CN110733105B - Pile mud production is with piling mud cutting device - Google Patents

Abstract

The invention discloses a stacked mud cutting device for stacked mud production, which comprises a first hollow shell and a second hollow shell. According to the invention, the cutting angle can be adjusted according to kinematics, so that the device can effectively cut piled mud in a moving state, the tangent plane of the end part of the cut piled mud is relatively flat and the verticality is high, thereby improving the quality of the finished product of the piled mud, in addition, the device can realize repeated and rapid cutting work by utilizing an electromagnetic principle and a magnetic pole principle, and the efficiency is improved.

Description

Pile mud production is with piling mud cutting device

Technical Field

The invention relates to the technical field of piled mud production, in particular to a piled mud cutting device for the piled mud production.

Background

At present, when piling mud production, need cut pile mud, convenient storage, but current cutting device has great limitation to the cutting under the motion state, has great defect.

Disclosure of Invention

The invention aims to provide a piled mud cutting device for producing piled mud so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a piled mud cutting device for producing piled mud comprises a first hollow shell and a second hollow shell, wherein an inserting shaft is respectively installed at two ends of the side surface of the first hollow shell, the inserting shaft positioned at the bottom and the inserting shaft positioned at the top are respectively installed inside one end of a transverse connecting rod and one end of a reverse threaded structure rotary distance adjusting mechanism through main bearings, the other inserting shaft is installed at the side surface of the other end of the transverse connecting rod, the inserting shaft is installed inside the other end of the reverse threaded structure rotary distance adjusting mechanism, component installation structures of an integrated structure are respectively arranged at two ends of the first hollow shell and the second hollow shell, an iron core installation space and a coil installation space are arranged inside the component installation structures, an iron core and a coil are respectively installed inside the iron core installation space and the coil installation space, and the coil is sleeved in the middle of the iron core, the part mounting structure is characterized in that a through hole for communicating a coil with an external space is formed in the part mounting structure, a wire for connecting a coil power input end is mounted in the through hole, main part moving spaces are formed in the centers of the inner parts of the first hollow shell and the second hollow shell, line body moving spaces are formed in opposite side faces of the first hollow shell and the second hollow shell, permanent magnet embedded part moving mechanisms are mounted in the main part moving spaces, a cutting line penetrating the line body moving spaces is mounted between the two permanent magnet embedded part moving mechanisms, and the first hollow shell and the second hollow shell are connected through two spiral spring compression abutting telescopic part longitudinal limiting connecting mechanisms.

Further, the longitudinal spacing connection mechanism of the coil spring compression abutting telescopic component comprises a first connection plate for the longitudinal spacing connection mechanism of the coil spring compression abutting telescopic component, a first bolt hole for the longitudinal spacing connection mechanism of the coil spring compression abutting telescopic component, a hollow shell for the longitudinal spacing connection mechanism of the coil spring compression abutting telescopic component, a hollow structure for the longitudinal spacing connection mechanism of the coil spring compression abutting telescopic component, a coil spring for the longitudinal spacing connection mechanism of the coil spring compression abutting telescopic component, a movable plate for the longitudinal spacing connection mechanism of the coil spring compression abutting telescopic component, a push rod for the longitudinal spacing connection mechanism of the coil spring compression abutting telescopic component, a second connection plate for the longitudinal spacing connection mechanism of the coil spring compression abutting telescopic component and a second bolt hole for the longitudinal spacing connection mechanism of the coil spring compression abutting telescopic component, the first connecting plate for the telescopic component longitudinal limiting connecting mechanism for the helical spring compression conflict is internally provided with a plurality of first bolt holes for the telescopic component longitudinal limiting connecting mechanism for the helical spring compression conflict, the surface of the first connecting plate for the telescopic component longitudinal limiting connecting mechanism for the helical spring compression conflict is provided with an integrated hollow shell for the telescopic component longitudinal limiting connecting mechanism for the helical spring compression conflict, the hollow structure for the telescopic component longitudinal limiting connecting mechanism for the helical spring compression conflict is arranged at the center inside the hollow shell for the telescopic component longitudinal limiting connecting mechanism for the helical spring compression conflict, and the helical spring for the telescopic component longitudinal limiting connecting mechanism for the helical spring compression conflict in a compression state is arranged inside the hollow structure for the telescopic component longitudinal limiting connecting mechanism for the helical spring compression conflict, the utility model provides a telescopic part of conflict is vertically spacing for coupling mechanism to coil spring compression, a telescopic part of conflict is vertically spacing for coupling mechanism movable plate is installed at coil spring top to coil spring compression telescopic part of conflict for vertical spacing coupling mechanism for coupling mechanism movable plate, a coil spring compression telescopic part of conflict is vertical for spacing coupling mechanism push rod is installed at surface center for the telescopic part of conflict for the coil spring compression movable plate for the vertical spacing coupling mechanism of conflict, the body of rod of the telescopic part of conflict is run through the hollow shell top center for the telescopic part of conflict of coil spring compression telescopic part of conflict, just coil spring compression is contradicted telescopic part of conflict and is installed a coil spring compression second connecting plate for the vertical spacing coupling mechanism of telescopic part of conflict on push rod top for the telescopic part of conflict of spiral spring compression, the inside of the telescopic part of conflict for the vertical spacing coupling mechanism of coil spring compression second connecting plate is provided with a plurality of coil spring compression telescopic conflict for the telescopic part of conflict And the second bolt hole is used for a longitudinal limiting and connecting mechanism of the part.

Further, the first connecting plate for the longitudinal limiting and connecting mechanism of the coil spring compression abutting telescopic member is installed on the side of the member installation structure in the first hollow housing by inserting a bolt inside the first bolt hole for the longitudinal limiting and connecting mechanism of the coil spring compression abutting telescopic member.

Further, the coil spring compresses and abuts against the telescopic component longitudinal limiting and connecting mechanism, and the second connecting plate is arranged on the side face of the component mounting structure in the second hollow shell.

Further, the reverse thread structure rotary distance adjusting mechanism comprises a thread sleeve for the reverse thread structure rotary distance adjusting mechanism, a thread section for the reverse thread structure rotary distance adjusting mechanism, a thread structure for the reverse thread structure rotary distance adjusting mechanism, a bottom threaded rod for the reverse thread structure rotary distance adjusting mechanism, a top threaded rod for the reverse thread structure rotary distance adjusting mechanism, the device comprises a limiting hole for a reverse thread structure rotary distance adjusting mechanism, a limiting rod for the reverse thread structure rotary distance adjusting mechanism, a first mounting block structure for the reverse thread structure rotary distance adjusting mechanism, a second mounting block structure for the reverse thread structure rotary distance adjusting mechanism, a first mounting hole structure for the reverse thread structure rotary distance adjusting mechanism and a second mounting hole structure for the reverse thread structure rotary distance adjusting mechanism; reverse thread structure rotation type is provided with the reverse thread structure rotation type for distance adjustment mechanism apart from the screw sleeve both ends face for adjustment mechanism at the inside center of screw sleeve for reverse thread structure rotation type distance adjustment mechanism between the screw thread for adjustment mechanism, reverse thread structure rotation type is located apart from the screw sleeve for adjustment mechanism the inner wall between reverse thread structure rotation type for distance adjustment mechanism screw thread interval is provided with reverse thread structure rotation type for distance adjustment mechanism screw thread structure, reverse thread structure rotation type is connected with reverse thread structure rotation type for distance adjustment mechanism bottom threaded rod and reverse thread structure rotation type for distance adjustment mechanism threaded rod through reverse thread structure rotation type for distance adjustment mechanism screw thread interval's bottom and top respectively, reverse thread structure rotation type for distance adjustment mechanism bottom threaded rod and reverse thread structure rotation type for distance adjustment mechanism threaded rod With the top threaded rod inside all be provided with reverse thread structure rotation type spacing hole for apart from adjustment mechanism, two reverse thread structure rotation type spacing hole for apart from adjustment mechanism inserts a reverse thread structure rotation type spacing rod for apart from adjustment mechanism with the inside of spacing hole, reverse thread structure rotation type is installed respectively with bottom threaded rod for apart from adjustment mechanism and reverse thread structure rotation type apart from adjustment mechanism with the other both ends of top threaded rod and is used reverse thread structure rotation type first installation block structure for apart from adjustment mechanism and reverse thread structure rotation type second installation block structure for apart from adjustment mechanism, reverse thread structure rotation type is provided with reverse thread structure rotation type apart from adjustment mechanism with the inside of first installation block structure and reverse thread structure rotation type apart from adjustment mechanism with the second installation block structure for apart from adjustment mechanism and is provided with reverse thread structure rotation type apart from adjustment mechanism with first installation hole structure and reverse thread structure rotation type apart from adjustment mechanism with the second installation hole structure .

Further, reverse thread structure rotation type is apart from screw-thread structure for adjustment mechanism is including setting up the internal thread structure at reverse thread structure rotation type distance for adjustment mechanism screw-thread sleeve inner wall and setting up the external screw thread structure on the reverse thread structure rotation type distance for adjustment mechanism bottom threaded rod and reverse thread structure rotation type distance for adjustment mechanism top threaded rod body of rod, and is located reverse thread structure rotation type is apart from the screw-thread direction of the screw-thread structure on the adjustment mechanism bottom threaded rod and the reverse thread structure rotation type distance for adjustment mechanism top threaded rod body of rod opposite.

Further, the structural appearance of the cross section of the limiting hole for the reverse thread structure rotation type distance adjusting mechanism and the structural appearance of the cross section of the limiting rod for the reverse thread structure rotation type distance adjusting mechanism are both triangular structures, and the insertion shaft located at the end part of the transverse connecting rod and the insertion shaft located at the top part of the first hollow shell are respectively installed inside the first installation hole structure for the reverse thread structure rotation type distance adjusting mechanism and the second installation hole structure for the reverse thread structure rotation type distance adjusting mechanism.

Further, the permanent magnet embedded component moving mechanism comprises a cylindrical block for the permanent magnet embedded component moving mechanism, an inclined plane guide structure for the permanent magnet embedded component moving mechanism, a permanent magnet installation groove structure for the permanent magnet embedded component moving mechanism, a permanent magnet for the permanent magnet embedded component moving mechanism and a cutting line embedding hole for the permanent magnet embedded component moving mechanism; the two ends of the cylindrical block for the permanent magnet embedded part moving mechanism are provided with inclined plane guide structures for the permanent magnet embedded part moving mechanism, the two ends of the cylindrical block for the permanent magnet embedded part moving mechanism are respectively provided with a permanent magnet installation groove structure for the permanent magnet embedded part moving mechanism, permanent magnets for the permanent magnet embedded part moving mechanism are respectively installed in the permanent magnet installation groove structures for the permanent magnet embedded part moving mechanism, and the middle part of one side of the cylindrical block for the permanent magnet embedded part moving mechanism is provided with a cutting line embedding hole for the embedded permanent magnet part moving mechanism.

Further, one end of the cutting line is embedded in the cutting line embedding hole for the permanent magnet embedded part moving mechanism, and the cylindrical block for the permanent magnet embedded part moving mechanism is placed in the moving space of the main part.

Furthermore, the permanent magnet embedded type component moving mechanism is of a plate body structure made of neodymium iron boron materials.

Compared with the prior art, the invention has the beneficial effects that: the invention can adjust the cutting angle according to the kinematics, thereby leading the device to effectively cut the piled mud in the motion state, leading the cut surface of the end part of the cut piled mud to be more smooth and have high verticality, thereby improving the quality of the finished product of the piled mud, and leading the device to realize repeated and rapid cutting work by utilizing the electromagnetic principle and the magnetic pole principle, improving the efficiency, and leading the device to be provided with a spiral spring to compress and touch a telescopic part longitudinal limiting connecting mechanism, thereby being capable of longitudinally limiting two parts without influencing the transverse movement of the two parts, thereby realizing the cutting of the piled mud with different transverse sizes, in addition, the device is provided with a reverse thread structure rotary distance adjusting mechanism, utilizing the connecting rod principle, realizing the integral angle adjusting function of the device by changing the distance of a movable connecting rod, thereby realizing the cutting angle adjusting function, in addition, the device is provided with a permanent magnet embedded component moving mechanism, can realize movement under the action of field intensity, and simultaneously fixes the cutting line.

Drawings

FIG. 1 is a schematic view of a full-section structure of a stacked mud cutting device for manufacturing stacked mud according to the present invention;

FIG. 2 is a schematic structural view of a longitudinal limiting and connecting mechanism of a coil spring compressed and abutted telescopic component in the stacked mud cutting device for stacked mud production according to the present invention;

FIG. 3 is a schematic structural view of a rotary distance adjusting mechanism with a reverse thread structure in the stacked sludge cutting device for stacked sludge production according to the present invention;

FIG. 4 is a schematic structural view of a permanent magnet embedded part moving mechanism in the stacked mud cutting device for stacked mud production according to the present invention;

in the figure: 1, a first hollow housing, 2, a second hollow housing, 3, a component mounting structure, 4, a longitudinal spacing connection mechanism of a telescopic component, 41, a first connection plate for the longitudinal spacing connection mechanism of the telescopic component, 42, a first bolt hole for the longitudinal spacing connection mechanism of the telescopic component, 43, a hollow housing for the longitudinal spacing connection mechanism of the telescopic component, 44, a hollow structure for the longitudinal spacing connection mechanism of the telescopic component, 45, a coil spring for the longitudinal spacing connection mechanism of the telescopic component, 46, a movable plate for the longitudinal spacing connection mechanism of the telescopic component, 47, a push rod for the longitudinal spacing connection mechanism of the telescopic component, 48, a second connection plate for the longitudinal spacing connection mechanism of the telescopic component, 49, a second bolt hole for a longitudinal spacing connection mechanism of a coil spring compression-abutting telescopic part, 5, an insertion shaft, 6, a transverse connecting rod, 7, a main bearing, 8, a reverse thread structure rotary distance adjustment mechanism, 81, a thread sleeve for a reverse thread structure rotary distance adjustment mechanism, 82, a thread section for a reverse thread structure rotary distance adjustment mechanism, 83, a thread structure for a reverse thread structure rotary distance adjustment mechanism, 84, a bottom threaded rod for a reverse thread structure rotary distance adjustment mechanism, 85, a top threaded rod for a reverse thread structure rotary distance adjustment mechanism, 86, a spacing hole for a reverse thread structure rotary distance adjustment mechanism, 87, a spacing rod for a reverse thread structure rotary distance adjustment mechanism, 88, a first mounting block structure for a reverse thread structure rotary distance adjustment mechanism, 89, a second mounting block structure for a reverse thread structure rotary distance adjustment mechanism, 810, a first mounting hole structure for a reverse-thread-structure rotary distance adjustment mechanism, 811, a second mounting hole structure for a reverse-thread-structure rotary distance adjustment mechanism, 9, a main part movement space, 10, a wire body movement space, 11, a coil mounting space, 12, an iron core mounting space, 13, a wire, 14, an iron core, 15, a coil, 16, an embedded permanent magnet part movement mechanism, 161, a cylindrical block for an embedded permanent magnet part movement mechanism, 162, an inclined-surface guide structure for an embedded permanent magnet part movement mechanism, 163, a permanent magnet mounting groove structure for an embedded permanent magnet part movement mechanism, 164, a permanent magnet for an embedded permanent magnet part movement mechanism, 165, an embedded permanent magnet part movement mechanism hole, 17, a cutting line.

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, an embodiment of the present invention: the double-end-face-mounted type magnetic resonance imaging device comprises a first hollow shell 1 and a second hollow shell 2, wherein two ends of the side face of the first hollow shell 1 are respectively provided with an insertion shaft 5, the insertion shafts 5 positioned at the bottom and the top are respectively arranged in one end of a transverse connecting rod 6 and one end of a reverse thread structure rotary distance adjusting mechanism 8 through main bearings 7, the other end of the transverse connecting rod 6 is laterally provided with another insertion shaft 5, the insertion shafts 5 are arranged in the other end of the reverse thread structure rotary distance adjusting mechanism 8, two ends of the first hollow shell 1 and the second hollow shell 2 are respectively provided with a component mounting structure 3 of an integrated structure, an iron core mounting space 12 and a coil mounting space 11 are arranged in the component mounting structure 3, an iron core 14 and a coil 15 are respectively arranged in the iron core mounting space 12 and the coil mounting space 11, the coil 15 is sleeved in the middle of the iron core 14, a through hole for communicating the coil 15 with an external space is formed in the part installation structure 3, a lead 13 for connecting a power input end of the coil 15 is installed in the through hole, main part moving spaces 9 are formed in the centers of the inside of the first hollow shell 1 and the inside of the second hollow shell 2, line body moving spaces 10 are formed in opposite side faces of the first hollow shell 1 and the second hollow shell 2, permanent magnet embedded part moving mechanisms 16 are installed in the two main part moving spaces 9, a cutting line 17 penetrating the line body moving spaces 10 is installed between the two permanent magnet embedded part moving mechanisms 16, and the first hollow shell 1 and the second hollow shell 2 are connected through the telescopic part longitudinal limiting connection mechanism 4 which is compressed by two spiral springs and abutted against the coil.

Referring to fig. 2, the longitudinal position-limiting connection mechanism 4 for the coil spring compression abutting telescopic member includes a first connection plate 41 for the longitudinal position-limiting connection mechanism for the coil spring compression abutting telescopic member, a first bolt hole 42 for the longitudinal position-limiting connection mechanism for the coil spring compression abutting telescopic member, a hollow housing 43 for the longitudinal position-limiting connection mechanism for the coil spring compression abutting telescopic member, a hollow structure 44 for the longitudinal position-limiting connection mechanism for the coil spring compression abutting telescopic member, a coil spring 45 for the longitudinal position-limiting connection mechanism for the coil spring compression abutting telescopic member, a movable plate 46 for the longitudinal position-limiting connection mechanism for the coil spring compression abutting telescopic member, a push rod 47 for the longitudinal position-limiting connection mechanism for the coil spring compression abutting telescopic member, a second connection plate 41 for the longitudinal position-limiting connection mechanism for the coil spring compression abutting telescopic member, and a second bolt hole 49 for the longitudinal position-limiting connection mechanism for the coil spring compression abutting telescopic member, a plurality of first bolt holes 42 for the telescopic component longitudinal spacing connecting mechanism for helical spring compression conflict are arranged inside the first connecting plate 41 for the telescopic component longitudinal spacing connecting mechanism for helical spring compression conflict, the surface of the first connecting plate 41 for the telescopic component longitudinal spacing connecting mechanism for helical spring compression conflict is provided with an integrated hollow shell 43 for the telescopic component longitudinal spacing connecting mechanism for helical spring compression conflict, the hollow structure 44 for the telescopic component longitudinal spacing connecting mechanism for helical spring compression conflict is arranged at the center inside the hollow shell 43 for the telescopic component longitudinal spacing connecting mechanism for helical spring compression conflict, the helical spring 45 for the telescopic component longitudinal spacing connecting mechanism for helical spring compression conflict is arranged in the hollow structure 44 in a compression state, spiral spring compression conflicts the vertical spacing connecting mechanism of telescopic part and uses movable plate 46 at 45 top installation spiral spring compression of telescopic part for connecting mechanism of spiral spring compression conflict, spiral spring compression conflicts the vertical spacing connecting mechanism of telescopic part and uses push rod 47 at movable plate 46 upper surface center installation spiral spring compression conflict telescopic part for telescopic part vertical spacing connecting mechanism of telescopic part for connecting mechanism of spiral spring compression conflict, the body of rod of push rod 47 for telescopic part vertical spacing connecting mechanism of spiral spring compression conflict runs through the vertical spacing connecting mechanism of telescopic part and uses hollow shell 43 top center, just spiral spring compression conflicts the vertical spacing connecting mechanism of telescopic part and uses second connecting plate 48 at push rod 47 top installation spiral spring compression conflict telescopic part for telescopic part of spiral spring compression conflict, the inside of the vertical spacing connecting mechanism of telescopic part of spiral spring compression conflict is provided with a plurality of spiral connecting plates for second connecting plate 48 The spring compresses and abuts against the second bolt hole 49 for the longitudinal limiting and connecting mechanism of the telescopic part; the first connecting plate 41 for the longitudinal limiting and connecting mechanism of the coil spring compression abutting telescopic member is installed on the side of the member installation structure 3 in the first hollow housing 1 by a bolt inserted into the first bolt hole 42 for the longitudinal limiting and connecting mechanism of the coil spring compression abutting telescopic member; the coil spring compresses against the telescopic member longitudinal position limiting connection mechanism and is mounted on the side of the member mounting structure 3 in the second hollow housing 2 by means of the second connection plate 48.

Referring to fig. 3, the reverse-thread-structure rotary distance adjustment mechanism 8 includes a reverse-thread-structure rotary distance adjustment mechanism threaded sleeve 81, a reverse-thread-structure rotary distance adjustment mechanism threaded section 82, a reverse-thread-structure rotary distance adjustment mechanism threaded structure 83, a reverse-thread-structure rotary distance adjustment mechanism bottom threaded rod 84, a reverse-thread-structure rotary distance adjustment mechanism top threaded rod 85, a limiting hole 86 for a reverse thread structure rotary distance adjusting mechanism, a limiting rod 87 for a reverse thread structure rotary distance adjusting mechanism, a first mounting block structure 88 for a reverse thread structure rotary distance adjusting mechanism, a second mounting block structure 89 for a reverse thread structure rotary distance adjusting mechanism, a first mounting hole structure 810 for a reverse thread structure rotary distance adjusting mechanism, and a second mounting hole structure 811 for a reverse thread structure rotary distance adjusting mechanism; the center inside the reverse thread structure rotation type distance adjustment mechanism screw sleeve 81 is provided with a reverse thread structure rotation type distance adjustment mechanism screw section 82 communicating both end faces of the reverse thread structure rotation type distance adjustment mechanism screw sleeve 81, the reverse thread structure rotation type distance adjustment mechanism screw sleeve 81 is provided with a reverse thread structure rotation type distance adjustment mechanism screw structure 83 on the inner wall of the reverse thread structure rotation type distance adjustment mechanism screw section 82, the bottom and the top of the reverse thread structure rotation type distance adjustment mechanism screw section 82 are respectively connected with a reverse thread structure rotation type distance adjustment mechanism bottom screw rod 84 and a reverse thread structure rotation type distance adjustment mechanism top screw rod 85 through the reverse thread structure rotation type distance adjustment mechanism screw structure 83, reverse thread structure rotation type is apart from bottom threaded rod 84 for adjustment mechanism and reverse thread structure rotation type is apart from top threaded rod 85 for adjustment mechanism and all is provided with reverse thread structure rotation type spacing hole 86 for adjustment mechanism, two inside of reverse thread structure rotation type spacing hole 86 for adjustment mechanism inserts a reverse thread structure rotation type spacing rod 87 for adjustment mechanism, reverse thread structure rotation type is apart from bottom threaded rod 84 for adjustment mechanism and reverse thread structure rotation type first installation block structure 88 for adjustment mechanism and reverse thread structure rotation type second installation block structure 89 for adjustment mechanism are installed respectively to the other both ends of top threaded rod 85 for adjustment mechanism to reverse thread structure rotation type distance adjustment mechanism, reverse thread structure rotation type is apart from adjustment mechanism with first installation block structure 88 and reverse thread structure rotation type second installation block structure 89 for adjustment mechanism's inside A first mounting hole structure 810 for a reverse thread structure rotary distance adjusting mechanism and a second mounting hole structure 811 for a reverse thread structure rotary distance adjusting mechanism are provided; the thread structure 83 for the reverse thread structure rotary distance adjusting mechanism includes an internal thread structure provided on the inner wall of the thread sleeve 81 for the reverse thread structure rotary distance adjusting mechanism and an external thread structure provided on the rod body of the bottom threaded rod 84 for the reverse thread structure rotary distance adjusting mechanism and the top threaded rod 85 for the reverse thread structure rotary distance adjusting mechanism, and the thread directions of the thread structures on the rod body of the bottom threaded rod 84 for the reverse thread structure rotary distance adjusting mechanism and the top threaded rod 85 for the reverse thread structure rotary distance adjusting mechanism are opposite; the structure appearance of the cross section of the limiting hole 86 for the reverse thread structure rotary distance adjusting mechanism and the structure appearance of the cross section of the limiting rod 87 for the reverse thread structure rotary distance adjusting mechanism are both triangular structures, and the inside of the first mounting hole structure 810 for the reverse thread structure rotary distance adjusting mechanism and the inside of the second mounting hole structure 811 for the reverse thread structure rotary distance adjusting mechanism are respectively provided with an inserting shaft 5 positioned at the end part of the transverse connecting rod 6 and an inserting shaft 5 positioned at the top part of the first hollow shell 1.

Referring to fig. 4, the permanent magnet embedded member moving mechanism 16 includes a permanent magnet embedded member moving mechanism pillar block 161, a permanent magnet embedded member moving mechanism slope guide structure 162, a permanent magnet embedded member moving mechanism permanent magnet installation groove structure 163, a permanent magnet embedded member moving mechanism permanent magnet 164, and a permanent magnet embedded member moving mechanism cut line embedding hole 165; inclined guide structures 162 for the permanent magnet embedded part moving mechanism are arranged at two ends of the cylindrical block 161 for the permanent magnet embedded part moving mechanism, permanent magnet mounting groove structures 163 for the permanent magnet embedded part moving mechanism are arranged at two ends of the cylindrical block 161 for the permanent magnet embedded part moving mechanism, permanent magnets 164 for the permanent magnet embedded part moving mechanism are arranged in the permanent magnet mounting groove structures 163 for the permanent magnet embedded part moving mechanism, and cutting line embedding holes 165 for the permanent magnet embedded part moving mechanism are arranged in the middle of one side of the cylindrical block 161 for the permanent magnet embedded part moving mechanism; one end of the cut line is fitted into the cut line fitting hole 165 for the permanent magnet embedded member moving mechanism, and the column block 161 for the permanent magnet embedded member moving mechanism is placed inside the main member moving space 9; the permanent magnet 164 for the permanent magnet embedded component moving mechanism is of a plate body structure made of neodymium iron boron materials.

The specific use mode is as follows: in the working process of the invention, a rod body of a bottom connecting rod 6 is arranged between two shaft body mounting holes in a piled mud shaping device for producing piled mud through a fixed pin shaft, after the installation, a cutting plane of the device and a transverse piled mud conveying hole in the piled mud shaping device for producing piled mud are in a vertical angle, and then a reverse thread structure rotary distance adjusting mechanism 8 is adjusted by utilizing a mechanical principle according to the conveying speed of the piled mud, so that the cutting angle is adjusted, and a lead 13 in a coil 14 is connected with two poles of a control power supply, so that certain attention is paid: by using the electromagnetic principle, the direction of the current is controlled, so that a repulsive force is generated between the iron core 15 and the permanent magnet embedded component moving mechanism 16, and the cutting line 17 can perform a reciprocating cutting action by controlling to open the coil 14 positioned below or open the coil 14 positioned above each time.

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.

Claims (10)

1. The utility model provides a pile mud production is with piling mud cutting device, includes first cavity shell (1) and second cavity shell (2), its characterized in that: an inserting shaft (5) is respectively installed at two ends of the side face of the first hollow shell (1), the inserting shaft (5) positioned at the bottom and the top is respectively installed inside one end of a transverse connecting rod (6) and inside one end of a reverse threaded structure rotary distance adjusting mechanism (8) through a main bearing (7), the other inserting shaft (5) is installed at the side face of the other end of the transverse connecting rod (6), the inserting shaft (5) is installed inside the other end of the reverse threaded structure rotary distance adjusting mechanism (8), component installing structures (3) of an integrated structure are respectively arranged at two ends of the first hollow shell (1) and the second hollow shell (2), an iron core installing space (12) and a coil installing space (11) are arranged inside the component installing structures (3), an iron core (14) and a coil (15) are respectively installed inside the iron core installing space (12) and the coil installing space (11), the coil (15) is sleeved in the middle of the iron core (14), a through hole for communicating the coil (15) with an external space is formed in the part installation structure (3), a wire (13) for connecting the coil (15) with an electric power input end is installed in the through hole, main part moving spaces (9) are arranged in the centers of the inside of the first hollow shell (1) and the second hollow shell (2), wire body moving spaces (10) are arranged on opposite side faces of the first hollow shell (1) and the second hollow shell (2), permanent magnet embedded part moving mechanisms (16) are installed in the two main part moving spaces (9), a cutting line (17) penetrating through the wire body moving spaces (10) is installed between the two permanent magnet embedded part moving mechanisms (16), and the first hollow shell (1) and the second hollow shell (2) are connected with each other through a telescopic part longitudinal limiting and connecting mechanism (4) which is compressed by two spiral springs and abutted against each other And (6) connecting.

2. The stacked sludge cutting apparatus for manufacturing stacked sludge as claimed in claim 1, wherein: the spiral spring compression conflict telescopic part longitudinal limiting connecting mechanism (4) comprises a first connecting plate (41) for a spiral spring compression conflict telescopic part longitudinal limiting connecting mechanism, a first bolt hole (42) for the spiral spring compression conflict telescopic part longitudinal limiting connecting mechanism, a hollow shell (43) for the spiral spring compression conflict telescopic part longitudinal limiting connecting mechanism, a hollow structure (44) for the spiral spring compression conflict telescopic part longitudinal limiting connecting mechanism, a spiral spring (45) for the spiral spring compression conflict telescopic part longitudinal limiting connecting mechanism, a movable plate (46) for the spiral spring compression conflict telescopic part longitudinal limiting connecting mechanism, a push rod (47) for the spiral spring compression conflict telescopic part longitudinal limiting connecting mechanism, a second connecting plate (48) for the spiral spring compression conflict telescopic part longitudinal limiting connecting mechanism and a spiral spring compression conflict telescopic part longitudinal limiting connecting machine Construct and use second bolt hole (49), the inside of the first connecting plate (41) for the telescopic part longitudinal limit connecting mechanism of helical spring compression conflict is provided with the first bolt hole (42) for the telescopic part longitudinal limit connecting mechanism of a plurality of helical spring compression conflict, the surface of the first connecting plate (41) for the telescopic part longitudinal limit connecting mechanism of helical spring compression conflict is provided with the hollow shell (43) for the telescopic part longitudinal limit connecting mechanism of helical spring compression conflict of integral type, the hollow shell (43) for the telescopic part longitudinal limit connecting mechanism of helical spring compression conflict is provided with hollow structure (44) for the telescopic part longitudinal limit connecting mechanism of helical spring compression conflict at the inside center, the helical spring compression conflict of the telescopic part longitudinal limit connecting mechanism of helical spring compression conflict of the internally mounted compression state of hollow structure (44) for the telescopic part longitudinal limit connecting mechanism of helical spring compression conflict of the telescopic part longitudinal limit connecting mechanism of helical spring compression conflict A spring (45), a movable plate (46) for the longitudinal limiting connecting mechanism of the coil spring compression abutting telescopic component is installed at the top of the coil spring (45) for the longitudinal limiting connecting mechanism of the coil spring compression abutting telescopic component, a push rod (47) for the longitudinal limiting connecting mechanism of the coil spring compression abutting telescopic component is installed at the center of the upper surface of the movable plate (46) for the longitudinal limiting connecting mechanism of the coil spring compression abutting telescopic component, the rod body of the push rod (47) for the longitudinal limiting connecting mechanism of the coil spring compression abutting telescopic component penetrates through the top center of the hollow shell (43) for the longitudinal limiting connecting mechanism of the coil spring compression abutting telescopic component, and a second connecting plate (48) for the longitudinal limiting connecting mechanism of the coil spring compression abutting telescopic component is installed at the top end of the push rod (47) for the longitudinal limiting connecting mechanism of the coil spring compression abutting telescopic component, and a plurality of second bolt holes (49) for the spiral spring compression abutting telescopic part longitudinal limiting connecting mechanism are arranged in the second connecting plate (48) for the spiral spring compression abutting telescopic part longitudinal limiting connecting mechanism.

3. The stacked sludge cutting apparatus for manufacturing stacked sludge as claimed in claim 2, wherein: the first connecting plate (41) for the longitudinal limiting and connecting mechanism of the telescopic component compressed and abutted by the spiral spring is arranged on the side face of the component mounting structure (3) in the first hollow shell (1) through a bolt inserted into the first bolt hole (42) for the longitudinal limiting and connecting mechanism of the telescopic component compressed and abutted by the spiral spring.

4. The stacked sludge cutting apparatus for manufacturing stacked sludge as claimed in claim 2, wherein: the helical spring compresses and abuts against the longitudinal limiting and connecting mechanism of the telescopic part and is arranged on the side surface of the part mounting structure (3) in the second hollow shell (2) through a second connecting plate (48).

5. The stacked sludge cutting apparatus for manufacturing stacked sludge as claimed in claim 1, wherein: reverse thread structure rotation type distance adjustment mechanism (8) include reverse thread structure rotation type distance adjustment mechanism with screw sleeve (81), reverse thread structure rotation type distance adjustment mechanism with screw interval (82), reverse thread structure rotation type distance adjustment mechanism with screw thread structure (83), reverse thread structure rotation type distance adjustment mechanism with bottom threaded rod (84), reverse thread structure rotation type distance adjustment mechanism with top threaded rod (85), reverse thread structure rotation type distance adjustment mechanism with spacing hole (86), reverse thread structure rotation type distance adjustment mechanism with spacing rod (87), reverse thread structure rotation type distance adjustment mechanism with first installation block structure (88), reverse thread structure rotation type distance adjustment mechanism with second installation block structure (89), reverse thread structure rotation type distance adjustment mechanism with first installation hole structure (810) and reverse thread structure rotation type distance adjustment mechanism with second installation block structure A mounting hole structure (811); the thread sleeve (81) for the reverse thread structure rotary distance adjusting mechanism is internally provided with a thread section (82) for the reverse thread structure rotary distance adjusting mechanism, which communicates with the thread sleeve (81) for the reverse thread structure rotary distance adjusting mechanism at the center of the inside of the thread sleeve (81), the thread sleeve (81) for the reverse thread structure rotary distance adjusting mechanism is provided with a thread structure (83) for the reverse thread structure rotary distance adjusting mechanism at the inner wall of the thread section (82) for the reverse thread structure rotary distance adjusting mechanism, the bottom and the top of the thread section (82) for the reverse thread structure rotary distance adjusting mechanism are respectively connected with a bottom threaded rod (84) for the reverse thread structure rotary distance adjusting mechanism and a top threaded rod (85) for the reverse thread structure rotary distance adjusting mechanism through the thread structure (83) for the reverse thread structure rotary distance adjusting mechanism, reverse thread structure rotation type is apart from for adjustment mechanism bottom threaded rod (84) and reverse thread structure rotation type distance for adjustment mechanism top threaded rod (85) all are provided with reverse thread structure rotation type distance for adjustment mechanism spacing hole (86), two inside of reverse thread structure rotation type distance for adjustment mechanism spacing hole (86) inserts a reverse thread structure rotation type distance for adjustment mechanism spacing rod (87), reverse thread structure rotation type distance for adjustment mechanism bottom threaded rod (84) and reverse thread structure rotation type distance for adjustment mechanism top threaded rod (85) other both ends install reverse thread structure rotation type respectively apart from adjustment mechanism with first installation block structure (88) and reverse thread structure rotation type apart from adjustment mechanism with second installation block structure (89), reverse thread structure rotation type distance for adjustment mechanism first installation block structure (88) and reverse thread structure rotation type apart from adjustment mechanism A first mounting hole structure (810) for a reverse thread structure rotary distance adjusting mechanism and a second mounting hole structure (811) for a reverse thread structure rotary distance adjusting mechanism are arranged inside a second mounting block structure (89) for a rotary distance adjusting mechanism.

6. The stacked sludge cutting apparatus for producing stacked sludge as claimed in claim 5, wherein: reverse thread structure rotation type is apart from helicitic texture (83) for adjustment mechanism including setting up the internal thread structure at reverse thread structure rotation type distance for adjustment mechanism threaded sleeve (81) inner wall and setting up the external screw thread structure on reverse thread structure rotation type distance for adjustment mechanism bottom threaded rod (84) and reverse thread structure rotation type distance for adjustment mechanism top threaded rod (85) body of rod, and be located reverse thread structure rotation type is apart from adjustment mechanism bottom threaded rod (84) and reverse thread structure rotation type and apart from adjustment mechanism the helicitic texture on top threaded rod (85) the body of rod's screw thread opposite direction.

7. The stacked sludge cutting apparatus for producing stacked sludge as claimed in claim 5, wherein: the structure appearance of reverse thread structure rotation type distance adjustment mechanism with spacing hole (86) cross section and the structure appearance of reverse thread structure rotation type distance adjustment mechanism with gag lever post (87) cross section are the triangle-shaped structure, reverse thread structure rotation type distance adjustment mechanism installs respectively with first mounting hole structure (810) and reverse thread structure rotation type distance adjustment mechanism with the inside of second mounting hole structure (811) and is located inserting axle (5) at horizontal connecting rod (6) tip and inserting axle (5) that are located first cavity shell (1) top.

8. The stacked sludge cutting apparatus for manufacturing stacked sludge as claimed in claim 1, wherein: the permanent magnet embedded part moving mechanism (16) comprises a cylindrical block (161) for the permanent magnet embedded part moving mechanism, a slope guide structure (162) for the permanent magnet embedded part moving mechanism, a permanent magnet installation groove structure (163) for the permanent magnet embedded part moving mechanism, a permanent magnet (164) for the permanent magnet embedded part moving mechanism and a cutting line embedding hole (165) for the permanent magnet embedded part moving mechanism; the embedded part of permanent magnet is inclined plane guide structure (162) for moving mechanism of embedded part of permanent magnet is provided with at the both ends of the embedded part of permanent magnet for moving mechanism cylindricality piece (161), the both ends of the embedded part of permanent magnet for moving mechanism cylindricality piece (161) all are provided with embedded part of permanent magnet mounting groove structure (163) for moving mechanism of embedded part of permanent magnet, two the embedded part of permanent magnet for moving mechanism of permanent magnet mounting groove structure (163) inside all installs embedded part of permanent magnet for moving mechanism permanent magnet (164), the middle part of the embedded part of permanent magnet for moving mechanism cylindricality piece (161) one side is provided with embedded hole of line of cut (165) for embedded part of permanent magnet for moving mechanism.

9. The stacked sludge cutting apparatus for producing stacked sludge as claimed in claim 8, wherein: one end of the cutting line is embedded in the cutting line embedding hole (165) for the permanent magnet embedded part moving mechanism, and the cylindrical block (161) for the permanent magnet embedded part moving mechanism is placed in the main part moving space (9).

10. The stacked sludge cutting apparatus for producing stacked sludge as claimed in claim 8, wherein: the permanent magnet (164) for the permanent magnet embedded type component moving mechanism is of a plate body structure made of neodymium iron boron materials.

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