阅读说明：本技术 一种颗粒物集中收集用调节式前部驱动装置 (Regulation type front driving device for centralized collection of particles ) 是由 王佳平 于 2020-12-22 设计创作，主要内容包括：本发明公开了一种颗粒物集中收集用调节式前部驱动装置,包括横向基板。本发明配合一种颗粒物集中收集用尾部驱动装置使用,能够对颗粒物进行角度控制和驱动收集工作,降低了收集难度,提高了收集效率,同时,该装置位于驱动前端,起到旋转高度收集作用,从而实现颗粒物由地面至储存罐之间的转移功能,而且,该装置具有滑轮皮带并列式旋转轴驱动机构,从而实现多个旋转叶片的旋转带动作用,此外,该装置具有环形阵列式旋转强度控制机构,能够实现旋转轴之间的最大旋转强度控制作用,防止旋转阻力过大而导致的电机超载损伤现象的发生,另外,该装置具有反向螺纹结构旋转式距离调节机构,利用反向螺纹旋转原理,控制距离之间的改变。(The invention discloses an adjustable front driving device for centralized collection of particulate matters, which comprises a transverse base plate. The invention is matched with a tail driving device for collecting particulate matters in a centralized way, can carry out angle control and driving collection work on the particulate matters, reduces the collection difficulty, improves the collection efficiency, and simultaneously, the device is positioned at the front end of the drive and plays a role in collecting the rotating height, thereby realizing the function of transferring particles from the ground to the storage tank, the device is provided with a pulley belt parallel type rotating shaft driving mechanism, thereby realizing the rotating driving function of a plurality of rotating blades, the device is provided with a ring array type rotation intensity control mechanism, can realize the maximum rotation intensity control function between the rotating shafts, and prevent the motor overload damage phenomenon caused by overlarge rotation resistance, in addition, the device is provided with a reverse thread structure rotary distance adjusting mechanism, and the change between distances is controlled by utilizing the reverse thread rotation principle.)

1. A collecting is concentrated with regulation formula front portion drive arrangement in particulate matter, includes horizontal base plate (1), its characterized in that: a main mounting structure (2) of an integrated structure is arranged at the center of one side of the upper surface of the transverse base plate (1), a protective plate structure (3) of an integrated structure is arranged at the other side of the upper surface of the transverse base plate (1), an inner hexagonal groove structure (4) is arranged at the center of one side of the main mounting structure (2), two annular supports (5) are mounted on two sides of the upper surface of the transverse base plate (1), two main rotating shafts (8) are mounted at the end parts of the two annular supports (5) through main bearings (7), a main rectangular shell (9) is mounted between the end parts of the two main rotating shafts (8), a main rectangular collecting space (15) is arranged at the center of the bottom of the main rectangular shell (9), a component mounting space (14) is arranged above the main rectangular collecting space (15), and a main discharge pipeline (16) of an integrated structure is arranged on one side of the main rectangular, the inside of main discharge pipe way (16) is provided with main discharge hole (17) that communicate external space and main rectangle collection space (15) one side top, main rectangle shell (9) top installation pulley belt block rotation axis actuating mechanism (10), pulley belt block rotation axis actuating mechanism (10) top center installation driving motor installation shell (11), an internally mounted driving motor (12) of driving motor installation shell (11), main rectangle shell (9) are lieing in partition structure between part installation space (14) and main rectangle collection space (15) installs a plurality of vice rotation axis (19) that parallel through main bearing (7), vice rotation axis (19) are lieing in main rectangle collection space (15) inside axis body installs main helical blade (20), and is a plurality of vice rotation axis (19) are lieing in a plurality of annular array of one end installation of part installation space (14) inside and revolve Rotating strength control mechanism (18), every rotatory tip of ring array formula rotatory strength control mechanism (18) corresponds fixed connection through connecting axle (13) and a rotatory tip in pulley belt block formula rotation axis actuating mechanism (10), all install a activity hinge (22) between the side of main mounting structure (2) one side and main rectangular shell (9), two install a reverse thread structure rotation type apart from adjustment mechanism (21) between activity hinge (22).

2. The adjustable front drive assembly for concentrated collection of particulate matter as set forth in claim 1 wherein: the pulley belt parallel type rotation axis driving mechanism (10) comprises a hollow shell (101) for the pulley belt parallel type rotation axis driving mechanism, a hollow structure (102) for the pulley belt parallel type rotation axis driving mechanism, a bearing (103) for the pulley belt parallel type rotation axis driving mechanism, a first rotation axis (104) for the pulley belt parallel type rotation axis driving mechanism, a first rotation column (105) for the pulley belt parallel type rotation axis driving mechanism, a second rotation axis (106) for the pulley belt parallel type rotation axis driving mechanism, a second rotation column (107) for the pulley belt parallel type rotation axis driving mechanism, a third rotation axis (108) for the pulley belt parallel type rotation axis driving mechanism, a first belt ring (109) for the pulley belt parallel type rotation axis driving mechanism, a second belt ring (1010) for the pulley belt parallel type rotation axis driving mechanism, a third belt ring (1011) for the pulley belt parallel type rotation axis driving mechanism, A pulley belt parallel rotation shaft driving mechanism fourth belt ring (1012) and a pulley belt parallel rotation shaft driving mechanism belt (1013); a hollow structure (102) for the pulley belt parallel type rotary shaft driving mechanism is arranged at the center inside the hollow shell (101) for the pulley belt parallel type rotary shaft driving mechanism, a first rotary shaft (104) for the pulley belt parallel type rotary shaft driving mechanism is arranged at the longitudinal center of the hollow shell (101) for the pulley belt parallel type rotary shaft driving mechanism through a bearing (103) for the pulley belt parallel type rotary shaft driving mechanism, a second rotary shaft (106) for the pulley belt parallel type rotary shaft driving mechanism and a third rotary shaft (108) for the pulley belt parallel type rotary shaft driving mechanism are respectively arranged on two sides of the first rotary shaft (104) for the pulley belt parallel type rotary shaft driving mechanism in the longitudinal direction of the hollow shell (101) for the pulley belt parallel type rotary shaft driving mechanism through a bearing (103) for the pulley belt parallel type rotary shaft driving mechanism, pulley belt block formula rotation axis actuating mechanism is with first rotation axis (104), pulley belt block formula rotation axis actuating mechanism with second rotation axis (106) and pulley belt block formula rotation axis actuating mechanism with third rotation axis (108) axis body the middle part install pulley belt block formula rotation axis actuating mechanism respectively with first revolving column (105), pulley belt block formula rotation axis actuating mechanism with second revolving column (107) and pulley belt block formula rotation axis actuating mechanism with first belt ring (109), the side of pulley belt block formula rotation axis actuating mechanism with first revolving column (105) is provided with pulley belt block formula rotation axis actuating mechanism with first belt ring (109) and belt pulley block formula rotation axis actuating mechanism with second belt ring (1010), pulley belt block formula rotation axis actuating mechanism is with second revolving column (107) and pulley belt block formula rotation axis actuating mechanism with the side of first belt ring (109) establish respectively A third belt loop (1011) for a pulley belt parallel rotation axis driving mechanism and a fourth belt loop (1012) for a pulley belt parallel rotation axis driving mechanism are provided, the first belt loop (109) for the pulley belt parallel rotation axis driving mechanism and the third belt loop (1011) for the pulley belt parallel rotation axis driving mechanism are connected by a belt (1013) for the pulley belt parallel rotation axis driving mechanism, and the second belt loop (1010) for the pulley belt parallel rotation axis driving mechanism and the fourth belt loop (1012) for the pulley belt parallel rotation axis driving mechanism are connected by a belt (1013) for another pulley belt parallel rotation axis driving mechanism.

3. The adjustable front drive assembly for concentrated collection of particulate matter as set forth in claim 2 wherein: the pulley belt parallel type rotating shaft driving mechanism is fixedly connected with the end part of a main shaft of a driving motor (12) through the top end of a first rotating shaft (104).

4. The adjustable front drive assembly for concentrated collection of particulate matter as set forth in claim 2 wherein: and shaft bodies at the bottom ends of the first rotating shaft (104) for the pulley and belt parallel rotating shaft driving mechanism, the second rotating shaft (106) for the pulley and belt parallel rotating shaft driving mechanism and the third rotating shaft (108) for the pulley and belt parallel rotating shaft driving mechanism are respectively and fixedly connected with the top ends of the connecting shafts (13).

5. The adjustable front drive assembly for concentrated collection of particulate matter as set forth in claim 1 wherein: the ring array type rotation intensity control mechanism (18) comprises a main hollow shell (181) for the ring array type rotation intensity control mechanism, a main hollow section (182) for the ring array type rotation intensity control mechanism, a rotary column (183) for the ring array type rotation intensity control mechanism, a semicircular groove structure (184) for the ring array type rotation intensity control mechanism, an auxiliary hollow section (185) for the ring array type rotation intensity control mechanism, a movable plate (186) for the ring array type rotation intensity control mechanism, a spiral spring (187) for the ring array type rotation intensity control mechanism and a push rod (188) for the ring array type rotation intensity control mechanism; the center of one end face of a main hollow shell (181) for the ring array type rotation intensity control mechanism is fixedly connected with the bottom end of a connecting shaft (13), the center inside the main hollow shell (181) for the ring array type rotation intensity control mechanism is a main hollow section (182) for the ring array type rotation intensity control mechanism, the main hollow shell (181) for the ring array type rotation intensity control mechanism is sleeved with a rotating column (183) for the ring array type rotation intensity control mechanism inside the main hollow section (182) for the ring array type rotation intensity control mechanism, the main hollow shell (181) for the ring array type rotation intensity control mechanism inside is an auxiliary hollow section (185) for the ring array type rotation intensity control mechanism, and the auxiliary hollow section (185) for the ring array type rotation intensity control mechanism inside is arranged at one end face of the main hollow section (182) for the ring array type rotation intensity control mechanism A movable plate (186) for a ring-array type rotation intensity control mechanism, wherein a coil spring (187) for the ring-array type rotation intensity control mechanism is fixed between one ends of the movable plates (186) for the ring-array type rotation intensity control mechanism by an auxiliary hollow section (185), a push rod (188) for the ring-array type rotation intensity control mechanism is arranged on one end surface of the movable plate (186) for the ring-array type rotation intensity control mechanism and is integrated with the movable plate, the push rod (188) for the ring-array type rotation intensity control mechanism penetrates through the main hollow housing (181) for the ring-array type rotation intensity control mechanism and is positioned in the main hollow section (182) for the ring-array type rotation intensity control mechanism, and the push rod (188) for the ring-array type rotation intensity control mechanism is positioned in the main hollow section (182) for the ring-array type rotation intensity control mechanism The end is in a semicircular structure, a semicircular groove structure (184) used for placing the end part of a push rod (188) for the annular array type rotation intensity control mechanism is arranged on the side surface of the rotation column (183) for the annular array type rotation intensity control mechanism, and one end of the rotation column (183) for the annular array type rotation intensity control mechanism is fixed with the top of the auxiliary rotation shaft (19).

6. The adjustable front drive assembly for concentrated collection of particulate matter as set forth in claim 5 wherein: the initial length of the coil spring (187) for the ring array type rotation intensity control mechanism is longer than the length of the sub hollow section (185) for the ring array type rotation intensity control mechanism.

7. The adjustable front drive assembly for concentrated collection of particulate matter as set forth in claim 5 wherein: the structural shape of the end part of the push rod (188) for the annular array type rotating strength control mechanism is consistent with the structural shape of the semicircular groove structure (184) for the annular array type rotating strength control mechanism.

8. The adjustable front drive assembly for concentrated collection of particulate matter as set forth in claim 1 wherein: the reverse thread structure rotation type distance adjusting mechanism (21) comprises a reverse thread structure rotation type distance adjusting mechanism threaded sleeve (211), a reverse thread structure rotation type distance adjusting mechanism threaded section (212), a reverse thread structure rotation type distance adjusting mechanism threaded structure (213), a reverse thread structure rotation type distance adjusting mechanism bottom threaded rod (214), a reverse thread structure rotation type distance adjusting mechanism top threaded rod (215), a reverse thread structure rotation type distance adjusting mechanism limiting hole (216), a reverse thread structure rotation type distance adjusting mechanism limiting rod (217), a reverse thread structure rotation type distance adjusting mechanism first connecting plate (218), a reverse thread structure rotation type distance adjusting mechanism second connecting plate (219), a reverse thread structure rotation type distance adjusting mechanism first bolt hole (2110) and a reverse thread structure rotation type distance adjusting mechanism second bolt hole (2111) (ii) a The thread sleeve (211) for the reverse thread structure rotary distance adjusting mechanism is internally provided with a thread section (212) for the reverse thread structure rotary distance adjusting mechanism, which is communicated with the thread sleeve (211) for the reverse thread structure rotary distance adjusting mechanism at the center of the inside of the thread sleeve (211), the thread sleeve (211) for the reverse thread structure rotary distance adjusting mechanism is provided with a thread structure (213) for the reverse thread structure rotary distance adjusting mechanism on the inner wall of the thread section (212) for the reverse thread structure rotary distance adjusting mechanism, the bottom and the top of the thread section (212) for the reverse thread structure rotary distance adjusting mechanism are respectively connected with a bottom threaded rod (214) for the reverse thread structure rotary distance adjusting mechanism and a top threaded rod (215) for the reverse thread structure rotary distance adjusting mechanism through the thread structure (213) for the reverse thread structure rotary distance adjusting mechanism, reverse thread structure rotation type is apart from adjustment mechanism with bottom threaded rod (214) and reverse thread structure rotation type distance adjustment mechanism with top threaded rod (215) in the inside spacing hole (216) for reverse thread structure rotation type distance adjustment mechanism that all is provided with of opposition end, two reverse thread structure rotation type is apart from inside in spacing hole (216) for adjustment mechanism and is inserted a reverse thread structure rotation type distance adjustment mechanism with gag lever post (217), reverse thread structure rotation type is apart from adjustment mechanism with bottom threaded rod (214) and reverse thread structure rotation type distance adjustment mechanism with top threaded rod (215) other both ends install reverse thread structure rotation type respectively apart from adjustment mechanism with first connecting plate (218) and reverse thread structure rotation type apart from adjustment mechanism with second connecting plate (219), reverse thread structure rotation type distance adjustment mechanism is with first connecting plate (218) and reverse thread structure rotation type distance adjustment mechanism A first bolt hole (2110) for a reverse-threaded-structure rotary distance adjustment mechanism and a second bolt hole (2111) for a reverse-threaded-structure rotary distance adjustment mechanism are provided in the mechanism second connection plate (219).

9. The adjustable front drive assembly for concentrated collection of particulate matter as recited in claim 8, further comprising: reverse thread structure rotation type is apart from screw structure (213) for adjustment mechanism is including setting up the internal thread structure at reverse thread structure rotation type for distance adjustment mechanism threaded sleeve (211) inner wall and setting up the external screw thread structure on reverse thread structure rotation type for distance adjustment mechanism bottom threaded rod (214) and reverse thread structure rotation type for distance adjustment mechanism top threaded rod (215) body of rod, and is located reverse thread structure rotation type is apart from adjustment mechanism with bottom threaded rod (214) and reverse thread structure rotation type for distance adjustment mechanism top threaded rod (215) body of rod's on the screw thread opposite direction.

10. The adjustable front drive assembly for concentrated collection of particulate matter as recited in claim 8, further comprising: the cross section structural appearance of the limiting hole (216) for the reverse thread structure rotary distance adjusting mechanism and the cross section structural appearance of the limiting rod (217) for the reverse thread structure rotary distance adjusting mechanism are both triangular structures, and the ends of the first bolt hole (2110) for the reverse thread structure rotary distance adjusting mechanism and the second bolt hole (2111) for the reverse thread structure rotary distance adjusting mechanism are mounted at the movable end of the movable hinge (22) through bolts.

Technical Field

The invention relates to the technical field of article collection, in particular to an adjustable front driving device for centralized collection of particles.

Background

At present, when particulate matters are collected, for example, crops such as wheat and soybeans are collected in a centralized mode, the collection efficiency is slow due to condition limitation, the collection workload is large, and the limitation is high.

Disclosure of Invention

The present invention is directed to a front driving device of adjustable type for collecting particles in a concentrated manner, so as to solve the above-mentioned problems.

In order to achieve the purpose, the invention provides the following technical scheme: a regulation type front driving device for centralized collection of particles comprises a transverse base plate, wherein a main installation structure of an integrated structure is arranged at the center of one side of the upper surface of the transverse base plate, a protection plate structure of an integrated structure is arranged at the other side of the upper surface of the transverse base plate, an inner hexagonal groove structure is arranged at the center of one side of the main installation structure, two annular supports are installed at two sides of the upper surface of the transverse base plate, two main rotating shafts are installed at the end parts of the two annular supports through main bearings, a main rectangular shell is installed between the end parts of the two main rotating shafts, a main rectangular collection space is arranged at the center of the bottom of the main rectangular shell, a part installation space is arranged above the main rectangular collection space, a main discharge pipeline of an integrated structure is arranged at one side of the main rectangular shell, a main discharge hole communicated with the external space and the top of one side of the main rectangular collection space, a pulley belt parallel type rotating shaft driving mechanism is installed at the top end of the main rectangular shell, a driving motor installation shell is installed at the center of the top end of the pulley belt parallel type rotating shaft driving mechanism, a driving motor is installed inside the driving motor installation shell, a plurality of parallel auxiliary rotating shafts are installed on a partition plate structure between the component installation space and the main rectangular collection space through main bearings of the main rectangular shell, main spiral blades are installed on shaft bodies inside the main rectangular collection space of the auxiliary rotating shafts, a plurality of annular array type rotating strength control mechanisms are installed at one ends inside the component installation space of the auxiliary rotating shafts, one rotating end part of each annular array type rotating strength control mechanism corresponds to and is fixedly connected with one rotating end part of the pulley belt parallel type rotating shaft driving mechanism through a connecting shaft, and a movable hinge is arranged between one side of the main mounting structure and the side surface of the main rectangular shell, and a rotary distance adjusting mechanism with a reverse thread structure is arranged between the two movable hinges.

Further, the pulley and belt parallel type rotating shaft driving mechanism comprises a hollow shell for the pulley and belt parallel type rotating shaft driving mechanism, a hollow structure for the pulley and belt parallel type rotating shaft driving mechanism, a bearing for the pulley and belt parallel type rotating shaft driving mechanism, a first rotating shaft for the pulley and belt parallel type rotating shaft driving mechanism, a first rotating column for the pulley and belt parallel type rotating shaft driving mechanism and a second rotating shaft for the pulley and belt parallel type rotating shaft driving mechanism, a second rotary column for the pulley belt parallel rotary shaft driving mechanism, a third rotary shaft for the pulley belt parallel rotary shaft driving mechanism, a first belt ring for the pulley belt parallel rotary shaft driving mechanism, a second belt ring for the pulley belt parallel rotary shaft driving mechanism, a third belt ring for the pulley belt parallel rotary shaft driving mechanism, a fourth belt ring for the pulley belt parallel rotary shaft driving mechanism and a belt for the pulley belt parallel rotary shaft driving mechanism; pulley belt block formula rotation axis actuating mechanism is provided with pulley belt block formula rotation axis actuating mechanism and uses hollow structure at the inside center of hollow shell for pulley belt block formula rotation axis actuating mechanism, pulley belt block formula rotation axis actuating mechanism is with vertical center of hollow shell through pulley belt block formula rotation axis actuating mechanism with bearing installation pulley belt block formula rotation axis actuating mechanism and is used first rotation axis, pulley belt block formula rotation axis actuating mechanism is with vertical being located pulley belt block formula rotation axis actuating mechanism installs pulley belt block formula rotation axis actuating mechanism and uses second rotation axis and pulley belt block formula rotation axis actuating mechanism and use third rotation axis through pulley belt block formula rotation axis actuating mechanism with bearing respectively in the both sides of using first rotation axis for pulley belt block formula rotation axis actuating mechanism, pulley belt block formula rotation axis actuating mechanism uses first rotation axis, hollow structure for pulley belt block formula rotation axis actuating mechanism, A first rotary column for the pulley belt parallel type rotary shaft driving mechanism, a second rotary column for the pulley belt parallel type rotary shaft driving mechanism and a first belt ring for the pulley belt parallel type rotary shaft driving mechanism are respectively arranged at the middle part of a third rotary shaft body for the pulley belt parallel type rotary shaft driving mechanism, the side surface of the first rotary column for the pulley belt parallel type rotary shaft driving mechanism is provided with the first belt ring for the pulley belt parallel type rotary shaft driving mechanism and the second belt ring for the pulley belt parallel type rotary shaft driving mechanism, the side surfaces of the second rotary column for the pulley belt parallel type rotary shaft driving mechanism and the first belt ring for the pulley belt parallel type rotary shaft driving mechanism are respectively provided with the third belt ring for the pulley belt parallel type rotary shaft driving mechanism and the fourth belt ring for the pulley belt parallel type rotary shaft driving mechanism, the pulley belt parallel type rotation axis actuating mechanism is connected with the third belt ring through the pulley belt parallel type rotation axis actuating mechanism belt between the first belt ring for the pulley belt parallel type rotation axis actuating mechanism and the pulley belt parallel type rotation axis actuating mechanism, the pulley belt parallel type rotation axis actuating mechanism is connected with the fourth belt ring for the pulley belt parallel type rotation axis actuating mechanism through another pulley belt parallel type rotation axis actuating mechanism belt between.

Furthermore, the pulley belt parallel type rotating shaft driving mechanism is fixedly connected with the end part of a main shaft of the driving motor by the top end of the first rotating shaft.

Furthermore, the shaft bodies at the bottom ends of the first rotating shaft for the pulley and belt parallel rotating shaft driving mechanism, the second rotating shaft for the pulley and belt parallel rotating shaft driving mechanism and the third rotating shaft for the pulley and belt parallel rotating shaft driving mechanism are fixedly connected with the top ends of the connecting shafts respectively.

Further, the ring array type rotation intensity control mechanism includes a main hollow housing for the ring array type rotation intensity control mechanism, a main hollow section for the ring array type rotation intensity control mechanism, a rotary column for the ring array type rotation intensity control mechanism, a semicircular groove structure for the ring array type rotation intensity control mechanism, an auxiliary hollow section for the ring array type rotation intensity control mechanism, a movable plate for the ring array type rotation intensity control mechanism, a coil spring for the ring array type rotation intensity control mechanism, and a push rod for the ring array type rotation intensity control mechanism; the center of one end face of the main hollow shell for the ring array type rotation intensity control mechanism is fixedly connected with the bottom end of a connecting shaft, the center of the inside of the main hollow shell for the ring array type rotation intensity control mechanism is a main hollow section for the ring array type rotation intensity control mechanism, the main hollow shell for the ring array type rotation intensity control mechanism is sleeved with a rotating column for the ring array type rotation intensity control mechanism inside the main hollow section for the ring array type rotation intensity control mechanism, the inside of the main hollow shell for the ring array type rotation intensity control mechanism is an auxiliary hollow section for the ring array type rotation intensity control mechanism, a movable plate for the ring array type rotation intensity control mechanism is arranged on one end face of the main hollow section for the ring array type rotation intensity control mechanism inside the auxiliary hollow section for the ring array type rotation intensity control mechanism, the annular array type rotary strength control mechanism is characterized in that a spiral spring for the annular array type rotary strength control mechanism is fixed between one ends of movable plates for the annular array type rotary strength control mechanism in an auxiliary hollow interval, one end face of each movable plate for the annular array type rotary strength control mechanism is provided with a push rod for the annular array type rotary strength control mechanism which is of an integrated structure with the movable plate, the push rod for the annular array type rotary strength control mechanism penetrates through a main hollow shell for the annular array type rotary strength control mechanism and is located inside the main hollow interval for the annular array type rotary strength control mechanism, one end of the push rod for the annular array type rotary strength control mechanism, which is located in the main hollow interval for the annular array type rotary strength control mechanism, is of a semicircular structure, and the side face of a rotating column for the annular array type rotary strength control mechanism is provided with a rotary column for placing the annular array type rotary strength The annular array type rotation intensity control mechanism at the end part of the push rod is of a semicircular groove structure, and one end of the rotary column for the annular array type rotation intensity control mechanism is fixed with the top of the auxiliary rotary shaft.

Further, the initial length of the coil spring for the ring array type rotation intensity control mechanism is greater than the length of the auxiliary hollow space for the ring array type rotation intensity control mechanism.

Further, the structural shape of the end part of the push rod for the annular array type rotation intensity control mechanism is consistent with the structural shape of the semicircular groove structure for the annular array type rotation intensity control mechanism.

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, a first bolt hole for the reverse thread structure rotary distance adjusting mechanism and a second bolt hole 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 The top threaded rod is provided with a limiting hole for the reverse thread structure rotary distance adjusting mechanism in the opposite end, a limiting rod for the reverse thread structure rotary distance adjusting mechanism is inserted into the limiting hole for the reverse thread structure rotary distance adjusting mechanism, the other two ends of the bottom threaded rod for the reverse threaded structure rotary distance adjusting mechanism and the top threaded rod for the reverse threaded structure rotary distance adjusting mechanism are respectively provided with a first connecting plate for the reverse threaded structure rotary distance adjusting mechanism and a second connecting plate for the reverse threaded structure rotary distance adjusting mechanism, the first connecting plate for the reverse thread structure rotary distance adjusting mechanism and the second connecting plate for the reverse thread structure rotary distance adjusting mechanism are internally provided with a first bolt hole for the reverse thread structure rotary distance adjusting mechanism and a second bolt hole for the reverse thread structure rotary distance adjusting mechanism.

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.

Furthermore, the structural appearance of the cross section of the limiting hole for the reverse thread structure rotary distance adjusting mechanism and the structural appearance of the cross section of the limiting rod for the reverse thread structure rotary distance adjusting mechanism are both triangular structures, and the end parts of the first bolt hole for the reverse thread structure rotary distance adjusting mechanism and the second bolt hole for the reverse thread structure rotary distance adjusting mechanism are mounted at the movable end of the movable hinge through bolts.

Compared with the prior art, the invention has the beneficial effects that: the invention is used in combination with a tail driving device for collecting particulate matters in a centralized way, can carry out angle control and driving collection work on the particulate matters, reduces the collection difficulty and improves the collection efficiency, and meanwhile, the device is positioned at the front driving end and plays a role in collecting the rotating height so as to realize the transfer function of the particulate matters from the ground to a storage tank, and the device is provided with a pulley and belt parallel rotating shaft driving mechanism so as to realize the rotating driving function of a plurality of rotating blades, in addition, the device is provided with an annular array type rotating strength control mechanism which can realize the maximum rotating strength control function between the rotating shafts and prevent the motor overload damage phenomenon caused by overlarge rotating resistance, in addition, the device is provided with a reverse thread structure rotating distance adjusting mechanism which controls the change of the distance by utilizing the reverse thread rotating principle, thereby realizing the degree of inclination between the device and the ground, reducing the collection limitation.

Drawings

FIG. 1 is a schematic diagram of a fully sectioned configuration of an adjustable front drive for concentrated collection of particulate matter in accordance with the present invention;

FIG. 2 is a schematic structural diagram of a pulley and belt parallel type rotating shaft driving mechanism in an adjustable front driving device for concentrated collection of particulate matters according to the present invention;

FIG. 3 is a schematic structural view of a ring array type rotation strength control mechanism in an adjustable front driving apparatus for concentrated collection of particulate matter according to the present invention;

FIG. 4 is a schematic structural view of a rotary distance adjustment mechanism with a reverse thread structure in an adjustable front driving device for concentrated collection of particulate matter according to the present invention;

in the figure: 1, a transverse base plate, 2, a main mounting structure, 3, a guard plate structure, 4, an inner hexagonal groove structure, 5, a ring support, 7, a main bearing, 8, a main rotation axis, 9, a main rectangular housing, 10, a pulley and belt parallel rotation axis drive mechanism, 101, a hollow housing for a pulley and belt parallel rotation axis drive mechanism, 102, a hollow structure for a pulley and belt parallel rotation axis drive mechanism, 103, a bearing for a pulley and belt parallel rotation axis drive mechanism, 104, a first rotation axis for a pulley and belt parallel rotation axis drive mechanism, 105, a first rotation column for a pulley and belt parallel rotation axis drive mechanism, 106, a second rotation axis for a pulley and belt parallel rotation axis drive mechanism, 107, a second rotation column for a pulley and belt parallel rotation axis drive mechanism, 108, a third rotation axis for a pulley and belt parallel rotation axis drive mechanism, 109, a first belt loop for a pulley belt parallel rotation axis driving mechanism, 1010, a second belt loop for a pulley belt parallel rotation axis driving mechanism, 1011, a third belt loop for a pulley belt parallel rotation axis driving mechanism, 1012, a fourth belt loop for a pulley belt parallel rotation axis driving mechanism, 1013, a belt for a pulley belt parallel rotation axis driving mechanism, 11, a driving motor mounting case, 12, a driving motor, 13, a connecting shaft, 14, a component mounting space, 15, a main rectangular collecting space, 16, a main discharging pipe, 17, a main discharging hole, 18, a circular array type rotation strength controlling mechanism, 181, a main hollow housing for a circular array type rotation strength controlling mechanism, 182, a main hollow section for a circular array type rotation strength controlling mechanism, 183, a rotary column for a circular array type rotation strength controlling mechanism, 184, a semicircular groove structure for a circular array type rotation strength controlling mechanism, 185, 186, 187, 188, 19, 20, 21, 211, 212, 213, 214, 215, 216, 217, 218, a first connecting plate for a reverse thread structure rotation type distance adjusting mechanism, 219, a second connecting plate for a reverse thread structure rotation type distance adjusting mechanism, 2110, a first bolt hole for a reverse thread structure rotation type distance adjusting mechanism, 2111, a second bolt hole for a reverse thread structure rotation type distance adjusting mechanism, 22, a living hinge.

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 device comprises a transverse base plate 1, a main mounting structure 2 of an integrated structure is arranged at the center of one side of the upper surface of the transverse base plate 1, a protection plate structure 3 of an integrated structure is arranged at the other side of the upper surface of the transverse base plate 1, an inner hexagonal groove structure 4 is arranged at the center of one side of the main mounting structure 2, two annular supports 5 are arranged at two sides of the upper surface of the transverse base plate 1, two main rotating shafts 8 are arranged at the end parts of the two annular supports 5 through main bearings 7, a main rectangular shell 9 is arranged between the end parts of the two main rotating shafts 8, a main rectangular collecting space 15 is arranged at the center of the bottom of the main rectangular shell 9, a part mounting space 14 is arranged above the main rectangular collecting space 15, a main discharge pipeline 16 of an integrated structure is arranged at one side of the main rectangular shell 9, a main discharge hole 17 communicating the external space and the top of one side of the main rectangular collecting space 15 is arranged, a pulley belt parallel type rotating shaft driving mechanism 10 is installed at the top end of the main rectangular shell 9, a driving motor installation shell 11 is installed at the center of the top end of the pulley belt parallel type rotating shaft driving mechanism 10, a driving motor 12 is installed inside the driving motor installation shell 11, a plurality of parallel auxiliary rotating shafts 19 are installed on a partition plate structure between the component installation space 14 and the main rectangular collection space 15 through main bearings 7 of the main rectangular shell 9, main spiral blades 20 are installed on shaft bodies inside the main rectangular collection space 15 of the auxiliary rotating shafts 19, a plurality of annular array type rotating strength control mechanisms 18 are installed at one ends inside the component installation space 14 of the auxiliary rotating shafts 19, one rotating end part of each annular array type rotating strength control mechanism 18 corresponds to and is fixedly connected with one rotating end part of the pulley belt parallel type rotating shaft driving mechanism 10 through a connecting shaft 13, a movable hinge 22 is arranged between one side of the main mounting structure 2 and the side surface of the main rectangular shell 9, and a rotary distance adjusting mechanism 21 with a reverse thread structure is arranged between the two movable hinges 22.

Referring to fig. 2, the pulley and belt parallel rotation axis driving mechanism 10 includes a hollow housing 101 for a pulley and belt parallel rotation axis driving mechanism, a hollow structure 102 for a pulley and belt parallel rotation axis driving mechanism, a bearing 103 for a pulley and belt parallel rotation axis driving mechanism, a first rotation axis 104 for a pulley and belt parallel rotation axis driving mechanism, a first rotation column 105 for a pulley and belt parallel rotation axis driving mechanism, a second rotation axis 106 for a pulley and belt parallel rotation axis driving mechanism, a second rotation column 107 for a pulley and belt parallel rotation axis driving mechanism, a third rotation axis 108 for a pulley and belt parallel rotation axis driving mechanism, a first belt ring 109 for a pulley and belt parallel rotation axis driving mechanism, a second belt ring 1010 for a pulley and belt parallel rotation axis driving mechanism, a third belt ring 1011, A pulley belt parallel rotation shaft driving mechanism fourth belt loop 1012 and a pulley belt parallel rotation shaft driving mechanism belt 1013; a hollow structure 102 for the pulley belt parallel type rotary shaft driving mechanism is arranged at the center inside the hollow shell 101 for the pulley belt parallel type rotary shaft driving mechanism, a first rotary shaft 104 for the pulley belt parallel type rotary shaft driving mechanism is arranged at the longitudinal center of the hollow shell 101 for the pulley belt parallel type rotary shaft driving mechanism through a bearing 103 for the pulley belt parallel type rotary shaft driving mechanism, a second rotary shaft 106 for the pulley belt parallel type rotary shaft driving mechanism and a third rotary shaft 108 for the pulley belt parallel type rotary shaft driving mechanism are respectively arranged on two sides of the first rotary shaft 104 for the pulley belt parallel type rotary shaft driving mechanism in the longitudinal direction of the hollow shell 101 for the pulley belt parallel type rotary shaft driving mechanism through the bearing 103 for the pulley belt parallel type rotary shaft driving mechanism, the first rotary shaft 104 for the pulley belt parallel type rotary shaft driving mechanism, the second rotary shaft 104 for the pulley belt parallel type rotary shaft driving, A first rotary column 105 for a pulley belt parallel type rotary shaft driving mechanism, a second rotary column 107 for the pulley belt parallel type rotary shaft driving mechanism and a first belt ring 109 for the pulley belt parallel type rotary shaft driving mechanism are respectively arranged at the middle part of the shaft body of a second rotary shaft 106 for the pulley belt parallel type rotary shaft driving mechanism and a third rotary shaft 108 for the pulley belt parallel type rotary shaft driving mechanism, a first belt ring 109 for the pulley belt parallel type rotary shaft driving mechanism and a second belt ring 1010 for the pulley belt parallel type rotary shaft driving mechanism are arranged at the side surface of the first rotary column 105 for the pulley belt parallel type rotary shaft driving mechanism, a third belt ring 1011 for the pulley belt parallel type rotary shaft driving mechanism and a fourth belt ring 1012 for the pulley belt parallel type rotary shaft driving mechanism are respectively arranged at the side surface of the second rotary column 107 for the pulley belt parallel type rotary shaft driving mechanism and the first belt ring 109 for the pulley belt parallel type rotary shaft driving mechanism, the pulley belt parallel rotation axis driving mechanism is connected with the first belt ring 109 for pulley belt parallel rotation axis driving mechanism and the third belt ring 1011 for pulley belt parallel rotation axis driving mechanism by a belt 1013 for pulley belt parallel rotation axis driving mechanism, and the pulley belt parallel rotation axis driving mechanism is connected with the second belt ring 1010 for pulley belt parallel rotation axis driving mechanism and the fourth belt ring 1012 for pulley belt parallel rotation axis driving mechanism by another belt 1013 for pulley belt parallel rotation axis driving mechanism; the pulley belt parallel type rotating shaft driving mechanism is fixedly connected with the end part of a main shaft of the driving motor 12 by the top end of a first rotating shaft 104; the shaft bodies at the bottom ends of the first rotating shaft 104, the second rotating shaft 106 and the third rotating shaft 108 for the pulley and belt parallel rotating shaft driving mechanism and the pulley and belt parallel rotating shaft driving mechanism are respectively and fixedly connected with the top ends of the connecting shafts 13.

Referring to fig. 3, the ring array type rotation intensity control mechanism 18 includes a main hollow housing 181 for the ring array type rotation intensity control mechanism, a main hollow section 182 for the ring array type rotation intensity control mechanism, a rotary column 183 for the ring array type rotation intensity control mechanism, a semicircular groove structure 184 for the ring array type rotation intensity control mechanism, an auxiliary hollow section 185 for the ring array type rotation intensity control mechanism, a movable plate 186 for the ring array type rotation intensity control mechanism, a coil spring 187 for the ring array type rotation intensity control mechanism, and a push rod 188 for the ring array type rotation intensity control mechanism; the center of one end face of the main hollow housing 181 for the ring-arrayed rotary strength control mechanism is fixedly connected to the bottom end of a connecting shaft 13, the center of the inside of the main hollow housing 181 for the ring-arrayed rotary strength control mechanism is a main hollow section 182 for the ring-arrayed rotary strength control mechanism, the main hollow housing 181 for the ring-arrayed rotary strength control mechanism is fitted with a rotary column 183 for the ring-arrayed rotary strength control mechanism inside the main hollow section 182 for the ring-arrayed rotary strength control mechanism, the inside of the main hollow housing 181 for the ring-arrayed rotary strength control mechanism is a sub hollow section 185 for the ring-arrayed rotary strength control mechanism, the inside of the sub hollow section 185 for the ring-arrayed rotary strength control mechanism is provided with a movable plate 186 for the ring-arrayed rotary strength control mechanism on one end face of the main hollow section 182 for the ring-arrayed rotary strength control mechanism, the ring-array-type rotation intensity control mechanism auxiliary hollow section 185 is provided with a ring-array-type rotation intensity control mechanism coil spring 187 between one end of the ring-array-type rotation intensity control mechanism movable plate 186, one end surface of the ring-array-type rotation intensity control mechanism movable plate 186 is provided with a ring-array-type rotation intensity control mechanism push rod 188 which is integrated with the ring-array-type rotation intensity control mechanism movable plate, the ring-array-type rotation intensity control mechanism push rod 188 penetrates through the ring-array-type rotation intensity control mechanism main hollow housing 181 and is positioned inside the ring-array-type rotation intensity control mechanism main hollow section 182, the ring-array-type rotation intensity control mechanism push rod 188 is of a semicircular structure at one end of the ring-array-type rotation intensity control mechanism main hollow section 182, and the side surface of the ring-array-type rotation intensity control mechanism rotary column 183 is provided with a ring array for placing the ring A semicircular groove structure 184 for a ring array type rotation intensity control mechanism at the end of a push rod 188 for a line type rotation intensity control mechanism, one end of a rotary column 183 for the ring array type rotation intensity control mechanism being fixed to the top of the secondary rotary shaft 19; the initial length of the ring array type rotational strength control mechanism-use coil spring 187 is longer than the length of the ring array type rotational strength control mechanism-use sub hollow section 185; the structural shape of the end portion of the push rod 188 for the ring array type rotation intensity control mechanism is identical to the structural shape of the semicircular groove structure 184 for the ring array type rotation intensity control mechanism.

Referring to fig. 4, the reverse-threaded-structure rotary distance adjustment mechanism 21 includes a reverse-threaded-structure rotary distance adjustment mechanism threaded sleeve 211, a reverse-threaded-structure rotary distance adjustment mechanism threaded section 212, a reverse-threaded-structure rotary distance adjustment mechanism threaded structure 213, a reverse-threaded-structure rotary distance adjustment mechanism bottom threaded rod 214, a reverse-threaded-structure rotary distance adjustment mechanism top threaded rod 215, a limit hole 216 for a reverse thread structure rotary distance adjustment mechanism, a limit rod 217 for a reverse thread structure rotary distance adjustment mechanism, a first connecting plate 218 for a reverse thread structure rotary distance adjustment mechanism, a second connecting plate 219 for a reverse thread structure rotary distance adjustment mechanism, a first bolt hole 2110 for a reverse thread structure rotary distance adjustment mechanism, and a second bolt hole 2111 for a reverse thread structure rotary distance adjustment mechanism; the center inside the reverse thread structure rotation type distance adjustment mechanism screw sleeve 211 is provided with a reverse thread structure rotation type distance adjustment mechanism screw section 212 communicating both end faces of the reverse thread structure rotation type distance adjustment mechanism screw sleeve 211, the reverse thread structure rotation type distance adjustment mechanism screw sleeve 211 is provided with a reverse thread structure rotation type distance adjustment mechanism screw structure 213 on the inner wall of the reverse thread structure rotation type distance adjustment mechanism screw section 212, the bottom and the top of the reverse thread structure rotation type distance adjustment mechanism screw section 212 are respectively connected with a reverse thread structure rotation type distance adjustment mechanism bottom screw rod 214 and a reverse thread structure rotation type distance adjustment mechanism top screw rod 215 through the reverse thread structure rotation type distance adjustment mechanism screw structure 213, reverse thread structure rotation type is bottom threaded rod 214 for distance adjustment mechanism and reverse thread structure rotation type distance adjustment mechanism for top threaded rod 215 all is provided with reverse thread structure rotation type distance adjustment mechanism in opposite end inside and uses spacing hole 216, two reverse thread structure rotation type distance adjustment mechanism inserts a reverse thread structure rotation type distance adjustment mechanism for spacing rod 217 with the inside of spacing hole 216, reverse thread structure rotation type distance adjustment mechanism is installed reverse thread structure rotation type distance adjustment mechanism for bottom threaded rod 214 and reverse thread structure rotation type distance adjustment mechanism for the other both ends of top threaded rod 215 respectively and is used first connecting plate 218 and reverse thread structure rotation type distance adjustment mechanism for second connecting plate 219, reverse thread structure rotation type distance adjustment mechanism for first connecting plate 218 and reverse thread structure rotation type distance adjustment mechanism for the inside of second connecting plate 219 be provided with reverse thread structure A first bolt hole 2110 for a rotary distance adjustment mechanism and a second bolt hole 2111 for a rotary distance adjustment mechanism of a reverse thread structure; the thread structure 213 for the reverse thread structure rotary distance adjusting mechanism includes an internal thread structure provided on the inner wall of the thread sleeve 211 for the reverse thread structure rotary distance adjusting mechanism and an external thread structure provided on the rod body of the bottom threaded rod 214 for the reverse thread structure rotary distance adjusting mechanism and the top threaded rod 215 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 214 for the reverse thread structure rotary distance adjusting mechanism and the top threaded rod 215 for the reverse thread structure rotary distance adjusting mechanism are opposite; the cross section structural shape of the limiting hole 216 for the reverse thread structure rotary distance adjusting mechanism and the cross section structural shape of the limiting rod 217 for the reverse thread structure rotary distance adjusting mechanism are both triangular structures, and the ends of the first bolt hole 2110 for the reverse thread structure rotary distance adjusting mechanism and the second bolt hole 2111 for the reverse thread structure rotary distance adjusting mechanism are mounted at the movable end of the movable hinge 22 through bolts.

The specific use mode is as follows: during the operation of the invention, an outer hexagonal protrusion structure in the tail driving device for collecting particulate matters in a centralized manner is arranged inside an inner hexagonal groove structure 4 in the device, the transverse control position of the device is controlled by the tail driving device for collecting particulate matters in a centralized manner, the rotating direction of a main helical blade 20 is controlled by a driving motor 12, the particulate matters can move upwards through the main helical blade 20 when the device rotates in the forward direction, then a rotating distance adjusting mechanism 21 of a reverse thread structure is controlled, the inclination degree between the bottom end of a main rectangular hollow shell 9 and a collecting interface is adjusted, the particulate matters can be discharged through a main discharge pipeline 16 under the action of the main helical blade 20 when the device operates, and at the moment, a storage tank is placed at the bottom of the main discharge pipeline 16.

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.