CN213108101U - Splicing building block type extruder structure - Google Patents
Splicing building block type extruder structure Download PDFInfo
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- CN213108101U CN213108101U CN202021705407.1U CN202021705407U CN213108101U CN 213108101 U CN213108101 U CN 213108101U CN 202021705407 U CN202021705407 U CN 202021705407U CN 213108101 U CN213108101 U CN 213108101U
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- supporting seat
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Abstract
The utility model provides a concatenation cordwood system extruder structure, be equipped with the bottom plate on the base, be equipped with a plurality of supporting seats on the bottom plate, motor and drive box, a supporting seat, motor and drive box pass through positioner and establish on the bottom plate, the last guide structure who makes things convenient for the card to go into of positioner, supporting seat and the two organism sliding connection of awl, awl two organism end and drive box output are connected, install on the bottom plate through positioner, positioner is earlier with the supporting seat, motor and drive box location back, tight screw on again, make the supporting seat, motor and drive box are fixed, and be equipped with the guide structure that makes things convenient for the card to go into on positioner, be the supporting seat, the quick card of motor and drive box physical stamina goes into inside positioner, and concatenation cordwood system structure has also made things convenient for the equipment toper double screw.
Description
Technical Field
The utility model belongs to the technical field of the two extruders of awl and specifically relates to a concatenation cordwood system extruder structure is related to.
Background
The structure characteristics of the conical double-screw extruder determine that the conical double-screw extruder not only has a closed screw groove cavity, forced conveying of materials, narrow distribution of material retention time, good self-cleaning property, small diameter of a screw at a discharge section, small circumferential speed, low generated shearing, small frictional heat and low risk of heat damage; the volume of the screw groove is gradually reduced along the extrusion direction, and the material is gradually compressed, so that the screw groove is filled with the material more quickly, and the continuous and gentle plasticization of the material is ensured.
At present, the toper double screw extruder all relies on each part of screw concatenation generally in production, but some large-scale parts need the crane, hangs the mounted position, and the adjustment position that technical staff need not stop makes the screw hole of large-scale part and mounted position's screw hole to it, and the position of adjustment part wastes time and energy, and splices inefficiency, also needs a plurality of workers to assemble toper double screw extruder, extravagant manpower, and inefficiency, influences the efficiency of production.
SUMMERY OF THE UTILITY MODEL
The utility model discloses a main aim at provides a concatenation cordwood system extruder structure solves the low problem of the large-scale part packaging efficiency of double screw extruder.
In order to solve the technical problem, the utility model discloses the technical scheme who adopts is: a spliced building block type extruder structure is characterized in that a base is arranged on a base, a plurality of supporting seats, a motor and a driving box body are arranged on the base, the supporting seats, the motor and the driving box body are arranged on the base through positioning devices, guide structures convenient to clamp in are arranged on the positioning devices, the supporting seats are connected with two cone bodies in a sliding mode, and the end portions of the two cone bodies are connected with the output end of the driving box body.
In the preferred scheme, a plurality of sliding blocks are arranged below the two conical bodies, a sliding seat is arranged on the supporting seat, and the two conical bodies are connected with the sliding seat in a sliding mode through the sliding blocks.
In the preferred scheme, the supporting seat passes through the locating plate to be connected with the bottom plate, is equipped with the fixed slot on the locating plate, and the supporting seat lower extreme sets up inside the fixed slot.
In the preferred scheme, the circumference of the opening of the fixing groove is provided with a first guide inclined plane.
In the preferred scheme, the locating plate both ends are equipped with outer fixed plate, and outer fixed plate one end is connected with the locating plate, and the other end is connected with the supporting seat.
In the preferred scheme, the locating plate middle part is equipped with the inner fixed plate, and inner fixed plate both ends and supporting seat landing leg inner wall connection, inner fixed plate middle part and locating plate are connected.
In the preferred scheme, a motor positioning plate is arranged on the bottom plate, and the motor is clamped in a groove body of the motor positioning plate.
In the preferred scheme, the bottom plate tip is equipped with the back locating plate, and the drive box is established on the back locating plate.
In the preferred scheme, a plurality of second direction inclined planes are arranged at the opening of the upper end surface of the rear positioning plate.
In the preferred scheme, one side of the rear positioning plate is provided with an opening structure, and a transverse inclined plane is arranged at the opening position.
The utility model provides a concatenation cordwood system extruder structure, with a supporting seat, motor and drive box pass through positioner and install on the bottom plate, positioner is earlier with the supporting seat, after motor and drive box location, tight screw on again, make the supporting seat, motor and drive box are fixed, and be equipped with the guide structure that makes things convenient for the card to go into on positioner, be the supporting seat, the quick card of motor and drive box physical stamina is gone into inside positioner, and concatenation cordwood system structure has also made things convenient for the assembly personnel to assemble toper double screw extruder, moreover, the steam generator is simple in structure, high durability and convenient use, and is suitable for being generalized to use.
Drawings
The invention will be further explained with reference to the following figures and examples:
FIG. 1 is a general block diagram of the present invention;
FIG. 2 is a view of the mounting structure of the supporting base, the motor and the driving box of the present invention;
FIG. 3 is a view of the supporting seat installation structure of the present invention;
FIG. 4 is a disassembled structure view of the support base of the present invention;
FIG. 5 is a sectional view of the supporting seat of the present invention;
FIG. 6 is a disassembled structure view of the motor of the present invention;
FIG. 7 is a disassembled structure view of the driving box of the present invention;
FIG. 8 is a structural view of the rear positioning plate of the present invention;
in the figure: a drive case 1; a conical double-machine body 2; a slide base 3; a slider 4; a support base 5; a positioning plate 6; a fixing groove 601; a first guide ramp 602; a base 7; a bottom plate 8; a motor 9; a motor positioning plate 10; an inner fixing plate 11; an outer fixing plate 12; a rear positioning plate 13; a second guide slope 1301; a lateral bevel 1302.
Detailed Description
As shown in figures 1-8, a concatenation cordwood system extruder structure is equipped with bottom plate 8 on the base 7, is equipped with a plurality of supporting seats 5, motor 9 and drive box 1 on the bottom plate 8, and supporting seat 5, motor 9 and drive box 1 pass through positioner and establish on bottom plate 8, and the last guide structure who makes things convenient for the card to go into that is equipped with of positioner, and supporting seat 5 and the two 2 sliding connection of machine bodies of awl, the two 2 tip of machine body of awl are connected with drive box 1 output. Supporting seat 5, motor 9 and drive box 1 pass through positioner and install on bottom plate 8, positioner is earlier with supporting seat 5, motor 9 and the 1 location back of drive box, tight screw in the time, it is fixed to make supporting seat 5, motor 9 and drive box 1, and the last guide structure who makes things convenient for the card to go into that is equipped with of positioner, be inside supporting seat 5, the card that motor 9 and drive box 1 can be quick goes into positioner, and concatenation cordwood system structure has also made things convenient for the equipment toper double screw extruder of assembly personnel.
The supporting seat 5, the motor 9, the driving box body 1, the base 7 and the bottom plate 8 are of a cordwood structure like a plurality of scattered parts, and the assembly efficiency is high by assembling the conical double-screw extruder.
In the preferred scheme, the two organism 2 below of awl are equipped with a plurality of sliding blocks 4, are equipped with sliding seat 3 on the supporting seat 5, and the two organism 2 of awl pass through sliding block 4 and 3 sliding connection of sliding seat. The dual-cone machine body 2 is convenient to disassemble, so that the dual-cone machine body 2 slides out from the driving position of the driving box body 1.
In the preferred scheme, supporting seat 5 passes through locating plate 6 and is connected with bottom plate 8, is equipped with fixed slot 601 on the locating plate 6, and the setting of supporting seat 5 lower extreme is inside fixed slot 601. The fixing groove 601 is used for fixing the support base 5.
In a preferred embodiment, a first guiding inclined plane 602 is disposed around the opening of the fixing groove 601. The first guiding inclined plane 602 forms an open horn structure, which facilitates the clamping of the supporting seat 5 into the positioning plate 6.
In the preferred scheme, locating plate 6 both ends are equipped with outer fixed plate 12, and outer fixed plate 12 one end is connected with locating plate 6, and the other end is connected with supporting seat 5. The outer fixing plate 12 is used for fixing two sides of the supporting seat 5.
In the preferred scheme, the middle part of locating plate 6 is equipped with inner fixed plate 11, and inner fixed plate 11 both ends and 5 landing leg inner wall connections of supporting seat, inner fixed plate 11 middle part are connected with locating plate 6. The inner fixing plate 11 is used for fixing the inner position of the supporting seat 5.
In the preferred scheme, a motor positioning plate 10 is arranged on the bottom plate 8, and the motor 9 is clamped in a groove body of the motor positioning plate 10. The motor 9 is positioned on the bottom plate 8 through the motor positioning plate 10, so that the motor 9 is more convenient to mount.
In the preferred scheme, bottom plate 8 tip is equipped with back locating plate 13, and drive box 1 is established on back locating plate 13. The rear positioning plate 13 is used for positioning the driving case 1.
In a preferred embodiment, a plurality of second guiding inclined planes 1301 are arranged at an opening of the upper end surface of the rear positioning plate 13. The second guide slope 1301 facilitates the driving of the cassette 1 to be snapped in from top to bottom.
In a preferred embodiment, an opening structure is disposed on one side of the rear positioning plate 13, and a transverse inclined plane 1302 is disposed at the opening position. The lateral ramp 1302 facilitates the driving of the cassette 1 from left to right.
The above-mentioned embodiments are merely preferred embodiments of the present invention, and should not be considered as limitations of the present invention, and the protection scope of the present invention should be defined by the technical solutions described in the claims, and includes equivalent alternatives of technical features in the technical solutions described in the claims. Namely, equivalent alterations and modifications within the scope of the invention are also within the scope of the invention.
Claims (10)
1. The utility model provides a concatenation cordwood system extruder structure, characterized by: be equipped with bottom plate (8) on base (7), be equipped with a plurality of supporting seats (5), motor (9) and drive box (1) on bottom plate (8), establish on bottom plate (8) through positioner supporting seat (5), motor (9) and drive box (1), the last guide structure who makes things convenient for the card to go into that is equipped with of positioner, supporting seat (5) and two organism (2) sliding connection of awl, the two organism (2) tip of awl are connected with drive box (1) output.
2. The splicing block type extruder structure as claimed in claim 1, wherein: a plurality of sliding blocks (4) are arranged below the two cone bodies (2), sliding seats (3) are arranged on the supporting seat (5), and the two cone bodies (2) are connected with the sliding seats (3) in a sliding mode through the sliding blocks (4).
3. The splicing block type extruder structure as claimed in claim 1, wherein: the supporting seat (5) is connected with the bottom plate (8) through the positioning plate (6), the positioning plate (6) is provided with a fixing groove (601), and the lower end of the supporting seat (5) is arranged inside the fixing groove (601).
4. The splicing block type extruder structure as claimed in claim 3, wherein: a first guide inclined plane (602) is arranged on the periphery of the opening of the fixing groove (601).
5. The splicing block type extruder structure as claimed in claim 3, wherein: two ends of the positioning plate (6) are provided with outer fixing plates (12), one end of each outer fixing plate (12) is connected with the positioning plate (6), and the other end of each outer fixing plate is connected with the supporting seat (5).
6. The splicing block type extruder structure as claimed in claim 3, wherein: an inner fixing plate (11) is arranged in the middle of the positioning plate (6), two ends of the inner fixing plate (11) are connected with the inner walls of the supporting legs of the supporting seat (5), and the middle of the inner fixing plate (11) is connected with the positioning plate (6).
7. The splicing block type extruder structure as claimed in claim 1, wherein: a motor positioning plate (10) is arranged on the bottom plate (8), and the motor (9) is clamped in a groove body of the motor positioning plate (10).
8. The splicing block type extruder structure as claimed in claim 1, wherein: the end part of the bottom plate (8) is provided with a rear positioning plate (13), and the driving box body (1) is arranged on the rear positioning plate (13).
9. The building block type extruder structure of claim 8, wherein: a plurality of second guide inclined planes (1301) are arranged at an opening on the upper end face of the rear positioning plate (13).
10. The building block type extruder structure of claim 8, wherein: an opening structure is arranged on one side of the rear positioning plate (13), and a transverse inclined plane (1302) is arranged at the opening position.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202021705407.1U CN213108101U (en) | 2020-08-17 | 2020-08-17 | Splicing building block type extruder structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202021705407.1U CN213108101U (en) | 2020-08-17 | 2020-08-17 | Splicing building block type extruder structure |
Publications (1)
Publication Number | Publication Date |
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CN213108101U true CN213108101U (en) | 2021-05-04 |
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Family Applications (1)
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CN202021705407.1U Active CN213108101U (en) | 2020-08-17 | 2020-08-17 | Splicing building block type extruder structure |
Country Status (1)
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CN (1) | CN213108101U (en) |
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2020
- 2020-08-17 CN CN202021705407.1U patent/CN213108101U/en active Active
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