CN115503379B - Core pressing device for manufacturing lead cores - Google Patents

Abstract

The invention discloses a lead manufacturing and pressing device, which belongs to the technical field of pencil processing and particularly relates to a lead manufacturing and pressing device, comprising a working frame and further comprising: the feeding assembly is used for quantitatively conveying raw materials, the bearing assembly is used for placing the conveyed raw materials and is arranged at the bottom end of the working frame, the pressing assembly is used for carrying out extrusion molding on the raw materials placed in the bearing assembly so as to obtain lead cores, and the pressing assembly is arranged on the right side of the top end of the working frame.

Description

Core pressing device for manufacturing lead cores

Technical Field

The invention relates to the technical field of pencil processing, in particular to a lead manufacturing and pressing device.

Background

The pencil is a special pencil for writing and drawing sketch, which has been four hundred years old, wherein the drawing sketch pencil is divided into a plurality of types and three development stages, namely a graphite pencil, a wooden pencil holder and a capped pencil; in addition, the color of the color is red, white, black and white, yellow, black and other stripes. At present, graphite powder and clay are required to be stirred during production of the pencil, and extrusion molding is carried out through an extruder after uniform stirring.

However, at present, after the lead is obtained by the extruder, unified cutting is needed, so that the production steps are increased, the processing efficiency is reduced, the cost input is also increased, and the current cutting is generally finished manually, so that the processing efficiency is further reduced.

Disclosure of Invention

The present invention has been made in view of the above and/or problems occurring in the prior art of a lead core manufacturing press.

It is therefore an object of the present invention to provide a core pressing device for manufacturing a lead, which can solve the above-mentioned problems.

In order to solve the technical problems, according to one aspect of the present invention, the following technical solutions are provided:

a lead manufacturing core pressing device, which comprises a working frame and further comprises:

the feeding assembly is used for quantitatively conveying raw materials;

the bearing assembly is used for placing the conveyed raw materials and is arranged on the bottom end of the working frame;

the pressing component is used for carrying out extrusion molding on the raw materials placed in the bearing component so as to obtain a lead core, and is arranged on the right side of the top end of the working frame;

the blanking assembly is used for blanking the extruded lead cores;

the second rotating assembly is used for converting the positions of the feeding assembly and the discharging assembly, and is arranged on the left side of the top end of the working frame, and the feeding assembly and the discharging assembly are respectively arranged on two sides of the bottom end of the second rotating assembly;

the distance measuring sensor is used for detecting the length of the extruded lead core for the first time and is arranged on the material pressing component;

the length measuring sensor is used for detecting the length of the extruded lead core for the second time and is arranged on the bearing assembly.

As a preferable mode of the lead manufacturing core pressing device of the present invention, wherein: the work frame includes:

a bottom plate;

the two groups of support rods are fixedly arranged on the two sides of the top of the bottom plate;

the roof, the bottom both sides of roof are two sets of bracing pieces of fixed mounting.

As a preferable mode of the lead manufacturing core pressing device of the present invention, wherein: the carrier assembly includes:

hollow tubes for accommodating the transported raw materials, and the hollow tubes are divided into two groups;

the first rotating assembly is used for converting the positions of the two groups of hollow pipes and is arranged on the bottom plate;

the bracket is used for fixing the hollow pipe and is arranged on the first rotating assembly;

a keep off material subassembly for avoiding raw materials in the hollow tube falls away, and the both sides of first rotating assembly all install and keep off material subassembly.

As a preferable mode of the lead manufacturing core pressing device of the present invention, wherein: the first rotating assembly includes:

the top of the bottom plate is fixedly provided with the first box;

the first servo motor is fixedly arranged on the inner wall of the first box body;

the rotating shaft is fixedly arranged on the output shaft of the first servo motor, and the top of the rotating shaft is provided with a bracket.

As a preferable mode of the lead manufacturing core pressing device of the present invention, wherein: the bracket comprises:

the support plate is fixedly arranged at the top of the rotating shaft, and material blocking components are arranged at two sides of the support plate;

the middle end of the top of the supporting plate is fixedly provided with a vertical rod;

the cross rod, the equal fixed mounting cross rod in top both ends of montant, and the one end fixed mounting hollow tube of cross rod.

As a preferable mode of the lead manufacturing core pressing device of the present invention, wherein: the fender material subassembly includes:

the first box body is fixedly arranged on two sides of the supporting plate;

the first cylinder is fixedly arranged on the inner wall of the first box body;

the baffle, the output of first cylinder passes through piston rod fixed mounting baffle, and the top of baffle contacts with the bottom of hollow tube, the lateral wall of baffle is equipped with the length measurement sensor.

As a preferable mode of the lead manufacturing core pressing device of the present invention, wherein: the second rotating assembly includes:

the second box body is fixedly arranged on one side of the bottom of the top plate;

the second servo motor is fixedly arranged on the inner wall of the second box body;

and the rotary plate is fixedly arranged on the output shaft of the second servo motor, and the feeding component and the discharging component are respectively arranged on two sides of the bottom of the rotary plate.

As a preferable mode of the lead manufacturing core pressing device of the present invention, wherein: the material loading subassembly includes:

an L-shaped plate is fixedly arranged at one side of the bottom of the rotating plate;

the annular weight sensor is fixedly arranged on the L-shaped plate;

the bearing plate is fixedly arranged on the circular weight sensor;

the connecting rods are fixedly arranged at the two ends of the top of the bearing plate;

the two ends of the bottom of the storage box are fixedly provided with connecting rods;

the inner wall of the bottom end of the storage box is provided with a through hole;

the feeding pipe is fixedly arranged on the inner wall of the through hole, and one end of the feeding pipe sequentially penetrates through the bearing plate, the annular weight sensor and the L-shaped plate to extend to the lower part of the L-shaped plate;

and the valve is arranged on the feeding pipe.

As a preferable mode of the lead manufacturing core pressing device of the present invention, wherein: the unloading subassembly includes:

the second box body is fixedly arranged on the other side of the bottom of the rotating plate;

the second cylinder is fixedly arranged on the inner wall of the second box body;

and the output end of the second cylinder is fixedly provided with the blanking plate through a piston rod, a hollow pipe is arranged right below the blanking plate, and the blanking plate is slidably connected in the hollow pipe.

As a preferable mode of the lead manufacturing core pressing device of the present invention, wherein: the swage assembly includes:

the third box body is fixedly arranged on the other side of the bottom of the top plate;

the third cylinder is fixedly arranged on the inner wall of the third box body;

the extrusion plate, the output of third cylinder passes through piston rod fixed mounting extrusion plate, and is equipped with the hollow tube under the extrusion plate, but extrusion plate sliding connection is in the hollow tube, the top of extrusion plate is equipped with range sensor.

Compared with the prior art:

1. the raw materials are quantitatively conveyed through the feeding assembly, and are extruded and formed through the pressing assembly, so that the effect of directly extruding and forming the required processing length is achieved, the required processing length is formed through direct extrusion, the lead core is prevented from being cut in the later stage, the processing steps are reduced, the processing efficiency is improved, and the cost input is reduced;

2. the positions of the two groups of hollow tubes are converted through the arrangement of the first rotating assembly, and the positions of the feeding assembly and the discharging assembly are converted through the arrangement of the second rotating assembly, so that the continuous work of the whole structure is realized, and the processing efficiency is improved;

3. the raw materials are placed into the hollow tube, then blocked by the blocking component and extruded by the pressing component, so that the extruded lead core has high compactness and is not easy to loosen, and the quality of the lead core is greatly improved;

4. the distance measuring sensor and the length measuring sensor are arranged to detect the length of the lead core, so that the effect of detecting the length of the lead core in the later period is avoided, the processing steps are further reduced, the processing efficiency is improved, and the cost is reduced.

Drawings

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

FIG. 2 is an enlarged schematic view of the structure A in FIG. 1 according to the present invention;

FIG. 3 is a schematic top view of a carrier assembly according to the present invention;

FIG. 4 is a bottom view of the rotary plate of the present invention;

FIG. 5 is a schematic front view of a loading assembly of the present invention;

FIG. 6 is a schematic front view of a press assembly according to the present invention;

FIG. 7 is a schematic view of the connection of the carrier plate and the connecting rod of the present invention;

fig. 8 is a schematic view of the structure of the working frame of the present invention.

In the figure: the device comprises a working frame 10, a bottom plate 11, a supporting rod 12, a top plate 13, a bearing component 20, a bracket 21, a supporting plate 211, a vertical rod 212, a cross rod 213, a hollow tube 22, a first rotating component 23, a first box 231, a first servo motor 232, a rotating shaft 233, a blocking component 24, a first box 241, a first cylinder 242, a blocking plate 243, a feeding component 30, an L-shaped plate 31, an annular weight sensor 32, a bearing plate 33, a connecting rod 34, a storage box 35, a through hole 36, a feeding tube 37, a valve 38, a blanking component 40, a second box 41, a second cylinder 42, a blanking plate 43, a second rotating component 50, a second box 51, a second servo motor 52, a rotating plate 53, a pressing component 60, a third box 61, a third cylinder 62, a pressing plate 63, a distance measuring sensor 70 and a length measuring sensor 80.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

The invention provides a lead manufacturing and core pressing device, referring to fig. 1-8, which comprises a working frame 10, a feeding assembly 30 for quantitatively conveying raw materials, a bearing assembly 20 for placing the conveyed raw materials, a pressing assembly 60 for extruding and forming the raw materials placed in the bearing assembly 20, a blanking assembly 40 for blanking the extruded lead, a second rotating assembly 50 for converting the positions of the feeding assembly 30 and the blanking assembly 40, a ranging sensor 70 for detecting the length of the extruded lead for the first time, and a length measuring sensor 80 for detecting the length of the extruded lead for the second time;

and the bearing assembly 20 is installed on the bottom end of the work frame 10, the material pressing assembly 60 is installed on the right side of the top end of the work frame 10, the second rotating assembly 50 is installed on the left side of the top end of the work frame 10, the material loading assembly 30 and the material unloading assembly 40 are respectively installed on two sides of the bottom end of the second rotating assembly 50, the distance measuring sensor 70 is installed on the material pressing assembly 60, and the length measuring sensor 80 is installed on the bearing assembly 20.

The work frame 10 includes: a bottom plate 11, a support rod 12 and a top plate 13;

two groups of support rods 12 are fixedly arranged on two sides of the top of the bottom plate 11, and two groups of support rods 12 are fixedly arranged on two sides of the bottom of the top plate 13.

The carrier assembly 20 includes: a hollow tube 22 for containing the transported raw materials, a first rotating assembly 23 for converting the positions of the two groups of hollow tubes 22, a bracket 21 for fixing the hollow tubes 22, and a material blocking assembly 24 for preventing the raw materials in the hollow tubes 22 from falling out;

and the hollow tubes 22 are two groups, the first rotating assembly 23 is arranged on the bottom plate 11, the bracket 21 is arranged on the first rotating assembly 23, and the material blocking assemblies 24 are arranged on two sides of the first rotating assembly 23.

The first rotating assembly 23 includes: a first casing 231, a first servo motor 232, and a rotating shaft 233;

the top of bottom plate 11 fixed mounting first box 231, first servo motor 232 fixed mounting is on the inner wall of first box 231, and the output shaft fixed mounting pivot 233 of first servo motor 232, and the top installing support 21 of pivot 233.

The bracket 21 includes: a support plate 211, a vertical bar 212 and a cross bar 213;

the top of pivot 233 fixed mounting backup pad 211, and the both sides of backup pad 211 all install fender material subassembly 24, and the top middle-end fixed mounting montant 212 of backup pad 211, the top both ends of montant 212 all fixed mounting horizontal pole 213, and the one end fixed mounting hollow tube 22 of horizontal pole 213.

The dam assembly 24 includes: a first case 241, a first cylinder 242, and a baffle 243;

the first box body 241 is fixedly installed on both sides of the supporting plate 211, the first air cylinder 242 is fixedly installed on the inner wall of the first box body 241, the output end of the first air cylinder 242 is fixedly installed with the baffle 243 through the piston rod, the top of the baffle 243 is contacted with the bottom of the hollow tube 22, and the side wall of the baffle 243 is provided with the length measuring sensor 80.

The second rotating assembly 50 includes: a second casing 51, a second servo motor 52, and a rotating plate 53;

the second box 51 is fixedly installed on one side of the bottom of the top plate 13, the second servo motor 52 is fixedly installed on the inner wall of the second box 51, the output shaft of the second servo motor 52 is fixedly installed with the rotating plate 53, and the two sides of the bottom of the rotating plate 53 are respectively installed with the feeding component 30 and the discharging component 40.

The loading assembly 30 includes: the device comprises an L-shaped plate 31, an annular weight sensor 32, a bearing plate 33, a connecting rod 34, a storage box 35, a through hole 36, a feeding pipe 37 and a valve 38;

the bottom one side fixed mounting L shaped plate 31 of rotor plate 53, ring formula weight sensor 32 fixed mounting is on L shaped plate 31, carrier plate 33 fixed mounting is on ring formula weight sensor 32, carrier plate 33's top both ends all fixed mounting connecting rod 34, storage box 35's bottom both ends all fixed mounting connecting rod 34, through-hole 36 is seted up to storage box 35's bottom inner wall, the inner wall fixed mounting material loading pipe 37 of through-hole 36, and the one end of material loading pipe 37 passes carrier plate 33 in proper order, ring formula weight sensor 32 and L shaped plate 31 extend to the below of L shaped plate 31, valve 38 sets up on material loading pipe 37, wherein, can set up the pneumatic cylinder as required in storage box 35, in order to extrude the raw materials in the storage box 35 into hollow tube 22.

The blanking assembly 40 includes: a second box 41, a second cylinder 42 and a blanking plate 43;

the second box 41 is fixedly installed on the other side of the bottom of the rotating plate 53, the second air cylinder 42 is fixedly installed on the inner wall of the second box 41, the discharging plate 43 is fixedly installed at the output end of the second air cylinder 42 through a piston rod, the hollow tube 22 is arranged right below the discharging plate 43, and the discharging plate 43 is slidably connected in the hollow tube 22.

The nip assembly 60 includes: a third case 61, a third cylinder 62, and a pressing plate 63;

the third box body 61 is fixedly installed on the other side of the bottom of the top plate 13, the third cylinder 62 is fixedly installed on the inner wall of the third box body 61, the output end of the third cylinder 62 is fixedly installed with the extrusion plate 63 through a piston rod, the hollow tube 22 is arranged right below the extrusion plate 63, the extrusion plate 63 is slidably connected in the hollow tube 22, and the top of the extrusion plate 63 is provided with the ranging sensor 70.

Working principle: the weight of the raw materials to be conveyed is set according to the required processing length, at this time, the raw materials stored in the storage box 35 fall into a group of hollow tubes 22 through the valve 38 until the numerical value on the ring-shaped weight sensor 32 reaches the set value, after that, the rotating shaft 233 is rotated by the first servo motor 232 until a group of hollow tubes 22 is positioned right below the extrusion plate 63, after that, the extrusion plate 63 is lowered by the third cylinder 62, the lowered extrusion plate 63 is inserted into the hollow tubes 22 to realize extrusion molding of the raw materials in the hollow tubes 22, after extrusion molding, the distance sensor 70 detects whether the length of the extruded lead reaches the requirement, at the same time, after extrusion molding, the extrusion plate 63 is restored to the original position, then the hollow tubes 22 are positioned right below the feeding tube 37 through the first rotating assembly 23, after that, the rotating plate 53 is rotated by the second servo motor 52 until the hollow tube 22 is positioned right below the blanking plate 43, when the hollow tube 22 is positioned right below the blanking plate 43, the baffle 243 is moved by the first cylinder 242 until the baffle 243 is not positioned right below the hollow tube 22, at this time, the blanking plate 43 is lowered by the second cylinder 42, when the blanking plate 43 is lowered, the lead core in the hollow tube 22 is extruded down to realize blanking of the lead core, the length of the lead core is detected for the second time by the length measuring sensor 80 while the lead core is blanked to ensure that the length of the lead core meets the requirement, after the lead core is blanked, the blanking plate 43 is restored to the original position, the feeding assembly 30 is positioned above the hollow tube 22 by the second rotating assembly 50, and then the steps are repeated to continue processing, when the pressing assembly 60 is used for extruding and forming the raw materials in one group of hollow tubes 22, the blanking assembly 40 and the feeding assembly 30 will perform blanking on the lead cores in the other group of hollow tubes 22 and inject the raw materials into the other group of hollow tubes 22, so as to realize continuous operation.

Although the invention has been described hereinabove with reference to embodiments, various modifications thereof may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, the features of the disclosed embodiments may be combined with each other in any manner as long as there is no structural conflict, and the exhaustive description of these combinations is not given in this specification merely for the sake of omitting the descriptions and saving resources. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (10)

1. Core device is pressed in lead manufacturing, including work frame (10), characterized by still includes:

a feeding assembly (30) for quantitatively conveying raw materials;

a bearing assembly (20) for placing the conveyed raw materials, and the bearing assembly (20) is arranged on the bottom end of the working frame (10);

a pressing assembly (60) for performing extrusion molding on the raw materials placed in the bearing assembly (20) so as to obtain a lead core, wherein the pressing assembly (60) is arranged on the right side of the top end of the working frame (10);

a blanking assembly (40) for blanking the extruded lead;

the second rotating assembly (50) is used for converting the positions of the feeding assembly (30) and the discharging assembly (40), the second rotating assembly (50) is arranged on the left side of the top end of the working frame (10), and the feeding assembly (30) and the discharging assembly (40) are respectively arranged on two sides of the bottom end of the second rotating assembly (50);

a ranging sensor (70) for detecting the length of the extruded lead for the first time, and the ranging sensor (70) is arranged on the material pressing component (60);

and the length measuring sensor (80) is used for carrying out second detection on the length of the extruded lead core, and the length measuring sensor (80) is arranged on the bearing assembly (20).

2. A lead manufacturing press as claimed in claim 1, wherein the work frame (10) comprises:

a bottom plate (11);

the support rods (12) are fixedly arranged on two sides of the top of the bottom plate (11), and two groups of support rods (12) are fixedly arranged on two sides of the top of the bottom plate;

the top plate (13), two groups of bracing pieces (12) are all fixed mounting in the bottom both sides of top plate (13).

3. A lead fabrication core pressing device according to claim 2, wherein the carrier assembly (20) comprises:

hollow tubes (22) for accommodating the raw materials to be conveyed, and the hollow tubes (22) are divided into two groups;

a first rotating assembly (23) for converting the positions of the two sets of hollow tubes (22), and the first rotating assembly (23) is mounted on the bottom plate (11);

a bracket (21) for fixing the hollow tube (22), and the bracket (21) is mounted on the first rotating assembly (23);

a keep off material subassembly (24) for avoiding raw materials in hollow tube (22) fall out, and both sides of first rotating assembly (23) all install fender material subassembly (24).

4. A lead fabrication core pressing device according to claim 3, wherein the first rotating assembly (23) comprises:

the first box body (231) is fixedly arranged at the top of the bottom plate (11);

the first servo motor (232), the first servo motor (232) is fixedly arranged on the inner wall of the first box body (231);

the rotating shaft (233), the output shaft of the first servo motor (232) is fixedly provided with the rotating shaft (233), and the top of the rotating shaft (233) is provided with the support (21).

5. A lead fabrication core pressing device according to claim 4, wherein the bracket (21) comprises:

the supporting plate (211) is fixedly arranged at the top of the rotating shaft (233), and the material blocking assemblies (24) are arranged on two sides of the supporting plate (211);

the vertical rod (212) is fixedly arranged at the middle end of the top of the supporting plate (211);

the cross rod (213), the top both ends of montant (212) are all fixed mounting cross rod (213), and the one end fixed mounting hollow tube (22) of cross rod (213).

6. The lead fabrication core pressing device of claim 5, wherein the dam assembly (24) comprises:

the first box body (241) is fixedly arranged on two sides of the supporting plate (211);

the first air cylinder (242), the first air cylinder (242) is fixedly installed on the inner wall of the first box body (241);

the baffle (243), the output of first cylinder (242) passes through piston rod fixed mounting baffle (243), and the top of baffle (243) contacts with the bottom of hollow tube (22), the lateral wall of baffle (243) is equipped with survey length sensor (80).

7. A lead fabrication core pressing device according to claim 2, wherein the second rotating assembly (50) comprises:

a second box body (51), wherein the second box body (51) is fixedly arranged on one side of the bottom of the top plate (13);

the second servo motor (52), the said second servo motor (52) is fixedly mounted on inner wall of the second box (51);

the rotary plate (53), the output shaft of second servo motor (52) fixed mounting rotary plate (53), and material loading subassembly (30) and unloading subassembly (40) are installed respectively to the bottom both sides of rotary plate (53).

8. The lead manufacturing press core device according to claim 7, wherein the loading assembly (30) comprises:

an L-shaped plate (31), wherein the L-shaped plate (31) is fixedly arranged at one side of the bottom of the rotating plate (53);

a circular ring type weight sensor (32), wherein the circular ring type weight sensor (32) is fixedly arranged on the L-shaped plate (31);

the bearing plate (33), the said bearing plate (33) is fixedly mounted on the circular ring type weight sensor (32);

the connecting rods (34) are fixedly arranged at the two ends of the top of the bearing plate (33);

the two ends of the bottom of the storage box (35) are fixedly provided with connecting rods (34);

the inner wall of the bottom end of the storage box (35) is provided with a through hole (36);

the feeding pipe (37) is fixedly arranged on the inner wall of the through hole (36), and one end of the feeding pipe (37) sequentially penetrates through the bearing plate (33), the annular weight sensor (32) and the L-shaped plate (31) to extend to the lower part of the L-shaped plate (31);

and the valve (38) is arranged on the feeding pipe (37).

9. The core making press device according to claim 7, wherein the blanking assembly (40) comprises:

the second box body (41) is fixedly arranged on the other side of the bottom of the rotating plate (53);

the second air cylinder (42), the said second air cylinder (42) is fixedly mounted on inner wall of the second box body (41);

the blanking plate (43), the output end of the second air cylinder (42) is fixedly provided with the blanking plate (43) through a piston rod, a hollow pipe (22) is arranged right below the blanking plate (43), and the blanking plate (43) is slidably connected in the hollow pipe (22).

10. A lead fabrication core press according to claim 1, wherein the press assembly (60) comprises:

a third box body (61), wherein the third box body (61) is fixedly arranged on the other side of the bottom of the top plate (13);

the third air cylinder (62), the said third air cylinder (62) is fixedly mounted on inner wall of the third box body (61);

the extrusion plate (63), the output of third cylinder (62) passes through piston rod fixed mounting extrusion plate (63), and is equipped with hollow tube (22) under extrusion plate (63), but extrusion plate (63) sliding connection is in hollow tube (22), the top of extrusion plate (63) is equipped with range sensor (70).

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