阅读说明：本技术 一种六角成型机 (Hexagonal forming machine ) 是由 甄健儒 李立炜 于 2019-05-16 设计创作，主要内容包括：本发明公开了一种六角成型机,包括六角片旋转驱动板、齿条、齿轮、旋转驱动电机、偏心轴固定块、摆动驱动电机、底固定板、旋转盘上下驱动电机、斜槽、六角片下固定板、支撑杆上固定座、旋转盘、摆动固定板、支撑杆下固定板、底固定板安装槽、六角片上固定板、六角片旋转轴过孔、六角片、六角片旋转轴、六角片固定轴、旋转盘上下行程孔和六角片下固定板安装孔。本发明的有益效果是：该六角成型机设计合理,六角片为前后错开堆叠而成,且六角片首尾相连处通过六角片固定轴呈转动连接在一起,六角片为整个六角成型机最核心的机构,采用十六片六角片呈首尾转动连接,可使六角片在缩紧时使物料成型,旋转盘外侧一圈向上包起,呈碗状。(The invention discloses a hexagonal forming machine which comprises a hexagonal piece rotating driving plate, a rack, a gear, a rotating driving motor, an eccentric shaft fixing block, a swinging driving motor, a bottom fixing plate, a rotating disc upper and lower driving motor, a chute, a hexagonal piece lower fixing plate, a supporting rod upper fixing seat, a rotating disc, a swinging fixing plate, a supporting rod lower fixing plate, a bottom fixing plate mounting groove, a hexagonal piece upper fixing plate, a hexagonal piece rotating shaft through hole, a hexagonal piece rotating shaft, a hexagonal piece fixing shaft, a rotating disc upper and lower stroke hole and a hexagonal piece lower fixing plate mounting hole. The invention has the beneficial effects that: the hexagonal forming machine is reasonable in design, hexagonal pieces are formed by staggered stacking from front to back, the end-to-end positions of the hexagonal pieces are rotationally connected together through the hexagonal piece fixing shaft, the hexagonal pieces are the most core mechanism of the whole hexagonal forming machine, sixteen hexagonal pieces are rotationally connected end to end, materials can be formed by the hexagonal pieces when the hexagonal pieces are shrunk, and a circle on the outer side of the rotary disc is wrapped upwards to form a bowl shape.)

1. A hexagonal make-up machine which characterized in that: the device comprises a hexagonal piece rotating driving plate (1), a rack (2), a gear (3), a rotating driving motor (4), an eccentric shaft fixing block (5), a swinging driving motor (6), a bottom fixing plate (7), a rotating disc upper and lower driving motor (8), a chute (9), a hexagonal piece lower fixing plate (10), a supporting rod upper fixing seat (11), a rotating disc (12), a swinging fixing plate (13), a supporting rod lower fixing plate (14), a bottom fixing plate mounting groove (15), a hexagonal piece upper fixing plate (16), a hexagonal piece rotating shaft through hole (17), a hexagonal piece (18), a hexagonal piece rotating shaft (19), a hexagonal piece fixing shaft (20), a rotating disc upper and lower stroke hole (21) and a hexagonal piece lower fixing plate mounting hole (22); the hexagonal piece rotary driving plate (1) is installed above a hexagonal piece upper fixing plate (16), six inclined grooves (9) are formed in the hexagonal piece (18), the rack (2) is detachably connected to a hexagonal piece lower fixing plate (10) through screws, the gear (3) is connected to a rotary shaft of the rotary driving motor (4) through a key, an eccentric wheel on the rotary shaft of the swing driving motor (6) is installed on a swing fixing plate (13) through an eccentric wheel fixing block (5), bottom fixing plate installing grooves (15) are formed in two sides of a bottom fixing plate (7), the rotary disc upper and lower driving motor (8) is fixed to the bottom of the swing fixing plate (13) through four screws, the rotary shaft of the rotary driving motor (4) is fixed to the bottom of a rotary disc (12), the hexagonal piece lower fixing plate (10) is installed below the hexagonal piece (18), and a fixing seat (11) and the hexagonal piece lower fixing plate (10) are installed together on a supporting rod, the utility model discloses a hexagonal piece, including bracing piece bottom plate (14), hexagonal piece upper fixed plate (16), hexagonal piece rotation axis via hole (17) have evenly been seted up, hexagonal piece rotation axis (19) are installed on hexagonal piece (18), hexagonal piece bottom plate (10) outside is equipped with hexagonal piece bottom plate mounting hole (22).

2. A hexagonal molding machine according to claim 1, characterized in that: the hexagonal plates (18) are formed by staggered stacking from front to back, and the head and tail connection parts of the hexagonal plates (18) are rotationally connected together through a hexagonal plate fixing shaft (20).

3. A hexagonal molding machine according to claim 1, characterized in that: the outer side of the rotating disc (12) is wrapped upwards in a circle and is bowl-shaped.

4. A hexagonal molding machine according to claim 1, characterized in that: an eccentric wheel is installed at the fixed end of the rotating shaft of the swing driving motor (6), and two sides of a swing fixing plate (13) connected with the eccentric wheel are provided with larger through holes.

5. A hexagonal molding machine according to claim 1, characterized in that: the centers of the hexagonal piece rotary driving plate (1), the hexagonal piece upper fixing plate (16) and the hexagonal piece lower fixing plate (10) are respectively provided with a rotary plate upper and lower stroke hole (21).

6. A hexagonal molding machine according to claim 1, characterized in that: the rack (2) is a quarter-circle rack (2) and is in meshing transmission with the gear (3).

7. A hexagonal molding machine according to claim 1, characterized in that: the hexagonal piece rotating shaft (19) is inserted into the chute (9), and the maximum stroke distance is the length of the chute (9).

Technical Field

The invention relates to a forming machine, in particular to a hexagonal forming machine.

Background

The hexagonal forming machine can extrude and process the scattered materials for a period of time to manufacture the scattered materials into a uniform hexagonal block, is used for production demand and processing, and is generally applied to garbage treatment and powder metallurgy industries.

The forming machines on the market at present are of various types and have different characteristics, but the forming machines have the defects of large volume, long forming period, slow material feeding process, long production period and the like.

Disclosure of Invention

The present invention is directed to solving the above problems and to providing a hexagonal molding machine.

The invention realizes the purpose through the following technical scheme: a hexagonal forming machine comprises a hexagonal piece rotating driving plate, a rack, a gear, a rotating driving motor, an eccentric shaft fixing block, a swinging driving motor, a bottom fixing plate, a rotating disc upper and lower driving motor, a chute, a hexagonal piece lower fixing plate, a supporting rod upper fixing seat, a rotating disc, a swinging fixing plate, a supporting rod lower fixing plate, a bottom fixing plate mounting groove, a hexagonal piece upper fixing plate, a hexagonal piece rotating shaft through hole, a hexagonal piece rotating shaft, a hexagonal piece fixing shaft, a rotating disc upper and lower stroke hole and a hexagonal piece lower fixing plate mounting hole; the hexagonal piece rotary driving plate is arranged above a hexagonal piece upper fixing plate, six chutes are arranged on the hexagonal piece, the rack is detachably connected to a hexagonal piece lower fixing plate through screws, the gear is connected to a rotary driving motor rotating shaft through a key, an eccentric wheel on the rotary driving motor rotating shaft is arranged on a swing fixing plate through an eccentric wheel fixing block, bottom fixing plate mounting grooves are arranged on two sides of the bottom fixing plate, the rotary driving motor upper and lower driving motors are fixed at the bottom of the swing fixing plate through four screws, the rotary driving motor rotating shaft and the rotary disc bottom are fixed together, the hexagonal piece lower fixing plate is arranged below the hexagonal piece, an upper supporting rod fixing seat and the hexagonal piece lower fixing plate are arranged together, the supporting rod lower fixing plate and the bottom fixing plate are arranged together, and six hexagonal piece rotating shaft through holes are uniformly formed in the hexagonal piece upper, the hexagonal piece rotating shaft is installed on the hexagonal piece, and a hexagonal piece lower fixing plate installing hole is formed in the outer side of the hexagonal piece lower fixing plate.

Preferably, in order to assemble the hexagonal piece into the hexagonal mechanism capable of rotating and contracting, the hexagonal piece is formed by staggered stacking from front to back, and the head and tail parts of the hexagonal piece are rotationally connected together through a hexagonal piece fixing shaft.

Preferably, in order to prevent the materials from being placed in the rotating disc and leaking, the outer side of the rotating disc is wrapped upwards in a circle and is bowl-shaped.

Preferably, in order to facilitate the left-right swing of the rotating disc, an eccentric wheel is mounted at the fixed end of the rotating shaft of the swing driving motor, and large through holes are formed in two sides of a swing fixing plate connected with the eccentric wheel.

Preferably, in order to facilitate the material to be placed into the rotating disc from the upper part of the hexagonal forming machine, the centers of the hexagonal plate rotating driving plate, the hexagonal plate upper fixing plate and the hexagonal plate lower fixing plate are respectively provided with a rotating disc up-and-down stroke hole.

Preferably, in order to drive the hexagonal piece rotating drive plate to rotate through the rotating drive motor, so that the hexagonal piece is contracted, and the material is molded, the rack is a quarter-circle rack and is in meshing transmission with the gear.

Preferably, in order to facilitate the poking and guiding functions of the hexagonal piece rotating shaft, the hexagonal piece rotating shaft is inserted into the chute, and the maximum stroke distance is the length of the chute.

The invention has the beneficial effects that: the hexagonal forming machine is reasonable in design, hexagonal plates are formed by staggered stacking from front to back, the end-to-end joints of the hexagonal plates are connected together in a rotating mode through a hexagonal plate fixing shaft, the hexagonal plates are the most core mechanism of the whole hexagonal forming machine, sixteen hexagonal plates are connected in an end-to-end rotating mode, materials can be formed when the hexagonal plates are contracted, one circle of the outer side of a rotating disc is upwards wrapped and is in a bowl shape, when the materials are placed into the rotating disc and are not formed, the materials are in bulk, in order to prevent the materials from leaking out of the rotating disc, the rotating disc is specially designed to be in a bowl shape with edges, an eccentric wheel is installed at the fixed end of a rotating shaft of a swing driving motor, large through holes are formed in two sides of a swing fixing plate connected with the eccentric wheel, left and right swing can be achieved due to the effect of the swing driving motor, the through holes penetrating through the support rods at two sides of the swing fixing plate are designed to be larger than the maximum swing stroke of the swing fixing plate, the centers of the hexagonal plate rotating driving plate, the hexagonal plate upper fixing plate and the hexagonal plate lower fixing plate are respectively provided with a rotating disc up-and-down stroke hole, and because the hexagonal forming machine is used for placing materials into the rotating disc from the upper part during working, therefore, the centers of the hexagonal plate rotating driving plate, the hexagonal plate upper fixing plate and the hexagonal plate lower fixing plate are all provided with rotating disk up-and-down stroke holes, so that the materials are put into the rotating disk, the rack is a quarter-circle rack, is in meshing transmission with the gear and drives the motor to rotate through rotation, thereby driving the hexagonal plate rotating drive plate to rotate, causing the hexagonal plate to shrink tightly and forming the material, the hexagonal plate rotating shaft is inserted in the chute, the maximum stroke distance is the length of the chute, so that the rotating shaft of the hexagonal plate can be conveniently stirred and guided.

Drawings

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

FIG. 2 is an exploded view of the hexagonal forming machine of the present invention;

FIG. 3 is a schematic view of a hexagonal plate rotary drive plate of the present invention;

FIG. 4 is a schematic view of a lower fixation plate of a hexagonal plate according to the present invention;

FIG. 5 is a schematic view of a hexagonal piece forming mechanism according to the present invention.

In the figure: 1. hexagonal piece rotary driving plate, 2, a rack, 3, a gear, 4, rotary driving motor, 5, eccentric shaft fixed block, 6, swing driving motor, 7, bottom fixed plate, 8, rotary disk up and down driving motor, 9, chute, 10, hexagonal piece bottom fixing plate, 11, fixing base on the bracing piece, 12, the rotary disk, 13, swing fixed plate, 14, bracing piece bottom fixing plate, 15, bottom fixed plate mounting groove, 16, hexagonal piece upper and lower fixed plate, 17, hexagonal piece rotation axis via hole, 18, hexagonal piece, 19, hexagonal piece rotation axis, 20, hexagonal piece fixed axle, 21, rotary disk up and down stroke hole and 22, hexagonal piece bottom fixing plate mounting hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 ~ 5, a hexagonal forming machine includes a hexagonal plate rotary drive plate 1, a rack 2, a gear 3, a rotary drive motor 4, an eccentric shaft fixing block 5, a swing drive motor 6, a bottom fixing plate 7, a rotary disc up-and-down drive motor 8, an inclined groove 9, a hexagonal plate down-fixing plate 10, a support rod upper fixing base 11, a rotary disc 12, a swing fixing plate 13, a support rod down-fixing plate 14, a bottom fixing plate mounting groove 15, a hexagonal plate upper fixing plate 16, a hexagonal plate rotating shaft via hole 17, a hexagonal plate 18, a hexagonal plate rotating shaft 19, a hexagonal plate fixing shaft 20, a rotary disc up-and-down stroke hole 21, and a hexagonal plate down-fixing plate mounting hole 22, wherein the hexagonal plate rotary drive plate 1 is mounted above the hexagonal plate upper fixing plate 16, the hexagonal plate 18 is provided with six inclined grooves 9, the rack 2 is detachably connected to the hexagonal plate down fixing plate 10 by screws, the gear 3 is connected to the rotary drive motor 4 by a key, the fixed block 5 mounts a swing drive motor 6 on the swing fixing plate 13, the bottom fixing plate 13 is mounted on the bottom fixing plate 10, the hexagonal plate lower fixing plate 18 is mounted with the hexagonal plate 10 by four screws, the rotary disc upper and the hexagonal plate lower fixing plate 10, the rotary disc rotating shaft 14 is mounted with the hexagonal plate lower fixing plate 10, the hexagonal plate lower fixing plate 14, the rotary disc is mounted with the hexagonal plate 10, the rotary disc lower fixing plate 18, the hexagonal plate 10, the hexagonal plate 18 is mounted with the hexagonal plate.

The hexagonal plates 18 are formed by staggered stacking from front to back, the head-to-tail connection parts of the hexagonal plates 18 are connected together in a rotating mode through hexagonal plate fixing shafts 19, the hexagonal plates 18 are the most core mechanism of the whole hexagonal forming machine, sixteen hexagonal plates 18 are connected in a head-to-tail rotating mode, materials can be formed when the hexagonal plates 18 are contracted, the outer side of the rotating disc 12 is wrapped upwards in a circle and is in a bowl shape, when the materials are placed in the rotating disc 12 and are not formed, the materials are in bulk, in order to prevent the materials from leaking out of the rotating disc 12, the rotating disc 12 is specially designed to be in a bowl shape with edge wrapping, an eccentric wheel is installed at the fixed end of a rotating shaft of the swing driving motor 6, large through holes are formed in two sides of a swing fixing plate 13 connected with the eccentric wheel, left-to-right swing can be achieved due to the effect that the swing driving motor 6, through holes penetrating through the supporting rods at two sides of the swing fixing plate 13 are designed to be larger than the maximum swing stroke of the swing fixing plate 13, the centers of the hexagonal plate rotary driving plate 1, the hexagonal plate upper fixing plate 16 and the hexagonal plate lower fixing plate 10 are respectively provided with a rotary disc up-and-down stroke hole 21, when the hexagonal forming machine works, materials are placed into the rotary disc 12 from the upper side, so that rotary disc up-and-down stroke holes 21 are required to be formed in the centers of the hexagonal plate rotary driving plate 0, the hexagonal plate upper fixing plate 16 and the hexagonal plate lower fixing plate 10 so as to place the materials into the rotary disc 12, the rack 2 is a quarter-circle rack 2 and is in meshing transmission with the gear 3, the rotation of the rotary driving motor 4 drives the hexagonal plate rotary driving plate 1 to rotate, the hexagonal plate 18 is contracted, the materials are formed, the hexagonal plate rotary shaft 19 is inserted into the chute 9, and the maximum, in order to facilitate the poking and guiding function of the hexagonal plate rotating shaft 19.

The working principle is as follows: when the hexagonal forming machine is used, after the machine starts to operate, the rotating disc 12 is driven by the driving mechanism to ascend to the top, materials are placed, the rotating disc 12 rotates left and right in a reciprocating mode and descends, after the materials reach the working position, the rotating disc 12 changes from large-angle reciprocating motion to high-frequency left and right small-amplitude swinging, the hexagonal piece rotating driving plate 1 rotates under the driving of the driving mechanism, the inclined grooves 9 in the hexagonal piece rotating driving plate drive the hexagonal pieces 18 to perform intermittent reciprocating opening and closing actions, material arrangement is performed, and the materials form a hexagonal shape after one-end-time action.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.