vibrating part on the vibration frame body, first ejection of compact frame slope sets up.

Through adopting above-mentioned technical scheme, on the first ejection of compact frame on the sleeve pipe entering vibration frame body, when the sleeve pipe gets into on the first ejection of compact frame, the piece also gets into on the first ejection of compact frame together, when the piece passes through spacing pipe on the first ejection of compact frame, pass the clearance between the spacing pipe, the piece takes place to separate with the sleeve, meanwhile, the vibrating member work on the vibration frame body produces the vibration to the vibration frame body, first ejection of compact frame is the slope setting for the speed and the chance increase of piece and sleeve separation. Through the arrangement, the sleeve is separated from the scraps, so that the purity of the sleeve is improved, and the influence on the next step is reduced.

Preferably, still be provided with the second ejection of compact frame on the vibration frame body, be provided with many spacing pipes in the second ejection of compact frame, the second ejection of compact frame is the slope setting and unanimous with the incline direction of first ejection of compact frame, the second ejection of compact frame is compared in first ejection of compact frame and is more close to ground, the second ejection of compact frame with the connection of sliding of vibration frame body, be provided with the locking piece that links to each other with the vibration frame body on the second ejection of compact frame.

By adopting the technical scheme, when the sleeve slides to the second discharging frame from the first discharging frame, because the second discharging frame is positioned below the first discharging frame, when the sleeve enters the second discharging frame, a fall exists, so that the sleeve is further promoted to be separated from the scraps.

Preferably, be provided with the discharging pipe on the vibration frame body, be provided with the album powder box under the vibration frame body.

Through adopting above-mentioned technical scheme, with the piece of sleeve separation, it is internal to get into the vibration frame, through going out in the powder mouth of pipe gets into collection powder to carry out the collection to the piece, make things convenient for post processing and recovery.

Preferably, a first sliding groove is formed in the side wall of the vibration frame body, the first discharging frame is connected with the vibration frame body in a sliding mode through the first sliding groove, and a positioning piece abutting against the first discharging frame is arranged on the vibration frame body.

Through adopting above-mentioned technical scheme, when the sleeve that carries out different diameters separates with the piece, also can be corresponding can carry out the change to first ejection of compact frame, change into the first ejection of compact frame that spacing pipe is denser or more sparse, when changing, the staff fixes first ejection of compact frame through first groove of sliding, utilizes the setting element. Through setting first ejection of compact frame to can dismantle for can carry out the piece separation to the sleeve of different bore.

Preferably, the positioning part comprises a first positioning plate in threaded connection with the vibration frame body and a second positioning plate connected with the first positioning plate, and the first positioning plate is abutted against the side wall of the first discharging frame.

Through adopting above-mentioned technical scheme, when carrying out the installation of first ejection of compact frame, will first ejection of compact frame install the place of wanting through first groove of sliding earlier, carry out the installation of setting element after that, install vibration frame body with bolt for first locating plate supports tightly first ejection of compact frame, prevents that first ejection of compact frame landing from going out from vibration frame body.

Preferably, the locking groove has been seted up on the second ejection of compact frame, the locking hole has been seted up on the lateral wall of vibration frame body, locking groove opening with the locking hole opening is relative, the locking piece including slide connect in locking inslot locking piece and set up in locking inslot locking spring, locking spring's both ends respectively with the locking piece and locking groove tank bottom is fixed continuous, the locking piece slides and connects in the locking hole.

Through adopting above-mentioned technical scheme, when the staff carries out the installation of second ejection of compact frame, press the locking piece earlier and get into locking inslot, the locking spring receives the effort of locking piece, make the locking spring take place deformation, slide second ejection of compact frame and get into on the vibration frame body, make locking groove on the second ejection of compact frame relative with the locking hole on the vibration frame body after that, the locking piece receives the effort of locking spring after that, make the locking piece slide and get into in the locking hole, the completion is to the installation of second ejection of compact frame, through setting second ejection of compact frame to dismantling, sleeve and the piece that can adapt to different bores equally.

Preferably, a driving block is fixedly connected to the vibration frame body, a driving cavity is formed in the driving block, the driving cavity is communicated with the locking hole, a driving piece is arranged on the driving block, the driving piece comprises a driving rod connected in the driving cavity in a sliding mode and a moving block connected to the driving rod, the moving block is located in the locking hole, and the other end of the driving rod penetrates through the driving block and extends out of the driving block.

Through adopting above-mentioned technical scheme, when carrying out the dismantlement of first ejection of compact frame, the staff slides the actuating lever, and the actuating lever slides and drives the removal piece and remove to make the removal piece carry out the effort to the locking piece, the piece that slides carries out the effort to the locking piece, thereby make locking piece and locking hole take place to separate, the second ejection of compact frame that slides after that, thereby can change first ejection of compact frame.

Preferably, a driving plate is fixedly connected to a part of the driving rod, which is located in the driving cavity, and the driving plate is connected in the driving cavity in a sliding manner.

Through adopting above-mentioned technical scheme, set up going on that the driver plate can be accurate and exert the effort to removing the piece, can not make the movable block get into locking inslot.

Preferably, the vibration member is a vibration motor.

Through adopting above-mentioned technical scheme, when the sleeve got into the feeding frame body, vibrating motor began work, promoted sleeve and piece separation.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through this kind of first ejection of compact frame for separate sleeve and piece, thereby improve the purity of sleeve, reduce the influence to next step.

2. Through setting up second ejection of compact frame, can form the drop with first ejection of compact frame to further improve the separation of sleeve and piece.

3. Through setting first ejection of compact frame and second ejection of compact frame to can dismantle, can separate the sleeve and the piece of different bores.

Drawings

Fig. 1 is a schematic view of the overall structure of the present application.

Fig. 2 is a schematic structural diagram of the first discharging frame.

Fig. 3 is an enlarged schematic view of a portion a in fig. 1.

Fig. 4 is a schematic structural view of the vibration frame body, illustrating the positioning member.

Fig. 5 is a sectional view of the vibration frame body along the axis.

Fig. 6 is an enlarged schematic view of a portion B in fig. 5.

Reference numerals: 1. a vibration frame body; 2. a vibrating plate; 3. a support pillar; 4. a first barrier plate; 5. a positioning member; 51. a first positioning plate; 52. a second positioning plate; 6. a locking member; 61. a locking spring; 62. a locking block; 71. a drive rod; 72. a moving block; 10. a first discharging frame; 11. a second discharging frame; 14. a limiting pipe; 15. a discharge pipe; 16. powder collecting box; 17. a vibration motor; 18. a first sliding groove; 20. a second sliding block; 21. a second sliding groove; 22. a locking groove; 23. a locking hole; 24. a drive block; 26. a driving plate; 27. a drive handle; 28. a discharging channel; 30. a material collecting box; 31. a drive chamber; 32. connecting holes; 33. a first sliding block.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses ejection of compact vibration system of cold press. Referring to fig. 1, the ejection of compact vibration system of cold press includes vibration frame body 1, 4 support columns 3 of interval fixedly connected with on the diapire of vibration frame body 1, and fixedly connected with vibration board 2 on the vibration frame body 1, vibration board 2 are provided with the same two, and parallel arrangement each other is on the both sides wall of vibration frame body 1. The side wall of the vibration frame body 1 close to the vibration plate 2 is fixedly connected with a first blocking plate 4, and one side of the vibration plate 2 close to the first blocking plate 4 inclines downwards to one side far away from the first blocking plate 4.

Referring to fig. 1, a first discharging frame 10 and a second discharging frame 11 are arranged on a vibration frame body 1, a plurality of limiting pipes 14 are fixedly connected in the first discharging frame 10 and the second discharging frame 11, and the first discharging frame 10 and the second discharging frame 11 are consistent in inclination direction. The length direction of the limiting pipes 14 is consistent with the inclination direction of the first powder feeding plate, the limiting pipes 14 are parallel to each other, and a gap is formed between the two limiting pipes 14. The space between the two restraining tubes 14 is not sufficient to allow the sleeve to fall but to allow debris to fall.

Referring to fig. 1, a discharge pipe 15 is disposed on a bottom wall of the vibration frame body 1 close to the ground, a powder collecting box 16 is disposed below the discharge pipe 15, and a vibration motor 17 is fixedly connected to a lower surface of the vibration frame body 1. The vibration frame body 1, the first discharging frame 10 and the second discharging frame 11 form a cavity, and the discharging pipe 15 is communicated with the cavity. The vibration motor 17 facilitates separation of the sleeve from the debris.

Referring to fig. 2 and 3, the two side walls of the two vibrating plates 2 close to each other are respectively provided with a first sliding groove 18, and the two first sliding grooves 18 are parallel to each other, and are consistent with the inclination direction of the first discharging frame 10 and the inclination direction of the first discharging frame 10. The two side walls of the first discharging frame 10 are fixedly connected with first sliding blocks 33, and the first sliding blocks 33 are connected in the first sliding grooves 18 in a sliding manner. The first discharging frame 10 is connected with the two vibrating plates 2 in a sliding manner through a first sliding block 33. When the first discharging frame 10 is installed, the first sliding block 33 on the first discharging frame 10 is slid into the first sliding groove 18, and is slid upwards to complete the installation of the first discharging frame 10.

Referring to fig. 4, a positioning member 5 is disposed on the vibrating plate 2, and the positioning member 5 is used for preventing the first discharging frame 10 from sliding downwards. The positioning member 5 includes a first positioning plate 51 and a second positioning plate 52. The first positioning plates 51 are provided with two identical positioning plates, the two first positioning plates 51 are respectively arranged integrally with two side walls of the second positioning plate 52, the first positioning plates 51 are abutted against the side walls of the first discharging frame 10, and the first positioning plates 51 are fixedly connected with the vibrating plate 2 through bolts. The first positioning plate 51 is abutted against the first discharging frame 10, so that the first discharging frame 10 is prevented from sliding downwards, a limiting effect is achieved, and the second positioning plate 52 enables the sleeve to slide down from the first discharging frame 10 to the second positioning plate 52, so that the sleeve cannot fall into the vibration frame body 1.

Referring to fig. 3 and 4, the two side walls of the two vibration plates 2 close to each other are provided with second sliding grooves 21. The longitudinal direction of the second sliding groove 21 coincides with the longitudinal direction of the first sliding groove 18, and the second sliding groove 21 is located below the first sliding groove 18. The second discharging frame 11 is fixedly connected with second sliding blocks 20 on two side walls close to the two vibrating plates 2. The second sliding block 20 is connected in the second sliding groove 21 in a sliding manner, and the side wall of the second discharging frame 11 close to the first positioning plate 51 is tightly abutted against the first positioning plate 51. The second discharging frame 11 is connected with the two vibrating plates 2 in a sliding manner through a second sliding block 20.

Referring to fig. 5 and 6, the second discharging frame 11 is provided with a locking member 6, and the locking member 6 is disposed on both sides of the second discharging frame 11. The side walls of the second discharging frame 11 close to the vibrating plate 2 are all provided with locking grooves 22. The locking member 6 includes a locking block 62 and a locking spring 61. The both ends of locking spring 61 are fixed continuous with locking groove 22 tank bottom and locking piece 62 respectively, and locking piece 62 slides and connects in locking groove 22.

The vibrating plate 2 is provided with locking holes 23. The bottom wall of the locking hole 23 is provided with a connecting hole 32, the connecting hole 32 is communicated with the locking groove 22, and the locking block 62 is connected in the connecting hole 32 in a sliding manner. The driving blocks 24 are fixedly connected to the vibration plates 2, and the locking holes 23 are blocked by the driving blocks 24. The driving block 24 is internally provided with a driving cavity 31, and the driving block 24 is provided with a driving piece which comprises a driving rod 71 and a moving block 72. The driving rod 71 is slidably coupled in the driving chamber 31, the coupling hole 32 and the locking hole 23. The driving rod 71 is positioned in the driving cavity 31 and is fixedly connected with the driving sheet 26. The driving piece 26 slides to a distance from the vibration plate 2 just to fully enter the locking block 62 into the locking groove 22, so that the second discharging frame 11 can be slidably disassembled.

One end of the driving rod 71 close to the locking block 62 is fixedly connected with a moving block 72, and the moving block 72 is connected in the connecting hole 32 in a sliding manner; the end of the driving rod 71 far away from the locking block 62 is fixedly connected with a driving handle 27 through the side wall of the driving block 24 far away from the locking block 62. When the disassembly is performed, the driving rod 71 pushes the moving block 72 to move, the moving block 72 pushes the locking block 62 to move into the locking groove 22, so that the locking block 62 is no longer limited, and the second discharging frame 11 slides downwards under the action of gravity due to the inclined arrangement and is separated from the vibration frame body 1.

Referring to fig. 1, a discharging channel 28 is fixedly connected to a side wall of the vibration frame body 1 away from the first blocking plate 4, and a material collecting box 30 is arranged below the discharging channel 28.

The implementation principle of a discharge vibration system of a cold press in the embodiment of the application is as follows: when the staff carries out sleeve and clastic separation, all arrange the sleeve in first play material frame 10 with piece with the piece earlier on, open vibrating motor 17, vibrating motor 17 begins the vibration for vibration frame body 1 begins the vibration, makes sleeve and piece begin to separate, and the piece gets into under the first play material frame 10, because first vibration board 2 is the slope setting, and the sleeve begins to slide downwards with the piece. Before entering the second discharging frame 11, due to the fall between the first discharging frame 10 and the second discharging frame 11, the scraps are further separated from the sleeve in the falling process of the sleeve and the scraps, and finally the separated sleeve enters the material collecting box 30.

When the second discharging frame 11 is replaced, the driving handle 27 drives the driving rod 71 to move towards the direction close to the locking block 62, the moving block 72 applies an acting force to the locking block 62, so that the locking block 62 enters the locking groove 22, then the locking block 62 is separated from the locking hole 23, the second discharging frame 11 is separated from the vibrating plate 2, the more suitable second discharging frame 11 can be replaced, and the separation degree of the sleeve and the chippings is increased.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a ejection of compact vibration system of cold press, includes vibration frame body (1), its characterized in that: the vibrating rack is characterized in that a first discharging frame (10) is arranged on the vibrating rack body (1), a plurality of limiting pipes (14) are arranged in the first discharging frame (10), a vibrating piece is arranged on the vibrating rack body (1), and the first discharging frame (10) is arranged in an inclined mode.

2. The discharge vibration system of cold press according to claim 1, characterized in that: still be provided with second ejection of compact frame (11) on vibration frame body (1), be provided with many spacing pipes (14) in second ejection of compact frame (11), second ejection of compact frame (11) are the slope setting and unanimous with the incline direction of first ejection of compact frame (10), second ejection of compact frame (11) are compared in first ejection of compact frame (10) and are more close to ground, second ejection of compact frame (11) with vibration frame body (1) slides and connects, be provided with locking piece (6) that link to each other with vibration frame body (1) on second ejection of compact frame (11).

3. The discharge vibration system of cold press according to claim 1, characterized in that: be provided with discharging pipe (15) on vibration frame body (1), be provided with album powder box (16) under vibration frame body (1).

4. The discharge vibration system of cold press according to claim 1, characterized in that: the utility model discloses a vibration frame, including vibration frame body (1), the lateral wall of vibration frame body (1) is seted up first groove (18) that slides, first ejection of compact frame (10) slide through first groove (18) and vibration frame body (1) and are connected, be provided with on vibration frame body (1) and support setting element (5) tight with first ejection of compact frame (10).

5. The discharge vibration system of the cold press of claim 4, characterized in that: the positioning piece (5) comprises a first positioning plate (51) connected to the vibration frame body (1) in a threaded mode and a second positioning plate (52) connected with the first positioning plate (51), and the first positioning plate (51) is abutted to the side wall of the first discharging frame (10).

6. The discharge vibration system of the cold press of claim 2, characterized in that: seted up locking groove (22) on second ejection of compact frame (11), locking hole (23) have been seted up on the lateral wall of vibration frame body (1), locking groove (22) opening with locking hole (23) opening is relative, locking piece (6) including slide connect in locking piece (62) in locking groove (22) and set up in locking spring (61) in locking groove (22), the both ends of locking spring (61) respectively with locking piece (62) and locking groove (22) tank bottom is fixed links to each other, locking piece (62) slide connect in locking hole (23).

7. The discharge vibration system of cold press according to claim 6, characterized in that: the vibration rack is characterized in that a driving block (24) is fixedly connected to the vibration rack body (1), a driving cavity (31) is formed in the driving block (24), the driving cavity (31) is communicated with the locking hole (23), a driving piece is arranged on the driving block (24), the driving piece comprises a driving rod (71) connected to the driving cavity (31) in a sliding mode and a moving block (72) connected to the driving rod (71), the moving block (72) is located in the locking hole (23), and the other end of the driving rod (71) penetrates through the driving block (24) and extends out of the driving block (24).

8. The discharge vibration system of cold press according to claim 7, characterized in that: the driving rod (71) is positioned on one part of the driving cavity (31) and is fixedly connected with a driving sheet (26), and the driving sheet (26) is connected in the driving cavity (31) in a sliding manner.

9. The discharge vibration system of cold press according to claim 1, characterized in that: the vibrating piece is a vibrating motor (17).

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