CN211438395U - Transverse cutting machine tool - Google Patents

Abstract

The utility model belongs to the technical field of lead shot production, and provides a transverse cutting machine tool, which comprises a frame; lead ingot slicing machine, lead ingot slicing machine includes: the slicing support, the cutter support sets up in the frame, the locating plate is located the bottom of slicing support, be used for the lead ingot side to slide on the locating plate and the location of lead ingot, the cutter slides and sets up on the slicing support, be used for along being on a parallel with the direction of lead ingot bottom surface to the lead ingot section, the part at the edge that the locating plate was stretched out to the sliced position of cutter in the lead ingot, lead ingot pusher sets up in the frame, be used for promoting the lead ingot bottom surface, make the lead ingot side slide on the locating plate. Through above-mentioned technical scheme, need many times slice, influence lead button production efficiency's problem when having solved lead button production among the prior art.

Description

Transverse cutting machine tool

Technical Field

The utility model belongs to the technical field of lead button production, a crosscut lathe is related to.

Background

In the lead-acid storage battery manufacturing industry, the production of lead powder is the initial process of the whole lead-acid storage battery production process, lead ingots are generally required to support lead granules for producing the lead powder, and the production of the lead granules in the prior art generally has two modes, namely transversely cutting the lead ingots into slices, and performing rolling cutting and granulating; secondly, rolling a lead plate by a lead ingot, longitudinally cutting the lead plate into strips, and cutting the lead strips into lead particles by a rotating blade.

The utility model patent of patent number 200920310645.X discloses a lead ingot granulation automatic production line, and wherein lead ingot cake cutting mechanism utilizes the lead ingot on the hydro-cylinder drive cutter will anvil groove down to cut into pieces, and the stripping and slicing goes on along lead ingot length direction in proper order, need carry out a lot of stripping and slicing to the lead ingot, and efficiency is lower, influences the efficiency of lead ingot granulation.

SUMMERY OF THE UTILITY MODEL

The utility model provides a crosscut lathe has solved the problem that needs many times to cut into slices, influence lead button production efficiency when producing lead button among the prior art.

The technical scheme of the utility model is realized like this:

a crosscutting machine tool comprising:

a frame;

lead ingot slicing apparatus, lead ingot slicing apparatus includes:

a slicing bracket, wherein the cutter bracket is arranged on the frame,

the positioning plate is positioned at the bottom end of the slicing support and is used for sliding the side surface of a lead ingot on the positioning plate and positioning the lead ingot,

the cutter is arranged on the slicing support in a sliding mode and used for slicing the lead ingot along the direction parallel to the bottom surface of the lead ingot, the slicing position of the cutter is the part, extending out of the edge of the positioning plate, of the lead ingot,

the lead ingot pushing device is arranged on the rack and used for pushing the bottom surface of the lead ingot to enable the side surface of the lead ingot to slide on the positioning plate.

As a further technical scheme, the lead ingot conveying device is arranged on the rack and adopts a roller conveying device which comprises a plurality of uniformly arranged conveying rollers.

As a further technical scheme, a gap is reserved between every two adjacent conveying rollers;

the positioning plate is arranged at an obtuse angle with the conveying plane, and one side of the positioning plate extends to be in contact with the lead ingot conveying device;

the lead ingot pushing device comprises:

a pushing support arranged below the conveying plane,

the pushing plates are arranged on the pushing support in a sliding mode, penetrate through gaps among the conveying rollers and slide on the positioning plates, the number of the pushing plates is a plurality, and the pushing plates are used for pushing the side faces of the lead ingots to slide on the positioning plates.

As a further technical scheme, the side surface of the pushing plate is in contact with the upper surface of the positioning plate, and the end surface of the pushing plate and the upper surface of the positioning plate form an acute angle.

As a further technical solution, the method further comprises:

the lead sheet conveying device is used for conveying the lead sheets cut by the lead ingot slicing device;

and one end of the guide plate is connected with the top surface of the positioning plate, and the other end of the guide plate extends to the lead sheet conveying device.

As a further technical solution, the method further comprises: the lead sheet granulating device is obliquely arranged on the rack, is positioned at the tail end of the lead sheet conveying device and is used for granulating lead sheets;

and the transition roller is arranged at the tail end of the lead sheet conveying device (5) and used for guiding the lead sheets to enter the lead sheet granulating device for granulating.

As a further technical solution, the lead sheet cutting device includes:

the top surface of the pelletizing box body is provided with a pelletizing inlet used for receiving the lead sheets conveyed by the lead sheet conveying device, and the bottom of the pelletizing box body is provided with a pelletizing outlet used for sending out cut lead pellets;

the number of the hobbing cutter rollers is two, and the hobbing cutter rollers are all rotatably arranged in the dicing box body.

As a further technical scheme, still include positioner, positioner is used for the location of lead ingot on lead ingot conveyor, positioner includes:

the first stop block is arranged on the rack in a sliding mode and used for pushing a lead ingot to move from the rack to a conveying plane of the lead ingot conveying device;

and the second stop block is arranged on the lead ingot conveying device and used for positioning the lead ingot conveying device.

As a further technical solution, the method further comprises:

the conveying direction of the chain conveying device is perpendicular to the conveying direction of the lead ingot conveying device, the lead ingot is placed on the chain conveying device upside down, and the top surface of the lead ingot is in contact with a chain of the chain conveying device;

the first stop block is positioned at the tail part of the conveying chain, and an inclined platform is arranged at the top end of the first stop block and used for enabling the top surface of a lead ingot to face upwards when the lead ingot falls down from the conveying chain.

As a further technical scheme, still include setting device, setting device sets up in the frame for guarantee from the lead ingot top surface under the conveying chain up, setting device includes:

the shaping support is fixedly arranged on the rack and is positioned at a falling position of the lead ingot;

the sliding plate is arranged on the shaping bracket in a sliding mode along the vertical direction.

The utility model discloses a theory of operation and beneficial effect do:

1. the utility model discloses in, the cross section of lead ingot is trapezoidal, and the during operation lead ingot is placed on the locating plate, and the side slides on the locating plate with the last surface contact of locating plate, promotes lead ingot bottom surface by lead ingot pusher and makes the lead ingot side, and the cutter exposes the part at locating plate edge to the lead ingot and cuts into slices, and lead ingot pusher once promotes the lead ingot, and the cutter once slices to the lead ingot, cuts into slices until cutting into slices completely, and cutter motion can adopt hydro-cylinder, cylinder etc. as power. The section of the lead ingot slice by the cutter is parallel to the bottom surface of the lead ingot at each time, the slice thickness can be guaranteed to be uniform, the subsequent granulating process cannot be influenced, and compared with the slicing mode in the prior art, the slicing frequency of the lead ingot is less, and the production efficiency of lead particles can be effectively improved

2. The utility model discloses in, lead ingot conveyor is used for carrying the lead ingot, and lead ingot conveyor adopts cylinder conveyor, and the length direction of lead ingot is on a parallel with direction of delivery and places on carrying the cylinder, bottom surface and the contact of carrying the cylinder.

3. The utility model discloses in, the locating plate is the obtuse angle with the plane of delivery and arranges to have one side to extend to with the contact of lead ingot conveyor, lead ingot pusher's propelling movement support setting is in plane of delivery's below, and the push plate slides and sets up on the propelling movement support, can adopt cylinder, hydro-cylinder etc. to provide power, and the push plate passes the space between the conveying roller and slides on the locating plate, promotes lead ingot side and slides on the locating plate.

4. The utility model discloses in, the tip of push plate is equipped with an inclined table, make the side of push plate and locating plate upper surface contact, the terminal surface becomes the acute angle setting with the upper surface, this contained angle is the same with the base angle of lead ingot, make the push plate terminal surface and the bottom surface contact of lead ingot when promoting lead ingot, the side of lead ingot and the upper surface contact of locating plate, and promote lead ingot side and slide on the locating plate, lead ingot can accomplish the location through push plate, locating plate and cutter when the cutting, lead ingot stability when guaranteeing to cut into slices.

5. The utility model discloses in, the cutter cuts into slices the part that the locating plate was stretched out to the lead pig when the lead pig was sliced, and the lead piece that has cut is direct to be followed guide board and slided to lead piece conveyor, is transported to next process by lead piece conveyor.

6. The utility model discloses in, lead ingot section conveyor carries the lead sheet with the lead sheet and cuts the grain device, cuts the grain device by the lead sheet and cuts the grain to the lead sheet, and the lead sheet cuts the grain device slope setting to be equipped with the transition roller, the lead sheet that can be more convenient gets into cuts the grain device and accomplishes and cut the grain.

7. The utility model discloses in, the lead sheet transports the lead sheet from conveyor and cuts the grain device, enters into from cutting a grain entry and cuts a grain box via the guide of transition roller, cuts a grain to the lead sheet by a pair of hobbing cutter roller, sees off from cutting a grain export after cutting a grain and accomplishing.

8. The utility model discloses in, the plane of placing of lead ingot and lead ingot conveyor's transport plane are on the coplanar, and first dog is which gliding power in the frame is provided by the cylinder, promotes lead ingot by first dog and moves to lead ingot conveyor's transport cylinder on, carries on spacingly by the second dog, confirms the position of lead ingot, makes things convenient for subsequent handling.

9. The utility model discloses in, put the lead ingot upside down on chain conveyor's chain, make the bottom surface and the chain contact of lead ingot, lead ingot moves along with the chain, and the whereabouts falls downwards when moving the chain tail end, and the in-process lead ingot upset of whereabouts, the side can be blocked by first dog, can openly up when making lead ingot fall in the frame.

10. The utility model discloses in, the conveying chain level sets up, and lead ingot can appear sometimes from the conveying chain after falling that the upset is incomplete, and the side leans on the condition on the baffle, and setting device is used for making lead ingot can the top surface up, can contact with the side and the top surface sideline of lead ingot when the sliding plate moves down to continue to move down and make lead ingot top surface up.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a lead ingot slicing part;

FIG. 3 is a partial cross-sectional view of a lead ingot slice;

FIG. 4 is a schematic view of a pusher plate passing through a lead ingot transport device;

FIG. 5 is a schematic view of a lead pellet cutting apparatus;

FIG. 6 is a schematic view of the feeding section;

in the figure: the lead ingot cutting machine comprises a machine frame 1, a lead ingot slicing device 2, a slicing support 21, a positioning plate 22, a cutter 23, a lead ingot pushing device 3, a pushing support 31, a pushing plate 32, a lead ingot conveying device 4, a lead sheet conveying device 5, a lead sheet cutting device 6, a cutting box body 61, a hobbing roller 62, a positioning device 7, a first stop dog 71, a second stop dog 72, a chain conveying device 8, a shaping device 9, a shaping support 91, a sliding plate 92, a guide plate 10 and a transition roller 11.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in the figures 1-6 of the drawings,

a crosscutting machine tool comprising:

a frame 1;

lead ingot slicing apparatus 2, lead ingot slicing apparatus 2 includes:

a slicing bracket 21, a cutter bracket is arranged on the frame 1,

a positioning plate 22, the positioning plate 22 is positioned at the bottom end of the slicing support 21 and is used for the side surface of the lead ingot to slide on the positioning plate 22 and positioning the lead ingot,

a cutter 23, the cutter 23 is slidably arranged on the slicing bracket 21 and is used for slicing the lead ingot along a direction parallel to the bottom surface of the lead ingot, the slicing position of the cutter 23 is the part of the lead ingot extending out of the edge of the positioning plate 22,

the lead ingot pushing device 3 is arranged on the rack 1 and used for pushing the bottom surface of the lead ingot to enable the side surface of the lead ingot to slide on the positioning plate 22.

In this embodiment, the cross section of the lead ingot is trapezoidal, the lead ingot is placed on the positioning plate 22 during operation, the side surface contacts with the upper surface of the positioning plate 22, the lead ingot pushing device 3 pushes the bottom surface of the lead ingot to enable the side surface of the lead ingot to slide on the positioning plate 22, the cutter 23 slices the part of the lead ingot exposing the edge of the positioning plate 22, the cutter 23 slices the lead ingot once when the lead ingot pushing device 3 pushes the lead ingot once until the lead ingot is completely sliced, and the cutter 23 can adopt an oil cylinder, an air cylinder and the like as power during movement. The section of the lead ingot slice by the cutter 23 is parallel to the bottom surface of the lead ingot at each time, the slice thickness can be ensured to be uniform, the subsequent granulating process cannot be influenced, and compared with the slicing mode in the prior art, the slicing frequency of the lead ingot is less, and the production efficiency of lead granules can be effectively improved

Further, still include lead ingot conveyor 4, lead ingot conveyor 4 sets up in frame 1, and lead ingot conveyor 4 adopts cylinder conveyor, including a plurality of evenly arranged's transport cylinder.

In this embodiment, the lead ingot conveying device 4 is used for conveying a lead ingot, the lead ingot conveying device 4 is a drum conveying device, the length direction of the lead ingot is parallel to the conveying direction and is placed on the conveying drum, and the bottom surface of the lead ingot is in contact with the conveying drum.

Further, a gap is reserved between the adjacent conveying rollers;

the positioning plate 22 is arranged at an obtuse angle with the conveying plane, and one side of the positioning plate 22 extends to be in contact with the lead ingot conveying device 4;

the lead ingot pushing device 3 includes:

a pushing support 31, the pushing support 31 is arranged below the conveying plane,

the pushing plates 32 are arranged on the pushing support 31 in a sliding mode, the pushing plates 32 penetrate through gaps among the conveying rollers and slide on the positioning plate 22, the number of the pushing plates 32 is multiple, and the pushing plates 32 are used for pushing the side faces of the lead ingots to slide on the positioning plate 22.

In this embodiment, the positioning plate 22 is arranged at an obtuse angle with the conveying plane, and has one side extending to contact with the lead ingot conveying device 4, the pushing support 31 of the lead ingot pushing device 3 is arranged below the conveying plane, the pushing plate 32 is slidably arranged on the pushing support 31, and can be powered by an air cylinder, an oil cylinder and the like, and the pushing plate 32 penetrates through a gap between the conveying rollers to slide on the positioning plate 22, so as to push the side surface of the lead ingot to slide on the positioning plate 22.

Further, the side surface of the pushing plate 32 contacts the upper surface of the positioning plate 22, and the end surface of the pushing plate 32 is disposed at an acute angle with the upper surface of the positioning plate 22.

In this embodiment, the tip of push plate 32 is equipped with an inclined table, make push plate 32's side and locating plate 22 upper surface contact, the terminal surface becomes the acute angle setting with the upper surface, this contained angle is the same with the base angle of lead ingot, make push plate 32 terminal surface and lead ingot's bottom surface contact when promoting lead ingot, lead ingot's side and locating plate 22's upper surface contact, and promote lead ingot side and slide on locating plate 22, lead ingot can accomplish the location through push plate 32, locating plate 22 and cutter 23 when the cutting, lead ingot stability when guaranteeing to slice.

Further, still include:

the lead sheet conveying device 5 is used for conveying the lead sheets cut by the lead ingot slicing device 2;

and one end of the guide plate 10 is connected with the top surface of the positioning plate 22, and the other end of the guide plate 10 extends to the lead sheet conveying device 5.

In this embodiment, the cutter 23 slices the portion of the lead ingot extending out of the positioning plate 22 during slicing the lead ingot, and the cut lead sheet directly slides along the guide plate 10 to the lead sheet conveying device 5 and is conveyed to the next process by the lead sheet conveying device 5.

Further, still include:

the lead sheet granulating device 6 is obliquely arranged on the rack 1 and is positioned at the tail end of the lead sheet conveying device 5 and used for granulating lead sheets;

and the transition roller 11 is arranged at the tail end of the lead sheet conveying device 5 and used for guiding the lead sheets to enter the lead sheet granulating device 6 for granulating.

In this embodiment, lead ingot section conveyor carries the lead sheet and cuts grain device 6, cuts grain device 6 by the lead sheet and cuts grain to the lead sheet, and the slope of the lead ingot cuts grain device sets up to be equipped with transition roller 11, the guide lead sheet that can be more convenient gets into cuts grain device and accomplishes and cut grain.

Further, the lead sheet cutting device 6 includes:

the cutting device comprises a cutting box body 61, wherein the cutting box body 61 is arranged on the rack 1, a cutting inlet is formed in the top surface of the cutting box body 61 and used for receiving lead sheets conveyed by the lead sheet conveying device 5, and a cutting outlet is formed in the bottom of the cutting box body 61 and used for sending out cut lead particles;

two hob rolls 62 and two hob rolls 62 are rotatably arranged in the granulating box body 61;

in this embodiment, the lead sheet is carried lead sheet cutting device 6 from conveyor, gets into grain cutting box 61 from cutting grain entry via transition roller 11 guide, cuts the grain by a pair of hobbing cutter roller 62 to the lead sheet, cuts grain and sends out from cutting grain export after accomplishing.

Further, still include positioner 7, positioner 7 is used for the location of lead ingot on lead ingot conveyor 4, and positioner 7 includes:

the first stop block 71 is arranged on the rack 1 in a sliding mode, and is used for pushing the lead ingot to move from the rack 1 to the conveying plane of the lead ingot conveying device 4;

and the second stop block 72 is arranged on the lead ingot conveying device 4 and used for positioning the lead ingot conveying device.

In this embodiment, the placing plane of the lead ingot and the conveying plane of the lead ingot conveying device 4 are on the same plane, the first stopper 71 provides sliding power on the rack 1 by the cylinder, the lead ingot is pushed by the first stopper 71 to move to the conveying roller of the lead ingot conveying device 4, and the second stopper 72 limits the position of the lead ingot to determine the position of the lead ingot, so as to facilitate subsequent processes.

Further, still include:

the conveying direction of the chain conveying device 8 is perpendicular to the conveying direction of the lead ingot conveying device 4, the lead ingot is placed on the chain conveying device 8 upside down, and the top surface of the lead ingot is in contact with the chain of the chain conveying device 8;

the first stopper 71 is located at the tail of the conveying chain, and an inclined table is arranged at the top end of the first stopper 71 and used for enabling the top surface of a lead ingot to face upwards when the lead ingot falls down from the conveying chain.

In this embodiment, the lead ingot is placed upside down on the chain of the chain conveying device 8, so that the bottom surface of the lead ingot is in contact with the chain, the lead ingot moves along with the chain, and falls down when moving to the tail end of the chain, and the lead ingot overturns in the falling process, and the side surface of the lead ingot is blocked by the first stopper 71, so that the lead ingot can face upwards when falling onto the rack 1.

Further, still include setting device 9, setting device 9 sets up in frame 1 for guarantee from the lead ingot top surface under the conveying chain up, setting device 9 includes:

the shaping support 91, the shaping support 91 is fixedly arranged on the frame 1 and is positioned at the falling position of the lead ingot;

and a sliding plate 92, wherein the sliding plate 92 is arranged on the shaping bracket 91 in a sliding manner along the vertical direction.

In this embodiment, the conveying chain is horizontally arranged, the lead ingot sometimes turns incompletely after falling from the conveying chain, the side faces lean against the baffle, the shaping device 9 is used for enabling the top face of the lead ingot to face upwards, and the sliding plate 92 contacts with the side faces and the side lines of the lead ingot when moving downwards and continues to move downwards to enable the top face of the lead ingot to face upwards.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A crosscutting machine, comprising:

a frame (1);

lead ingot slicing apparatus (2), lead ingot slicing apparatus (2) includes:

a slice support (21) arranged on the machine frame (1),

the positioning plate (22), the positioning plate (22) is positioned at the bottom end of the slicing bracket (21) and is used for the side surface of a lead ingot to slide on the positioning plate (22) and positioning the lead ingot,

the cutter (23) is arranged on the slicing support (21) in a sliding mode and used for slicing the lead ingot along the direction parallel to the bottom surface of the lead ingot, the slicing position of the cutter (23) is the part of the lead ingot extending out of the edge of the positioning plate (22),

the lead ingot pushing device (3) is arranged on the rack (1) and used for pushing the bottom surface of a lead ingot to enable the side surface of the lead ingot to slide on the positioning plate (22).

2. A crosscutting machine according to claim 1, characterized in that it also comprises a lead ingot conveying device (4), said lead ingot conveying device (4) being arranged on said machine frame (1), said lead ingot conveying device (4) being a roller conveying device comprising a plurality of uniformly arranged conveying rollers.

3. A crosscutting machine according to claim 2,

gaps are reserved between the adjacent conveying rollers;

the positioning plate (22) is arranged at an obtuse angle with the conveying plane, and one side of the positioning plate (22) extends to be in contact with the lead ingot conveying device (4);

the lead ingot pushing device (3) comprises:

a pushing support (31), the pushing support (31) is arranged below the conveying plane,

push plate (32), push plate (32) slide and establish on push support (31), push plate (32) pass the space between the transport cylinder is in slide on locating plate (22), push plate (32) are a plurality of, push plate (32) are used for promoting the lead ingot side and slide on locating plate (22).

4. A crosscutting machine according to claim 3, characterised in that the side faces of the push plate (32) are in contact with the upper surface of the positioning plate (22), and the end faces of the push plate (32) are arranged at an acute angle to the upper surface of the positioning plate (22).

5. A crosscutting machine according to claim 1, further comprising:

the lead sheet conveying device (5) is used for conveying the lead sheets cut by the lead ingot slicing device (2);

the lead plate conveying device comprises a guide plate (10), one end of the guide plate (10) is connected with the top surface of the positioning plate (22), and the other end of the guide plate extends to the lead sheet conveying device (5).

6. A crosscutting machine according to claim 5, characterised by further comprising:

the lead sheet granulating device (6) is obliquely arranged on the rack (1), is positioned at the tail end of the lead sheet conveying device (5) and is used for granulating lead sheets;

the transition roller (11) is arranged at the tail end of the lead sheet conveying device (5) and used for guiding the lead sheets to enter the lead sheet granulating device (6).

7. A crosscutting machine according to claim 6, characterised in that said lead sheet cutting device (6) comprises:

the pelletizing box body (61), the pelletizing box body (61) is arranged on the rack (1), a pelletizing inlet is formed in the top surface of the pelletizing box body (61) and used for receiving lead sheets conveyed by the lead sheet conveying device (5), and a pelletizing outlet is formed in the bottom of the pelletizing box body (61) and used for sending out cut lead pellets;

and the number of the hobbing cutter rollers (62) is two, and the hobbing cutter rollers (62) are all rotatably arranged in the granulating box body (61).

8. A crosscutting machine according to claim 2, characterized by further comprising positioning means (7), said positioning means (7) being intended for positioning a lead ingot on the lead ingot conveying means (4), said positioning means (7) comprising:

the first stop block (71), the first stop block (71) is arranged on the rack (1) in a sliding mode and used for pushing a lead ingot to move from the rack (1) to a conveying plane of the lead ingot conveying device (4);

and the second stop block (72) is arranged on the lead ingot conveying device (4) and used for positioning the lead ingot conveying device.

9. A crosscutting machine according to claim 8, further comprising:

the conveying direction of the chain conveying device (8) is perpendicular to the conveying direction of the lead ingot conveying device (4), the lead ingot is placed on the chain conveying device (8) upside down, and the top surface of the lead ingot is in contact with the chain of the chain conveying device (8);

the first stop block (71) is positioned at the tail part of the conveying chain, and an inclined table is arranged at the top end of the first stop block (71) and used for enabling the top surface of a lead ingot to face upwards when the lead ingot falls down from the conveying chain.

10. A crosscutting machine according to claim 9, characterized by further comprising a setting device (9), said setting device (9) being arranged on the frame (1) for ensuring that the top surface of the lead ingot coming down from the conveyor chain is facing upwards, said setting device (9) comprising:

the shaping support (91) is fixedly arranged on the rack (1) and is positioned at a lead ingot falling position;

a sliding plate (92), wherein the sliding plate (92) is arranged on the shaping bracket (91) in a sliding mode along the vertical direction.

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