CN108097781B

CN108097781B - Tin bar cutting machine

Info

Publication number: CN108097781B
Application number: CN201810064950.9A
Authority: CN
Inventors: 蔡永忠; 黄广财
Original assignee: VICTORY TECHNOLOGY INTERNATIONAL Ltd
Current assignee: VICTORY TECHNOLOGY INTERNATIONAL Ltd
Priority date: 2018-01-23
Filing date: 2018-01-23
Publication date: 2024-04-30
Anticipated expiration: 2038-01-23
Also published as: CN108097781A

Abstract

The invention discloses a tin bar cutting machine, which comprises a frame, wherein a certain module is fixed on the frame, a movable module which is controlled by a shearing pushing device to move up and down along the side surface of the fixed module is arranged on one side of the fixed module, a receiving device which can eject a tin bar and enable the tin bar to slide downwards in an inclined manner is arranged on the other side of the corresponding movable module on the frame, a pushing through hole and a feeding through hole which can be penetrated by the tin bar horizontally are horizontally arranged on the fixed module, the feeding through hole is positioned right above the pushing through hole, and a discharging through hole which is in butt joint with the feeding through hole is horizontally arranged on the movable module. In this tin bar cutting machine structure, when the tin bar passes movable module and cover half piece simultaneously the level, movable module downwardly moving cuts off the tin bar, and blevile of push promotes the level in the driven module of tin bar, and automatic ejecting receipts material of receiving device avoids card material or adhesion phenomenon to appear when cutting, and cutting noise is little simultaneously, and receiving efficiency is high.

Description

Tin bar cutting machine

Technical Field

The invention belongs to the technical field of tin bar processing equipment, and particularly relates to a tin bar cutting machine.

Background

In the field of tin solder production, a manual operation mode is adopted for manufacturing a tin rod, namely, molten tin is filled into a casting kettle, the molten tin is cast into a die by holding the casting kettle by hands, the tin rod is taken out of the die after the molten tin is solidified, the operation mode has a plurality of defects, firstly, the labor intensity of the manufacturing method is high, the production efficiency is extremely low, secondly, the manual operation is extremely easy to scald due to the extremely high temperature of the molten tin, and extremely high potential safety hazards exist, and secondly, in the casting process, the manual operation mode is adopted, because the contact time of the molten tin and air is long, the surface of the tin rod is extremely easy to oxidize to produce impurities, and the quality of the tin rod is influenced.

At present, an automatic rod casting machine appears in the market, and heavy manual operation is replaced, but bar cutting of the automatic rod casting machine is basically carried out by adopting a saw blade, in practice, the cutting saw blade frequently fails due to the component difference of the bar, such as a saw clamping phenomenon or a phenomenon that molten tin adheres to the saw blade, meanwhile, the saw blade is adopted for cutting, larger cutting noise can be generated, fine powder flies, environmental pollution is large, manual material collection is adopted during material collection, and the efficiency is low.

Disclosure of Invention

The invention aims to provide a tin bar cutting machine which cuts off tin bars by utilizing a moving and fixed die block and ejects out the tin bars for automatic material receiving.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows: the utility model provides a tin bar cutting machine, includes the frame, be fixed with certain module in the frame, fixed module one side is equipped with by shearing thrust unit control is followed the movable module of fixed module side reciprocates, correspond in the frame movable module opposite side is equipped with can be ejecting the tin bar and makes the receiving device of slope gliding, the level is equipped with the pan feeding through-hole that pushes away the material through-hole and can supply the tin bar level to penetrate on the fixed module, the pan feeding through-hole is located push away the material through-hole directly over, be equipped with on the movable module with the ejection of compact through-hole of pan feeding through-hole butt joint.

Further, the distance between the pushing through hole and the feeding through hole is equal to the upward or downward moving distance of the movable module, so that accurate feeding and pushing processes are ensured, and the tin bar is prevented from being damaged.

Further, when the feeding through hole is in butt joint with the discharging through hole, the tin bar horizontally passes through the feeding through hole and the discharging through hole, the movable module moves downwards to cut off the tin bar, and when the movable module moves downwards to the position that the discharging through hole is aligned with the pushing through hole, the pushing device pushes the tin bar to fall into the receiving device.

Further, a pushing rod is arranged in the pushing through hole, and the pushing device controls the pushing rod to push the tin bar to move.

Further, the pushing device is an air cylinder or a motor.

Further, the length of the tin bar contained in the discharging through hole is smaller than or equal to that of the discharging through hole, the length of the tin bar can be reasonably selected according to requirements, and the application range of the cutting machine is enlarged.

Further, the material receiving device comprises a bracket fixed on the frame, a material discharging pushing device arranged at the lower end of the bracket, a material pushing bracket which is positioned in the bracket and is controlled by the material discharging pushing device to reciprocate up and down along the side wall of the bracket, a roller fixed at the upper end of the bracket through a shaft and a trough connected with the bracket.

Further, the side of the support is connected with a baffle column used for limiting the horizontal displacement of the tin bar, the center shaft of the baffle column is positioned right above the center shaft of the roller and is arranged in parallel, and the baffle column is made of nonmetallic elastic materials and plays a role in buffering the movement of the tin bar.

Further, at least two rollers are arranged, the surfaces of the rollers are inwards concave with containing grooves with the radius larger than the radius of the tin rod and used for containing the tin rod pushed out of the discharging through hole, the rollers are made of metal materials, and sliding friction force of the tin rod rolling on the rollers is reduced.

Further, the pushing bracket is U-shaped or inverted E-shaped, at least two ejection parts vertically extend on the pushing bracket, the ejection parts are positioned in the gaps between the adjacent two rollers or the rollers and the bracket, the ejection surface on each ejection part is an inclined surface or an inclined concave cambered surface, all the ejection surfaces are arranged in a coplanar manner, when the tin bars are positioned in the accommodating groove, the discharging pushing device pushes the pushing bracket to move upwards, the tin bars positioned in the accommodating groove are separated from the accommodating groove under the pushing of the ejection parts and finally roll into the trough along the ejection surfaces, and when no tin bars are arranged in the accommodating groove, the discharging pushing device pulls the pushing bracket to move downwards to the position that the topmost end of the pushing bracket is lower than the topmost end of the rollers.

Compared with the prior art, the invention has the following technical effects:

In this tin bar cutting machine structure, when the tin bar passes movable module and cover half piece simultaneously the level, movable module downwardly moving cuts off the tin bar, and blevile of push promotes the level in the driven module of tin bar, and automatic ejecting receipts material of receiving device avoids card material or adhesion phenomenon to appear when cutting, and cutting noise is little simultaneously, and receiving efficiency is high.

Drawings

FIG. 1 is a front view of a tin bar cutter of the present invention;

FIG. 2 is a top view of the tin bar cutter of the present invention;

FIG. 3 is a cross-sectional view taken in the direction B-B in FIG. 2;

FIG. 4 is a cross-sectional view taken along the direction A-A in FIG. 1;

FIG. 5 is a cross-sectional view of the tin bar of FIG. 2 after being cut in the direction B-B;

Fig. 6 is a sectional view taken in the direction A-A in fig. 1.

Illustration of:

1. Frame 11, fixed plate 2 and fixed die block

21. Feeding through hole 22, pushing through hole 3 and movable module

31. Discharge through hole 4, pushing device 41 and pushing rod

5. Shearing pushing device 51, connector 52 and shearing pushing rod

6. Receiving device 61, trough 611 and support plate

612. First support 613, second support 62, ejection of compact thrust unit

621. Discharge push rod 63, bracket 64 and pushing bracket

641. Ejection portion 6411, ejection surface 65, and roller

651. Accommodating groove 66, blocking member 661, and connecting member

662. Baffle column 7, tin bar 8 and lower support plate

9. Upper support plate 10, guide pillar.

Detailed Description

Embodiments of the present invention will now be described in detail with reference to the drawings, which are intended to be used as references and illustrations only, and are not intended to limit the scope of the invention.

Referring to fig. 1 to 4, a tin bar cutter comprises a frame 1, a lower support plate 8 fixed on the frame 1, a fixed die block 2 fixed on the lower support plate 8, a pushing device 4 arranged on the fixed die block 2, an upper support plate 9 arranged at the upper end of the fixed die block 2, a shearing pushing device 5 fixed on the upper support plate 9, a movable die block 3 arranged at one side of the fixed die block 2 and controlled by the shearing pushing device 5 to move up and down along the side surface of the fixed die block 2, four guide posts 10 fixed on the frame 1 and connected with the upper support plate 9 and the lower support plate 8, and a receiving device 6 fixed on the other side of the frame 1 corresponding to the movable die block 3 and capable of ejecting and making the tin bar 7 slide downwards in an inclined manner. The upper end of the frame 1 is provided with a fixed plate 11, the lower support plate 8 is fixed on the fixed plate 11, the upper end and the lower end of the four guide posts 10 are respectively fixedly connected with the upper support plate 9 and the lower support plate 8 through nuts, the movable module 3 is positioned between the upper support plate 9 and the lower support plate 8, the two guide posts 10 on the same side sequentially penetrate through the upper support plate 9, the fixed die block 2 and the lower support plate 8, the fixed die block 2 is abutted against the lower support plate 8, no relative movement is caused between the upper support plate 9 and the fixed die block 2 between the fixed die block 2 and the upper support plate 9 through a spacer bush sleeved on the two guide posts 10, the two guide posts 10 on the other side sequentially penetrate through the upper support plate 9, the movable module 3 and the lower support plate 8, the movement of the movable module 3 is controlled by a shearing pushing device 5 fixed on the upper support plate 9, the shearing pushing device 5 penetrates through the upper support plate 9 and is provided with a shearing pushing rod 52 which can be stretched or shortened, the tail end of the shearing pushing rod 52 is fixedly connected with a connector 51, the shearing pushing device 5 and the movable module 3 are in a threaded fixed connection, and the shearing pushing device 5 drives the upper support plate 3 and the lower support plate 3 to reciprocate through the shearing pushing device 51.

Referring to fig. 3 and 5, a pushing through hole 22 and a feeding through hole 21 into which the tin rod 7 horizontally penetrates are horizontally arranged on the movable module 3, the feeding through hole 21 is positioned right above the pushing through hole 22, a discharging through hole 31 which is in butt joint with the feeding through hole 21 is arranged on the movable module 3, a pushing rod 41 is arranged in the pushing through hole 22, and the pushing device 4 controls the pushing rod 41 to push the tin rod 7 accommodated in the discharging through hole 31 to move. When the feeding through hole 21 is in butt joint with the discharging through hole 31, the tin bar 7 horizontally passes through the feeding through hole 21 and the discharging through hole 31, the movable module 3 moves downwards to cut off the tin bar 7, when the movable module 3 moves downwards to the position that the discharging through hole 31 is aligned with the pushing through hole 22, the pushing device 4 drives the pushing rod 41 to horizontally push the tin bar 7 accommodated in the discharging through hole 31 into the receiving device 6, the distance between the pushing through hole 22 and the feeding through hole 21 is equal to the distance that the movable module 3 moves upwards or downwards, the fact that the discharging through hole 31 is coaxial with the feeding through hole 21 and the pushing through hole 22 respectively when the movable module 3 is in two extreme positions is ensured, the feeding and pushing processes are accurate, the tin bar 7 is prevented from being damaged in the process of cutting the tin bar 7, the quality of the tin bar 7 is influenced, the length of the tin bar accommodated in the discharging through hole 31 is smaller than or equal to the length of the discharging through hole 31, the same cutting machine can select the cutting length as required, and the application range is enlarged.

Referring to fig. 4 and 6, the material receiving device 6 includes a bracket 63 fixed on the frame 1, a material pushing device 62 disposed at the lower end of the bracket 63, a material pushing bracket 64 disposed in the bracket 63 and controlled by the material pushing device 62 to reciprocate up and down along the side wall of the bracket 63, a roller 65 rotatably fixed at the upper end of the bracket 63 through a shaft, and a trough 61 connected with the bracket 63, grooves for mounting the roller 65 are symmetrically disposed at opposite sides of the bracket 63, a blocking member 66 is disposed at the other side, the blocking member 66 includes a connecting member 661 fixedly connected with the bracket 63 and a cylindrical blocking post 662 fixed at the upper end of the connecting member 661, the center shaft of the blocking post 662 is disposed directly above the center shaft of the roller 65 and is disposed in parallel, the blocking post 662 is made of a nonmetallic elastic material, and plays a buffering role to prevent the tin bar 7 from being bumped during the material receiving process, the shape of the tin bar is broken, the roller 65 is provided with at least two cut portions, the roller 65 is disposed in the grooves on the bracket 63 through a shaft and can freely rotate, in order to reduce the rolling force of the tin bar 7 during the rolling process, the roller 65 is preferentially selected from being hard from having a metal groove 651, and the diameter of the roller 651 is larger than the diameter of the metal groove 651 is contained in the groove 7, which is contained in the material receiving the tin bar 7.

The pushing bracket 64 is in a U shape (kan) or inverted E shape, at least two ejection parts 641 vertically extend on the pushing bracket, the ejection parts 641 are positioned in the adjacent two rollers 65 or gaps between the rollers 65 and the support 63, the ejection surface 6411 on each ejection part 641 is an inclined surface or an inclined concave cambered surface, all the ejection surfaces 6411 are arranged in a coplanar mode, when the tin rod 7 is positioned in the accommodating groove 651, the discharging pushing device 62 drives the pushing bracket 64 fixedly connected with the tail end of the discharging pushing rod 621 to move upwards through the discharging pushing rod 621 arranged in the support 63, the tin rod positioned in the accommodating groove 651 is separated from the accommodating groove 651 under the pushing of the ejection part 641 and slides downwards along the ejection surface 6411, the topmost end of a chute of the chute 61 is lower than the highest point of the roller 65 and the lowest point of the ejection surface 6411, the tin rod 7 can smoothly roll to the topmost end of the chute 61 through the roller 65 or directly roll to the topmost end of the chute 61 of the ejector surface 6411, the chute is fixedly connected with the support 63 through the support plate, and one side of the rack 1 is vertically fixed with the first support frame 612, simultaneously, the second support frame 611 is arranged outside the second support frame 61 is inclined, the two support frames 61 are obliquely arranged outside the second support frame 61 is arranged outside the top the roller 65, the topmost support 61 is inclined to enable the tin rod 61 to slide along the topmost point of the ejection surface 64 to slide along the ejection surface 6411, the topmost point is not to slide upwards, the ejection groove 61 is repeatedly, and the topmost material is repeatedly pushed upwards, and the ejection device is repeatedly pushed to move along the top of the chute 61, and the top is not inclined, and the material 64 is repeatedly pushed upwards, and the material is continuously and inclined. The pushing device 4 and the discharging pushing device 62 are air cylinders or motors.

The tin bar cutting machine can be used for being connected with a tin bar forming machine, the tin bar forming machine can control tin bar forming and automatic feeding, the tin bar cutting machine can also be connected with a feeding machine, and the automatic feeding can be controlled, if manual feeding is needed, the tin bar cutting machine can also be used independently, the tin bar forming machine is preferably connected with the tin bar cutting machine to form full-automatic production, and the technical scheme of the tin bar cutting machine can also be applied to other fields.

According to the invention, the movable module slides along the side surface of the fixed module to cut off the tin bar, then the tin bar is pushed into the accommodating groove of the discharging device, the tin bar is ejected and rolled into the tin groove by the pushing bracket to finish receiving, the tin bar cutting machine can rapidly finish cutting and receiving actions of the tin bar, and the phenomenon of sticking or clamping the die can not occur in the cutting process, and the tin bar cutting machine is especially matched with a tin bar forming machine for use, so that the tin bar is prevented from being oxidized by contact with air for a long time in the tin bar manufacturing process, the production efficiency is improved, the noise is reduced, the quality of the tin bar is ensured, and the production safety is improved.

The above disclosure is illustrative of the preferred embodiments of the present invention and should not be construed as limiting the scope of the invention, which is defined by the appended claims.

Claims

1. The utility model provides a tin bar cutting machine, includes frame (1), its characterized in that, be fixed with certain module (2) on frame (1), fixed module (2) one side is equipped with by shearing thrust unit (5) control along fixed module (2) side reciprocates movable module (3), correspond on frame (1) movable module (3) opposite side is equipped with can push out tin bar and make its receipts material device (6) of gliding down of slope, fixed module (2) are gone up the level and are equipped with pushing away material through-hole (22) and can supply the pan feeding through-hole (21) that the tin bar horizontally penetrated, pan feeding through-hole (21) are located push away material through-hole (22) directly over, be equipped with on movable module (3) with pan feeding through-hole (21) butt joint's ejection of compact through-hole (31);

The material receiving device (6) comprises a bracket (63) fixed on the frame (1), a material discharging pushing device (62) arranged at the lower end of the bracket (63), a material pushing bracket (64) which is positioned in the bracket (63) and is controlled by the material discharging pushing device (62) to reciprocate up and down along the side wall of the bracket (63), a roller (65) which is fixed at the upper end of the bracket (63) through a shaft and can rotate, and a trough (61) connected with the bracket (63);

The side surface of the bracket (63) is connected with a baffle column (662) for limiting the horizontal displacement of the tin bar, the central shaft of the baffle column (662) is positioned right above the central shaft of the roller (65) and is arranged in parallel, and the baffle column (662) is made of a nonmetallic elastic material;

the number of the rollers (65) is at least two, the surfaces of the rollers are internally provided with containing grooves (651) with the radius being larger than the radius of the tin bars, the containing grooves are used for containing the tin bars pushed out of the discharging through holes (31), and the rollers (65) are made of metal materials;

The pushing bracket (64) is U-shaped or inverted E-shaped, at least two ejection parts (641) vertically extend on the pushing bracket, the ejection parts (641) are positioned in the gaps between two adjacent rollers (65) or rollers (65) and the bracket (63), an ejection surface (6411) on each ejection part (641) is an inclined surface or an inclined concave cambered surface, all the ejection surfaces (6411) are arranged in a coplanar manner, when tin bars are positioned in the accommodating groove (651), the discharging pushing device (62) pushes the pushing bracket (64) to move upwards, the tin bars positioned in the accommodating groove (651) are separated from the accommodating groove (651) under the pushing of the ejection parts (641) and finally roll into the trough (61) along the ejection surfaces (6411), and when no tin bars are positioned in the accommodating groove (651), the discharging pushing device (62) pulls the pushing bracket (64) to move downwards to the position that the top end of the pushing bracket (64) is lower than the top end (65);

The upper end of the frame is provided with a fixed plate, the lower support plate is fixed on the fixed plate, the upper end and the lower end of the four guide posts are respectively fixedly connected with the upper support plate and the lower support plate through nuts, the movable module is arranged between the upper support plate and the lower support plate, the two guide posts on the same side sequentially penetrate through the upper support plate, the fixed module and the lower support plate, the fixed module is abutted against the lower support plate, no relative movement is caused between the upper support plate and the fixed module through a spacer sleeve sleeved on the two guide posts between the fixed module and the upper support plate, the two guide posts on the other side sequentially penetrate through the upper support plate, the movable module and the lower support plate, the movement of the movable module between the upper support plate and the lower support plate is controlled by a shearing pushing device fixed on the upper support plate, the shearing pushing device penetrates through the upper support plate and is provided with a shearing pushing rod capable of extending or shortening, the tail end of the shearing pushing rod is fixedly connected with a connector, the shearing pushing device drives the connector and the movable module to reciprocate up and down through the shearing pushing device through the shearing pushing rod, and the shearing pushing device is a hydraulic cylinder.

2. Tin bar cutting machine according to claim 1, characterized in that the distance between the pushing through hole (22) and the feeding through hole (21) is equal to the distance the movable module (3) moves upwards or downwards.

3. A tin bar cutting machine according to claim 1, wherein when the feeding through hole (21) is in butt joint with the discharging through hole (31), the tin bar horizontally passes through the feeding through hole (21) and the discharging through hole (31), the movable module (3) moves downwards to cut off the tin bar, and when the movable module (3) moves downwards to the state that the discharging through hole (31) is aligned with the pushing through hole (22), the pushing device (4) pushes the tin bar to fall into the receiving device (6).

4. A tin bar cutting machine according to claim 3, wherein a pushing rod (41) is arranged in the pushing through hole (22), and the pushing device (4) controls the pushing rod (41) to push the tin bar to move.

5. A tin bar cutter as claimed in claim 3, wherein the pushing device (4) is a cylinder or a motor.

6. The tin bar cutting machine according to claim 1, wherein the length of the tin bar accommodated in the discharge through hole (31) is smaller than or equal to the length of the discharge through hole (31).