CN215512398U - Briquetting machine with adjustable briquetting capacity - Google Patents

Abstract

The utility model discloses a briquetting machine with adjustable briquetting capacity, which relates to the field of briquetting machines and comprises a squeezing chamber, wherein a servo squeezing oil cylinder is arranged on the left side of the squeezing chamber, a piston rod of the servo squeezing oil cylinder is connected with a squeezing block, a cover plate oil cylinder mounting seat is arranged above the squeezing chamber, a cover plate is arranged in the squeezing chamber, the cover plate oil cylinder is hinged with the cover plate oil cylinder mounting seat, a piston rod of the cover plate oil cylinder is hinged with the upper surface of a cover plate, the squeezing chamber comprises a squeezing chamber base section, a squeezing chamber end sealing section and a plurality of squeezing chamber increasing sections which are arranged between the squeezing chamber base section and the squeezing chamber end sealing section and used for increasing the capacity of the squeezing chamber, and the cover plate comprises a cover plate base section arranged at the left end, a cover plate end sealing section arranged at the right end and a plurality of cover plate increasing sections which are arranged between the cover plate base section and the cover plate end sealing section and used for increasing the length of the cover plate. The utility model can solve the problems that the capacity of the existing briquetting machine is a fixed value and cannot be adjusted, which easily causes electric energy waste and briquetting cost increase.

Description

Briquetting machine with adjustable briquetting capacity

Technical Field

The utility model relates to the field of briquetting machines, in particular to a briquetting machine with adjustable briquetting capacity.

Background

When casting, the metal waste needs to be put into a smelting furnace for smelting. The shape of the metal waste is different in size, which is not beneficial to carrying and conveying, the diameter of the mouth of the smelting furnace is limited, and some metal waste cannot be put into the smelting furnace, so that the metal waste needs to be pressed into blocky metal materials and then smelted.

The briquetting machine mainly makes metal waste into blocky metal materials in an extruding mode.

The capacity of the existing briquetting machine is a fixed value. When the quantity of the metal waste to be extruded is small during single briquetting, the space in the extrusion chamber is large, waste is caused, and the servo extrusion oil cylinder has partial stroke in the extrusion process and does not work on the metal waste, so that the servo extrusion oil cylinder is in an idle stroke, and electric energy waste is caused; when the quantity of the metal waste to be extruded is large during single briquetting, the space in the extrusion chamber is small, and all the metal waste cannot be completely contained, so that the briquetting process can be completed only by multiple times of extrusion, the electric energy waste is caused, and the briquetting cost is increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing a briquetting machine with adjustable briquetting capacity, and solves the problems that the capacity of the conventional briquetting machine cannot be adjusted to a fixed value, so that electric energy waste is easily caused, and the briquetting cost is increased.

The technical scheme adopted by the utility model for solving the technical problems is as follows: a briquetting machine with adjustable briquetting capacity comprises a squeezing chamber, wherein a servo squeezing oil cylinder is arranged on the left side of the squeezing chamber, a piston rod of the servo extrusion oil cylinder penetrates through the side wall of the extrusion chamber to be connected with the extrusion block, a cover plate oil cylinder mounting seat is arranged above the left end of the extrusion chamber, the extrusion chamber is provided with a cover plate hinged with the left end of the extrusion chamber, the right end of the cover plate oil cylinder is hinged with the cover plate oil cylinder mounting seat, a piston rod of the cover plate oil cylinder is hinged with the upper surface of the cover plate, the extrusion chamber comprises an extrusion chamber base section arranged at the left end, an extrusion chamber end sealing section arranged at the right end and a plurality of extrusion chamber increasing sections arranged between the extrusion chamber base section and the extrusion chamber end sealing section and used for increasing the capacity of the extrusion chamber, the cover plate comprises a cover plate base section arranged at the left end, a cover plate end sealing section arranged at the right end and a plurality of cover plate increasing sections arranged between the cover plate base section and the cover plate end sealing section and used for increasing the length of the cover plate.

Furthermore, a piston rod of the servo extrusion oil cylinder penetrates through the left side wall of the extrusion chamber base section to be connected with the extrusion block, a cover plate oil cylinder mounting seat is arranged above the left end of the extrusion chamber base section, the extrusion chamber base section is provided with a cover plate base section hinged with the extrusion chamber base section at the left end, and the piston rod of the cover plate oil cylinder is hinged with the upper surface of the cover plate base section.

Further, the extrusion chamber base section comprises an extrusion chamber base section left wall and a front extrusion chamber base section side wall and a rear extrusion chamber base section side wall which are arranged on the right side of the extrusion chamber base section left wall, the partial bottom which is enclosed by the extrusion chamber base section left wall and the two extrusion chamber base section side walls is provided with an extrusion chamber base section bottom plate, the lower part of the right side of the extrusion chamber base section side wall is provided with a rectangular extrusion chamber base section protruding part, the upper surface of the extrusion chamber base section protruding part is provided with a rectangular extrusion chamber base section groove, the extrusion chamber end sealing section comprises an extrusion chamber end sealing section right wall, the upper part of the left side of the extrusion chamber end sealing section right wall is provided with a rectangular extrusion chamber end sealing section protruding part, the lower surface of the extrusion chamber end sealing section protruding part is provided with a rectangular extrusion chamber end sealing section protruding block, the extrusion chamber extension section comprises two extrusion chamber extension section side walls which are arranged on the front side and the rear side of the extrusion chamber extension section side wall, and the bottom plate arranged between the two extrusion chamber extension section side walls is provided with an extrusion chamber extension section, the upper part of the left side and the lower part of the right side of the side wall of the extrusion chamber increasing section are respectively provided with a rectangular extrusion chamber increasing section protruding part, the lower surface of the protruding part of the extrusion chamber increasing section on the left side of the side wall of the extrusion chamber increasing section is provided with a rectangular extrusion chamber increasing section protruding block, the upper surface of the protruding part of the extrusion chamber increasing section on the right side of the side wall of the extrusion chamber increasing section is provided with a rectangular extrusion chamber increasing section groove, the protruding block of the extrusion chamber increasing section is matched with the extrusion chamber base section groove, the protruding block of the extrusion chamber end sealing section is matched with the extrusion chamber increasing section groove, the front side and the rear side of the side wall of the extrusion chamber base section, the side wall of the extrusion chamber increasing section and the right wall of the extrusion chamber end sealing section are respectively provided with an extrusion chamber base section fixing sleeve, an extrusion chamber increasing section fixing sleeve and an extrusion chamber end sealing section fixing sleeve, and an extrusion chamber fixing bolt penetrates through the extrusion chamber base section fixing sleeve, the extrusion chamber increasing section fixing sleeve and the extrusion chamber end sealing section fixing sleeve, and when the extrusion chamber base section, the extrusion chamber increasing section and the extrusion chamber end sealing section are connected through the extrusion chamber base section groove, the extrusion chamber increasing section lug, the extrusion chamber increasing section groove, the extrusion chamber end sealing section lug, the extrusion chamber fixing bolt and the extrusion chamber fixing nut, the extrusion chamber increasing section bottom plate is simultaneously in sealing connection with the extrusion chamber base section bottom plate and the extrusion chamber end sealing section right wall.

Furthermore, the extrusion chamber increasing section lug is matched with the extrusion chamber increasing section groove.

Further, the apron base section internal level sets up a plurality of right-hand members and sets up open-ended apron base section thread groove, the apron increases in the section and matches the position level with apron base section thread groove and set up a plurality of apron and increase a section screw hole, the apron end seals the section and is internal to match the position level with apron and increase a section screw hole and set up a plurality of left end open-ended apron end seal section thread grooves, and the apron end seals the section thread groove right side setting and the apron end seal section thread groove of apron end seal section thread groove intercommunication in the apron end seal section, and the nut setting of the fixed countersunk head bolt of apron is in apron end seal section thread groove, screw rod setting are at apron base section thread groove, apron increase a section screw hole and apron end seal section thread groove.

Further, the number of the thread grooves of the base section of the cover plate is five.

The utility model has the following beneficial effects:

the capacity of the extrusion chamber of the briquetting machine can be adjusted by the number of the extension sections of the extrusion chamber. When the quantity of the metal waste to be extruded is small during single briquetting, the quantity of the lengthening sections of the extrusion chamber is reduced by operators; when the quantity of the metal waste to be extruded is large during single briquetting, operators increase the quantity of the extension sections of the extrusion chamber. Therefore, the electric energy can be saved to the maximum extent, and the briquetting cost is reduced.

Drawings

FIG. 1 is a front view of the present invention with the cover open;

FIG. 2 is a front view of the present invention with the cover plate open and without the extrusion chamber base section fixing sleeve, the extrusion chamber extension section fixing sleeve, the extrusion chamber end seal section fixing sleeve, the extrusion chamber fixing bolt, and the extrusion chamber fixing nut assembled;

FIG. 3 is an exploded elevational view of the extrusion chamber without the assembly of the extrusion chamber base section fixing sleeve, the extrusion chamber extension section fixing sleeve, the extrusion chamber end seal section fixing sleeve, the extrusion chamber fixing bolt and the extrusion chamber fixing nut;

FIG. 4 is an exploded front view of the extrusion chamber;

FIG. 5 is a front view of the cover in a closed state;

FIG. 6 is an exploded front view showing a state where a countersunk head bolt is not fixed to the cover plate in a closed state;

FIG. 7 is a right side view of the cover end seal segment with the cover in the closed position;

fig. 8 is an exploded top view of the extrusion chamber.

Detailed Description

As shown in fig. 1-8, a briquetting machine with adjustable briquetting capacity comprises a pressing chamber 1, a servo pressing cylinder 3 is arranged on the left side of the pressing chamber 1, a piston rod of the servo pressing cylinder 3 penetrates through the side wall of the pressing chamber 1 to be connected with a pressing block, a cover plate cylinder mounting seat 2 is arranged above the left end of the pressing chamber 1, the pressing chamber 1 is provided with a cover plate 5 hinged with the pressing chamber 1 at the left end, the right end of the cover plate cylinder 4 is hinged with the cover plate cylinder mounting seat 2, the piston rod of the cover plate cylinder 4 is hinged with the upper surface of the cover plate 5, the pressing chamber 1 comprises a pressing chamber base section 11 arranged at the left end, a pressing chamber end sealing section 12 arranged at the right end and a plurality of pressing chamber increasing sections 13 arranged between the pressing chamber base section 11 and the pressing chamber end sealing section 12 and used for increasing the capacity of the pressing chamber 1, and the cover plate 5 comprises a cover plate base section 51 arranged at the left end, A cover plate end sealing section 52 arranged at the right end and a plurality of cover plate increasing sections 53 arranged between the cover plate base section 51 and the cover plate end sealing section 52 and used for increasing the length of the cover plate 5.

The number of extrusion chamber extensions 13 and cover plate extensions 53 can be adjusted as desired.

After adjusting the number of the extrusion chamber increasing section 13 and the cover plate increasing section 53, an operator adjusts the stroke of the servo extrusion cylinder 3, and the stroke of the servo extrusion cylinder 3 is ensured to be matched with the number of the extrusion chamber increasing section 13 and the cover plate increasing section 53.

The servo extrusion oil cylinder 3 is characterized in that a piston rod penetrates through the left side wall of the extrusion chamber base section 11 to be connected with the extrusion block, a cover plate oil cylinder mounting seat 2 is arranged above the left end of the extrusion chamber base section 11, the extrusion chamber base section 11 is provided with a cover plate base section 51 hinged with the extrusion chamber base section at the left end, and a piston rod of the cover plate oil cylinder 4 is hinged with the upper surface of the cover plate base section 51.

The extrusion chamber base section 11 comprises an extrusion chamber base section left wall 113 and a front extrusion chamber base section side wall and a rear extrusion chamber base section side wall 114 arranged on the right side of the extrusion chamber base section left wall 113, a bottom plate 115 of the extrusion chamber base section is arranged at the partial bottom enclosed by the extrusion chamber base section left wall 113 and the two extrusion chamber base section side walls 114, a rectangular extrusion chamber base section convex part 112 is arranged at the lower part of the right side of the extrusion chamber base section side wall 114, a rectangular extrusion chamber base section groove 1121 is arranged on the upper surface of the extrusion chamber base section convex part 112, the extrusion chamber end sealing section 12 comprises an extrusion chamber end sealing section right wall 123, a rectangular extrusion chamber end sealing section convex part 122 is arranged on the upper part of the left side of the extrusion chamber end sealing section right wall 123, a rectangular extrusion chamber end sealing section convex part 1221 is arranged on the lower surface of the extrusion chamber end sealing section convex part 122, and the extrusion chamber increasing section 13 comprises a front extrusion chamber increasing section side wall 134 and a rear extrusion chamber increasing section side wall, an extrusion chamber increasing section bottom plate 133 is arranged at the bottom between two extrusion chamber increasing section side walls 134, rectangular extrusion chamber increasing section convex parts 132 are arranged at the upper left part and the lower right part of the extrusion chamber increasing section side walls 134, rectangular extrusion chamber increasing section convex parts 1322 are arranged on the lower surface of the extrusion chamber increasing section convex part 132 at the left side of the extrusion chamber increasing section side walls 134, rectangular extrusion chamber increasing section concave grooves 1321 are arranged on the upper surface of the extrusion chamber increasing section convex part 132 at the right side of the extrusion chamber increasing section side walls 134, the extrusion chamber increasing section convex parts 1322 and the extrusion chamber base section concave grooves 1121 are matched, the extrusion chamber end sealing section convex parts 1221 and the extrusion chamber increasing section concave grooves 1321 are matched, and extrusion chamber base section fixing sleeves 111, extrusion chamber increasing section fixing sleeves 131 and extrusion chamber end sealing section fixing sleeves 121 are respectively arranged at the front side and the rear side of the extrusion chamber increasing section side walls 114, the extrusion chamber increasing section side walls 134 and the extrusion chamber end sealing section right wall 123, the extrusion chamber fixing bolt 14 penetrates through the extrusion chamber base section fixing sleeve 111, the extrusion chamber increasing section fixing sleeve 131 and the extrusion chamber end sealing section fixing sleeve 121, the extrusion chamber fixing nut 15 is arranged on a screw rod of the extrusion chamber fixing bolt 14, and when the extrusion chamber base section 11, the extrusion chamber increasing section 13 and the extrusion chamber end sealing section 12 are connected through the extrusion chamber base section groove 1121, the extrusion chamber increasing section projection 1322, the extrusion chamber increasing section groove 1321, the extrusion chamber end sealing section projection 1221, the extrusion chamber fixing bolt 14 and the extrusion chamber fixing nut 15, the extrusion chamber increasing section bottom plate 133 is simultaneously in sealing connection with the extrusion chamber base section bottom plate 115 and the extrusion chamber end sealing section right wall 123.

The extrusion chamber extension projection 1322 is matched with the extrusion chamber extension groove 1321.

The extrusion chamber base section 11, the extrusion chamber extension section 13, and the extrusion chamber end seal section 12 are respectively integrally formed with the corresponding protrusions to obtain high structural strength.

When the briquetting operation is executed, an operator clamps the extrusion chamber base section 11, the extrusion chamber extension sections 13 and the extrusion chamber end sealing section 12 through the convex blocks and the grooves, so that the stability of the structure of the extrusion chamber under the extrusion force of the servo extrusion oil cylinder 3 can be guaranteed.

The extrusion chamber base section 11, the extrusion chamber increasing sections 13 and the extrusion chamber end sealing section 12 are connected through an extrusion chamber base section fixing sleeve 111, an extrusion chamber increasing section fixing sleeve 131, an extrusion chamber end sealing section fixing sleeve 121, an extrusion chamber fixing bolt 14 and an extrusion chamber fixing nut 15, and the structural strength of the extrusion chamber is further guaranteed.

A plurality of cover plate base section thread grooves 511 with openings at the right end are horizontally arranged in the cover plate base section 51, a plurality of cover plate increasing section thread holes 521 are horizontally arranged at the matching position of the cover plate increasing section 53 and the cover plate base section thread grooves 511, a plurality of cover plate end sealing section thread grooves 531 with openings at the left end are horizontally arranged at the matching position of the cover plate increasing section thread holes 521 in the cover plate end sealing section 52, a cover plate end sealing section nut groove 532 communicated with the cover plate end sealing section thread grooves 531 is arranged at the right side of the cover plate end sealing section thread groove 531 in the cover plate end sealing section 52, nuts of cover plate fixing countersunk bolts 54 are arranged in the cover plate end sealing section nut groove 532, and screws are arranged in the cover plate base section thread grooves 511, the cover plate increasing section thread holes 521 and the cover plate end sealing section thread grooves 531.

The cover plate base section 51, the cover plate increasing sections 53 and the cover plate end sealing section 52 are connected through the cover plate fixing countersunk head bolts 54, and the structural strength of the cover plate can be guaranteed. The nut of the cover plate fixing countersunk bolt 54 is disposed in the cover plate end seal segment nut groove 532, and normal closing of the cover plate is not affected.

The number of the cover plate base section thread grooves 511 is five.

The five cover plate base section thread grooves 511 correspond to the five cover plate fixing countersunk head bolts 54, and the structural strength of the cover plate is further improved.

The pressure value of the servo extrusion oil cylinder 3 is 6-10Mpa, and the pressure value of the cover plate oil cylinder 4 is 5-8 Mpa. Through actual measurement, the structural strength of the extrusion chamber and the cover plate can bear the pressure value.

The capacity of the extrusion chamber of the briquetting machine can be adjusted by the number of the extension sections of the extrusion chamber. When the quantity of the metal waste to be extruded is small during single briquetting, the quantity of the lengthening sections of the extrusion chamber is reduced by operators; when the quantity of the metal waste to be extruded is large during single briquetting, operators increase the quantity of the extension sections of the extrusion chamber. Therefore, the electric energy can be saved to the maximum extent, and the briquetting cost is reduced.

The above description is only a preferred embodiment of the present invention, and not intended to limit the present invention in any way, and those skilled in the art can make various changes and modifications to the equivalent embodiments without departing from the scope of the present invention, and all such changes, modifications, equivalents and improvements that can be made to the above embodiments without departing from the technical spirit of the present invention are within the spirit and principle of the present invention.

Claims (6)

1. A briquetting machine with adjustable briquetting capacity comprises a squeezing chamber (1), wherein a servo squeezing oil cylinder (3) is arranged on the left side of the squeezing chamber (1), a piston rod of the servo squeezing oil cylinder (3) penetrates through the side wall of the squeezing chamber (1) to be connected with a squeezing block, a cover plate oil cylinder mounting seat (2) is arranged above the left end of the squeezing chamber (1), the squeezing chamber (1) is provided with a cover plate (5) hinged with the squeezing chamber at the left end, the right end of the cover plate oil cylinder (4) is hinged with the cover plate oil cylinder mounting seat (2), the piston rod of the cover plate oil cylinder (4) is hinged with the upper surface of the cover plate (5), and the briquetting machine is characterized in that the squeezing chamber (1) comprises a squeezing chamber base section (11) arranged at the left end, a squeezing chamber end sealing section (12) arranged at the right end and a plurality of squeezing chamber increasing sections (13) used for increasing the capacity of the squeezing chamber (1) and arranged between the squeezing chamber base section (11) and the squeezing chamber end sealing section (12), the cover plate (5) comprises a cover plate base section (51) arranged at the left end, a cover plate end sealing section (52) arranged at the right end and a plurality of cover plate increasing sections (53) arranged between the cover plate base section (51) and the cover plate end sealing section (52) and used for increasing the length of the cover plate (5).

2. The briquetting machine with adjustable briquetting capacity of claim 1, wherein the piston rod of the servo extrusion cylinder (3) passes through the left side wall of the extrusion chamber base section (11) and is connected with the extrusion block, the cover plate cylinder mounting seat (2) is arranged above the left end of the extrusion chamber base section (11), the extrusion chamber base section (11) is provided with the cover plate base section (51) hinged with the extrusion chamber base section at the left end, and the piston rod of the cover plate cylinder (4) is hinged with the upper surface of the cover plate base section (51).

3. The briquetting machine with adjustable briquetting capacity of claim 2, wherein the extrusion chamber base section (11) comprises an extrusion chamber base section left wall (113) and two extrusion chamber base section side walls (114) arranged at the front and back of the right side of the extrusion chamber base section left wall (113), a bottom plate (115) of the extrusion chamber base section is arranged at the partial bottom enclosed by the extrusion chamber base section left wall (113) and the two extrusion chamber base section side walls (114), a rectangular extrusion chamber base section bulge (112) is arranged at the lower part of the right side of the extrusion chamber base section side wall (114), a rectangular extrusion chamber base section groove (1121) is arranged on the upper surface of the extrusion chamber base section bulge (112), the extrusion chamber end sealing section (12) comprises an extrusion chamber end sealing section right wall (123), a rectangular extrusion chamber end sealing section bulge (122) is arranged at the upper part of the left side of the extrusion chamber end sealing section right wall (123), the lower surface of the extrusion chamber end sealing section protruding part (122) is provided with a rectangular extrusion chamber end sealing section protruding block (1221), the extrusion chamber increasing section (13) comprises two extrusion chamber increasing section side walls (134) arranged in front of and behind the extrusion chamber increasing section protruding part, an extrusion chamber increasing section bottom plate (133) is arranged at the bottom between the two extrusion chamber increasing section side walls (134), the upper parts of the left side and the right side of the extrusion chamber increasing section side walls (134) are respectively provided with a rectangular extrusion chamber increasing section protruding part (132), the lower surface of the extrusion chamber increasing section protruding part (132) at the left side of the extrusion chamber increasing section side walls (134) is provided with a rectangular extrusion chamber increasing section protruding block (1322), the upper surface of the extrusion chamber increasing section protruding part (132) at the right side of the extrusion chamber increasing section side walls (134) is provided with a rectangular extrusion chamber increasing section groove (1321), and the extrusion chamber increasing section protruding block (1322) is matched with the extrusion chamber base section groove (1121), the extrusion chamber end sealing section protruding block (1221) is arranged in a matching manner with the extrusion chamber increasing section groove (1321), the front side and the rear side of the extrusion chamber base section side wall (114), the extrusion chamber increasing section side wall (134) and the extrusion chamber end sealing section right wall (123) are respectively provided with an extrusion chamber base section fixing sleeve (111), an extrusion chamber increasing section fixing sleeve (131) and an extrusion chamber end sealing section fixing sleeve (121), an extrusion chamber fixing bolt (14) penetrates through the extrusion chamber base section fixing sleeve (111), the extrusion chamber increasing section fixing sleeve (131) and the extrusion chamber end sealing section fixing sleeve (121), a screw of the extrusion chamber fixing bolt (14) is provided with an extrusion chamber fixing nut (15), and when the extrusion chamber base section (11), the extrusion chamber increasing section (13) and the extrusion chamber end sealing section (12) pass through the extrusion chamber base section groove (1121), the extrusion chamber increasing section protruding block (compression chamber), the extrusion chamber increasing section groove (1321), When the extrusion chamber end sealing section convex block (1221), the extrusion chamber fixing bolt (14) and the extrusion chamber fixing nut (15) are connected, the extrusion chamber increasing section bottom plate (133) is simultaneously in sealing connection with the extrusion chamber base section bottom plate (115) and the extrusion chamber end sealing section right wall (123).

4. The briquetting machine as claimed in claim 3, wherein said extrusion chamber extension projection (1322) is disposed to match with said extrusion chamber extension recess (1321).

5. The briquetting machine with adjustable briquetting capacity of claim 4, wherein a plurality of cover plate base section thread grooves (511) with openings at right ends are horizontally arranged in the cover plate base section (51), a plurality of cover plate increasing section thread grooves (521) are horizontally arranged in the cover plate increasing section (53) at positions matched with the cover plate base section thread grooves (511), a plurality of cover plate end sealing section thread grooves (531) with openings at left ends are horizontally arranged in the cover plate end sealing section (52) at positions matched with the cover plate increasing section thread grooves (521), a cover plate end sealing section nut groove (532) communicated with the cover plate end sealing section thread grooves (531) is arranged on the right side of the cover plate end sealing section thread grooves (531) in the cover plate end sealing section (52), nuts of cover plate fixing sunk bolts (54) are arranged in the cover plate end sealing section nut grooves (532), and screws are arranged in the cover plate base section thread grooves (511) and the cover plate increasing section thread grooves (511), The cover plate increasing section threaded hole (521) and the cover plate end sealing section threaded groove (531).

6. The briquetting machine with adjustable briquette capacity of claim 5, wherein the number of said cover plate base section screw grooves (511) is five.

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