阅读说明：本技术 一种环保型有机硅生产线 (Environment-friendly organosilicon production line ) 是由 陈华 邓惠山 于 2021-08-26 设计创作，主要内容包括：本发明提供一种环保型有机硅生产线,涉及有机硅领域,以解决现有有机硅生产线的颚式破碎机在使用的时候,无法逐次推料进入,同时进料太多容易出现卡机的现象,影响设备使用寿命的问题,包括颚式破碎机的下线设有旋风磨,旋风磨的下线设有裂解釜,裂解釜的下线设有脱低塔,脱低塔的下线设有产品塔,颚式破碎机；所述颚式破碎机的侧边固定连接有存储件；存储件,所述存储件包括有滑动机构。移动板可以接收颚式破碎机的动力逐次移动,通过底部的底槽推动物料逐次推入到颚式破碎机的内部,同时移动板可以通过控制杆外侧的弹簧上下移动,使物料可以被有效的接触推动位移,使颚式破碎机可以逐次破碎物料,避免出现卡机的现象。(The invention provides an environment-friendly organic silicon production line, which relates to the field of organic silicon and aims to solve the problems that when a jaw crusher of the existing organic silicon production line is used, the jaw crusher cannot push materials to enter one by one, and simultaneously, too much feeding is easy to cause the phenomenon of blocking, so that the service life of equipment is influenced; the side edge of the jaw crusher is fixedly connected with a storage piece; a storage member including a sliding mechanism. The movable plate can receive jaw breaker's power and remove one by one, promotes the inside that the material pushed jaw breaker one by one through the kerve of bottom, and the movable plate can reciprocate through the spring in the control lever outside simultaneously, makes the material can be promoted the displacement by effectual contact, makes jaw breaker can break the material one by one, avoids appearing the phenomenon of card machine.)

1. An environment-friendly organosilicon production line, which is characterized by comprising:

a cyclone mill (2) is arranged on the lower line of the jaw crusher (1), a cracking kettle (3) is arranged on the lower line of the cyclone mill (2), a lower removing tower (4) is arranged on the lower line of the cracking kettle (3), and a product tower (5) is arranged on the lower line of the lower removing tower (4);

a jaw crusher (1);

the side edge of the jaw crusher (1) is fixedly connected with a storage part (6); the storage part (6) comprises a sliding mechanism, the sliding mechanism is installed on the side edge of the storage part (6), the storage part (6) is of a rectangular structure, the bottom end inside the storage part (6) is of an inclined structure, supporting parts are arranged at the bottom and the side edge of the bottom of the storage part (6), and a discharge hole is formed in the inner side of the bottom of the storage part (6); the movable plate (7) is of a T-shaped plate structure, four round holes are formed in the corner positions of two sides of the movable plate (7), and a control rod (606) is inserted into each round hole.

2. The environmentally friendly silicone production line of claim 1, wherein the jaw crusher (1) comprises:

the pushing piece (101), the pushing piece (101) is of an arc-shaped plate-shaped structure, and the pushing piece (101) is arranged inside the jaw crusher (1); the jaw crusher comprises four slots (102), the four slots (102) are rectangular in structure, and the four slots (102) are arranged on two sides of the top end of the jaw crusher (1).

3. The environmentally friendly silicone production line of claim 1, wherein the jaw crusher (1) further comprises:

the mounting piece (103), the mounting piece (103) is of a U-shaped plate structure, and the mounting piece (103) is located at the top end of the jaw crusher (1);

the four insertion rods (104) are arranged at two ends of the bottom of the mounting piece (103), and the insertion rods (104) are inserted into the slots (102).

4. The environmentally friendly silicone production line of claim 1, wherein the jaw crusher (1) further comprises:

the guide plate (105), the guide plate (105) is a T-shaped plate structure, and the guide plate (105) is arranged in the middle of the side edge of the mounting part (103); the guide block (106), guide block (106) are the rectangle structure, and the side of guide block (106) is slope column structure, and the outer end of guide block (106) is equipped with the rectangular channel, and guide block (106) are established at the side both ends of deflector (105).

5. The environmentally friendly silicone production line of claim 1, wherein the storage member (6) comprises:

the guide plates (601), the guide plates (601) are of T-shaped plate structures, and the guide plates (601) are arranged on two sides of the interior of the storage part (6);

the bottom of the guide groove (602) is of a rectangular structure, the top end of the guide groove (602) is of an inclined structure, a round hole is formed in the top end of the guide groove (602), and the guide groove (602) is formed in two sides of the inner side of the storage part (6).

6. The environmentally friendly silicone production line of claim 1, wherein the storage member (6) further comprises:

the connecting plate (603), the connecting plate (603) is a U-shaped plate structure, the connecting plate (603) is fixed on the side of the storage element (6); the side grooves (604) are T-shaped structures, and the side grooves (604) are arranged on two sides of the connecting plate (603).

7. The environment-friendly silicone production line of claim 1, wherein the sliding mechanism comprises:

the outer end of the sliding block (605) is of a wedge-shaped structure, the inner end of the sliding block (605) is of a T-shaped structure, and the inner end of the sliding block (605) is embedded in the side groove (604);

the control rod (606), control rod (606) is protruding cylindrical structure in the middle, and control rod (606) is fixed in the top of slider (605), and the bottom outside cover of control rod (606) is equipped with the spring.

8. The environmentally friendly silicone production line of claim 1, wherein the moving plate (7) comprises:

the bottom groove (701), the bottom groove (701) is a wedge-shaped structure, and the bottom grooves (701) are uniformly arranged at the bottom of the moving plate (7); the connecting groove (702) is of a T-shaped structure, the connecting groove (702) is arranged in the middle of the inner end of the moving plate (7), and the guide plate (105) is embedded in the connecting groove (702).

9. The environmentally friendly silicone production line of claim 1, wherein the moving plate (7) further comprises:

the side groove (703) is of a rectangular structure, the side edge of the side groove (703) is of an inclined structure, a rectangular block is arranged inside the side groove (703), the side groove (703) is arranged on two sides of the inner end of the moving plate (7), and a guide block (106) is inserted into the side groove (703); the pull rod (704), pull rod (704) are L shape structure, and pull rod (704) is fixed in the top outer end both sides of movable plate (7).

10. The environmentally friendly silicone production line of claim 1, wherein the moving plate (7) further comprises:

the bottom of the push plate (705) is of a rectangular structure, the push plate (705) is inserted into the guide groove (602), the side edge of the top end of the push plate (705) is of a triangular structure, a rectangular groove is formed in the inner end of the push plate (705), a pull rod (704) is inserted into the rectangular groove, a T-shaped groove is formed in the bottom of the outer end of the push plate (705), and a guide plate (601) is inserted into the T-shaped groove;

the contact element (706) is of a U-shaped structure, a cross bar is arranged inside the contact element (706), the contact element (706) is composed of a diamond-shaped rod, and the contact element (706) is fixed at the top end of the push plate (705); connector (707), connector (707) are T shape structure, and the inside of connector (707) is equipped with the rectangular channel, and pull rod (704) have been inserted to the rectangular channel inside, and the outer end of connector (707) is passed through the round bar and is connected with contact (706), and the round bar outside cover of connector (707) is equipped with the spring, and the round bar of connector (707) inserts inside the round hole on guide slot (602) top.

Technical Field

The invention belongs to the technical field of organic silicon, and particularly relates to an environment-friendly organic silicon production line.

Background

When the adhesive is produced, a jaw crusher is generally needed in the production line of products such as epoxy resin, polyurethane organic silicon and the like, and then the raw materials are subjected to primary processing through the jaw crusher.

For example, application No.: relate to a jaw crusher among CN202011531738.2, including jaw crusher's organism, setting decide the jaw on the organism, set up and move the jaw on the organism, decide the jaw and move and form broken chamber between the jaw, it has seted up the hole of stepping down to move the jaw on deciding jaw one side lateral wall towards, it is provided with the carriage release lever to step down the activity grafting on the hole, be provided with on the tip of carriage release lever and move the jaw, it is provided with expanding spring to move jaw towards deciding jaw one side lateral wall on, expanding spring one end fixed connection is on moving the jaw, it is provided with a conflict section of thick bamboo to move fixed on the jaw, it contacts with a conflict section of thick bamboo to move the jaw, and this application has the effect that reduces the material and skid.

The jaw crusher of current organosilicon production line can't push away the material one by one and get into when using, and the phenomenon of card machine appears too much easily in the feeding simultaneously, influences equipment life, and the jaw crusher of current organosilicon production line when using, can't carry out the preliminary treatment with the raw materials, can't make the raw materials carry out cracked in advance.

Disclosure of Invention

In order to solve the technical problems, the invention provides an environment-friendly organic silicon production line, which aims to solve the problems that when a jaw crusher of the existing organic silicon production line is used, the jaw crusher cannot push materials to enter one by one, too much material is fed, the phenomenon of blocking is easy to occur, the service life of equipment is influenced, and when the jaw crusher of the existing organic silicon production line is used, raw materials cannot be pretreated, and the raw materials cannot be cracked in advance.

The invention relates to an environment-friendly organic silicon production line, which is achieved by the following specific technical means:

an environment-friendly organosilicon production line, includes: the lower line of the jaw crusher is provided with a cyclone mill, the lower line of the cyclone mill is provided with a cracking kettle, the lower line of the cracking kettle is provided with a lower removing tower, and the lower line of the lower removing tower is provided with a product tower; a jaw crusher; the side edge of the jaw crusher is fixedly connected with a storage piece; the storage part comprises a sliding mechanism, the sliding mechanism is installed on the side edge of the storage part, the storage part is of a rectangular structure, the bottom end inside the storage part is of an inclined structure, supporting parts are arranged at the bottom and the side edge of the bottom of the storage part, and a discharge hole is formed in the inner side of the bottom of the storage part; the movable plate is of a T-shaped plate structure, four round holes are formed in the corner positions of two sides of the movable plate, and control rods are inserted into the round holes.

Further, the jaw crusher comprises: the pushing piece is of an arc-shaped plate-shaped structure and is arranged inside the jaw crusher; the four slots are arranged on two sides of the top end of the jaw crusher; the jaw crusher further comprises: the mounting piece is of a U-shaped plate structure and is positioned at the top end of the jaw crusher; the four insertion rods are arranged at two ends of the bottom of the mounting piece and inserted into the slots; the jaw crusher further comprises: the guide plate is of a T-shaped plate structure and is arranged in the middle of the side edge of the mounting piece; the guide block is of a rectangular structure, the side edge of the guide block is of an inclined structure, the outer end of the guide block is provided with a rectangular groove, and the guide block is arranged at two ends of the side edge of the guide plate.

Further, the storage member includes: the guide plates are of T-shaped plate structures and are arranged on two sides of the interior of the storage part; the bottom of the guide groove is of a rectangular structure, the top end of the guide groove is of an inclined structure, the top end of the guide groove is provided with a round hole, and the guide grooves are arranged on two sides of the inner side of the storage part; the storage element further comprises: the connecting plate is of a U-shaped plate structure and is fixed on the side edge of the storage element; the side grooves are of T-shaped structures and are arranged on two sides of the connecting plate; the slide mechanism includes: the outer end of the sliding block is of a wedge-shaped structure, the inner end of the sliding block is of a T-shaped structure, and the inner end of the sliding block is embedded into the side groove; the control rod is of a cylindrical structure with a convex middle part and is fixed at the top end of the sliding block, and a spring is sleeved on the outer side of the bottom of the control rod.

Further, the moving plate includes: the bottom grooves are of wedge-shaped structures and are uniformly arranged at the bottom of the moving plate; the connecting groove is of a T-shaped structure, is formed in the middle of the inner end of the moving plate, and is internally embedded with the guide plate; the moving plate further includes: the side groove is of a rectangular structure, the side edge of the side groove is of an inclined structure, a rectangular block is arranged inside the side groove, the side groove is arranged on two sides of the inner end of the moving plate, and a guide block is inserted into the side groove; the pull rod is of an L-shaped structure and is fixed on two sides of the outer end above the moving plate; the moving plate further includes: the bottom of the push plate is of a rectangular structure, the push plate is inserted into the guide groove, the side edge of the top end of the push plate is of a triangular structure, a rectangular groove is formed in the inner end of the push plate, a pull rod is inserted into the rectangular groove, a T-shaped groove is formed in the bottom of the outer end of the push plate, and a guide plate is inserted into the T-shaped groove; the contact element is of a U-shaped structure, a cross rod is arranged inside the contact element, the contact element consists of a diamond rod, and the contact element is fixed at the top end of the push plate; the connector, the connector is T shape structure, and the inside of connector is equipped with the rectangular channel, and the pull rod has been inserted to the rectangular channel inside, and the outer end of connector is passed through the round bar and is connected with the contact, and the round bar outside cover of connector is equipped with the spring, and the round bar of connector inserts inside the round hole on guide slot top.

Compared with the prior art, the invention has the following beneficial effects:

1. in the device, the movable plate is arranged and is in sliding connection with the mounting piece, so that the jaw crusher can drive the movable plate to move back and forth when in operation, materials can be contacted with the movable plate after being discharged from the inside of the storage piece, the movable plate can receive the power of the jaw crusher to move gradually, the materials are pushed into the jaw crusher gradually through the bottom groove at the bottom, and meanwhile, the movable plate can move up and down through the spring on the outer side of the control rod, so that the materials can be effectively contacted to push the displacement, the jaw crusher can crush the materials gradually, the phenomenon of blocking is avoided, meanwhile, the movable plate receives the power operation of the jaw crusher, the cost can be effectively saved, and the service life of the jaw crusher is prevented from being influenced;

2. in this device, the contact has been set up, the movable plate is when the operation, can be through pull rod pulling catch plate back-and-forth movement, make the contact can be driven the displacement, make the material enter into storage piece inside after, the operation of jaw breaker, make the contact can carry out the preliminary treatment to the material in the inside of storage piece, and then make the raw materials can be cracked in advance, reduce the volume of material, make the material can be convenient through discharging, the corner position that can repair the material simultaneously, make the material remove more smoothly.

Drawings

FIG. 1 is a schematic view of the flow structure of the production line of the present invention.

Fig. 2 is a schematic perspective view of the jaw crusher of the present invention.

Fig. 3 is an exploded perspective view of the jaw crusher of the present invention.

Fig. 4 is an exploded bottom view of the jaw crusher of the present invention.

Fig. 5 is a schematic view of an exploded structure of the jaw crusher of the present invention.

Fig. 6 is a schematic perspective view of the moving plate assembly of the present invention.

Fig. 7 is a schematic view of a cross-sectional perspective structure of a storage member of the present invention.

Fig. 8 is a schematic bottom view of the moving plate of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a jaw crusher; 101. a pusher member; 102. a slot; 103. a mounting member; 104. inserting a rod; 105. a guide plate; 106. a guide block; 2. cyclone milling; 3. a cracking kettle; 4. removing the low tower; 5. a product tower; 6. a storage member; 601. a guide plate; 602. a guide groove; 603. a connecting plate; 604. a side groove; 605. a slider; 606. a control lever; 7. moving the plate; 701. a bottom groove; 702. connecting grooves; 703. a side groove; 704. a pull rod; 705. a push plate; 706. a contact member; 707. a connecting head.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 8:

the invention provides an environment-friendly organic silicon production line, which comprises a jaw crusher 1, wherein an off-line of the jaw crusher is provided with a cyclone mill 2, an off-line of the cyclone mill 2 is provided with a cracking kettle 3, an off-line of the cracking kettle 3 is provided with a lower removing tower 4, and an off-line of the lower removing tower 4 is provided with a product tower 5; a jaw crusher 1; the side edge of the jaw crusher 1 is fixedly connected with a storage part 6; the storage part 6 comprises a sliding mechanism, the sliding mechanism is installed on the side edge of the storage part 6, the storage part 6 is of a rectangular structure, the storage part 6 plays a role in temporarily storing materials, the materials can be gradually discharged, a large number of materials are prevented from being discharged simultaneously, the phenomenon of blocking is avoided, the bottom end inside the storage part 6 is of an inclined structure, supporting parts are arranged at the bottom and the side edge of the bottom of the storage part 6, and a discharge hole is formed in the inner side of the bottom of the storage part 6; the movable plate 7 is of a T-shaped plate structure, four round holes are formed in the corner positions on two sides of the movable plate 7, the control rod 606 is inserted into the round holes, the movable plate 7 plays a role in receiving power movement of the jaw crusher 1, and then materials are pushed to enter the jaw crusher 1 one by one, so that the phenomenon of blocking is avoided.

As shown in fig. 8, the moving plate 7 further includes: the bottom of the push plate 705 is of a rectangular structure, the push plate 705 is inserted into the guide groove 602, the side edge of the top end of the push plate 705 is of a triangular structure, a rectangular groove is formed in the inner end of the push plate 705, the pull rod 704 is inserted into the rectangular groove, the push plate 705 plays a role in receiving power movement of the moving plate 7 and further moves inside the storage piece 6, a T-shaped groove is formed in the bottom of the outer end of the push plate 705, and the guide plate 601 is inserted into the T-shaped groove; the contact element 706 is in a U-shaped structure, a cross rod is arranged inside the contact element 706, the contact element 706 is composed of a diamond rod, the contact element 706 plays a role in receiving the power movement of the push plate 705, and further assists in crushing materials, so that the materials pass through the contact element in a smaller size, the trafficability characteristic is higher, and the contact element 706 is fixed at the top end of the push plate 705; connector 707, connector 707 is T shape structure, the inside of connector 707 is equipped with the rectangular channel, the pull rod 704 has been inserted to the rectangular channel inside, the outer end of connector 707 is connected with contact 706 through the round bar, the round bar outside cover of connector 707 is equipped with the spring, the round bar of connector 707 inserts inside the round hole on guide slot 602 top, connector 707 has played the effect of being connected with pull rod 704, and then supplementary receipt power displacement.

As shown in fig. 5, wherein the jaw crusher 1 comprises: the pushing piece 101 is of an arc-shaped plate-shaped structure, and the pushing piece 101 is arranged inside the jaw crusher 1; the four slots 102 are arranged on two sides of the top end of the jaw crusher 1, and the four slots 102 are rectangular in structure, the four slots 102 play a role in inserting and installing the insertion rod 104, so that the insertion rod 104 can move in the insertion rod 102; the jaw crusher 1 further comprises: the mounting part 103 is of a U-shaped plate structure, the mounting part 103 drives the guide plate 105 and the guide block 106 to move under stress, and the mounting part 103 is located at the top end of the jaw crusher 1; the four insertion rods 104 are arranged at two ends of the bottom of the mounting part 103, and the insertion rods 104 are inserted into the slots 102; the jaw crusher 1 further comprises: the guide plate 105, the guide plate 105 is a T-shaped plate structure, the guide plate 105 is arranged in the middle of the side edge of the mounting part 103; the guide block 106 is rectangular, the side edge of the guide block 106 is an inclined structure, a rectangular groove is formed in the outer end of the guide block 106, the guide block 106 is arranged at two ends of the side edge of the guide plate 105, the guide plate 105 and the guide block 106 play a role in being connected with the moving plate 7, the moving plate 7 can receive power pushed forwards and backwards, and when the moving plate is moved by up and down stress, the moving plate 7 cannot be influenced in displacement.

As shown in fig. 7, wherein the storage member 6 includes: the guide plate 601, the guide plate 601 is a T-shaped plate structure, the guide plate 601 is arranged on both sides of the inside of the storage element 6, the guide plate 601 plays a role of connecting with the push plate 705, and further assists in supporting the push plate 705; the bottom of the guide groove 602 is rectangular, the top end of the guide groove 602 is inclined, a circular hole is formed in the top end of the guide groove 602, and the guide groove 602 is formed in two sides of the inner side of the storage part 6; the storage member 6 further comprises: the connecting plate 603 is of a U-shaped plate structure, the connecting plate 603 is fixed to the side edge of the storage element 6, and the connecting plate 603 plays a role in being connected with the jaw crusher 1 for use; the side grooves 604 are T-shaped, the side grooves 604 are arranged on two sides of the connecting plate 603, and the side grooves 604 play a role in mounting the sliding block 605; the slide mechanism includes: the outer end of the sliding block 605 is in a wedge-shaped structure, the inner end of the sliding block 605 is in a T-shaped structure, the sliding block 605 plays a role of installing the moving plate 7 through the control rod 606 and the spring, so that the moving plate 7 can move up and down while moving back and forth, the spring power is effectively received to move downwards, the material can be effectively pushed to move, and the inner end of the sliding block 605 is embedded into the side groove 604; the control rod 606, the control rod 606 is a cylindrical structure with a convex middle, the control rod 606 is fixed on the top end of the sliding block 605, and the outer side of the bottom of the control rod 606 is sleeved with a spring.

As shown in fig. 8, the moving plate 7 includes: the bottom grooves 701 are of wedge-shaped structures, the bottom grooves 701 are uniformly arranged at the bottom of the moving plate 7, and the bottom grooves 701 have the effect of auxiliary contact with materials so as to push the materials to move rapidly; the connecting groove 702 is of a T-shaped structure, the connecting groove 702 is arranged in the middle of the inner end of the moving plate 7, the connecting groove 702 and the side groove 703 play a role in connecting with the guide plate 105 and the guide block 106, so that the moving plate 7 can be displaced when being pulled left and right, the moving plate 7 cannot be influenced when the mounting piece 103 moves up and down along with the pushing piece 101, and the guide plate 105 is embedded into the connecting groove 702; the moving plate 7 further includes: the side groove 703 is rectangular, the side groove 703 is of an inclined structure, a rectangular block is arranged inside the side groove 703, the side groove 703 is arranged on two sides of the inner end of the moving plate 7, and the guide block 106 is inserted into the side groove 703; the pull rod 704 is in an L-shaped structure, the pull rod 704 is fixed on two sides of the outer end above the moving plate 7, and the pull rod 704 plays a role in connecting the push plate 705 and the connector 707, so that the push plate 705 is not influenced when the moving plate 7 moves up and down, and the push plate 705 can be pulled when the moving plate 7 moves left and right.

When in use: when the device is required to be used, a tool can be used to control materials to be added into the storage part 6 through manpower, then a control switch of the jaw crusher 1 is opened, the jaw crusher 1 drives the pushing part 101 and the mounting part 103 to move, so that the mounting part 103 can enable the guide plate 105 and the guide block 106 to slide in the connecting groove 702 and the side groove 703 when moving up and down, and further the moving plate 7 cannot be driven to move, when the mounting part 103 receives the front and back power of the pushing part 101, the moving plate 7 can be driven to move back and forth, when the moving plate 7 moves, the pushing plate 705 and the connector 707 can be pulled to move, so that the contact part 706 can be stressed to preprocess the materials, the materials can be crushed into small blocks in advance, and simultaneously move downwards in the storage part 6, so that the materials can be discharged through the discharge port and then enter the moving plate 7, the moving plate 7 is connected with the bottom groove 701 to be in contact with the material, the material can be pushed to move, and then the moving frequency of the pushing piece 101 is moved, the material can be pushed to enter the jaw crusher 1 one by one, the jaw crusher 1 can crush the material one by one, the entering of the larger material is avoided, or the larger material is entered to cause jamming, so that the jaw crusher 1 cannot operate and the service life is influenced, after the material is processed, the material is sent to the cyclone mill 2, the material can be ground into silica powder by the cyclone mill 2, after the silica powder is processed, hydrolysate enters the cracking kettle 3 after standing and draining, then the hydrolysate enters the product tower 5 to obtain the product after further processing through the lowering tower 4.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.