CN112061694B

CN112061694B - Anti-galloping structure of long-distance transportation belt type transmission line and use method

Info

Publication number: CN112061694B
Application number: CN202011087635.1A
Authority: CN
Inventors: 刘新贺; 彭保臣
Original assignee: Anhui Deji Huijin Machinery Technology Co ltd
Current assignee: Anhui Deji Huijin Machinery Technology Co ltd
Priority date: 2020-10-13
Filing date: 2020-10-13
Publication date: 2022-02-01
Anticipated expiration: 2040-10-13
Also published as: CN112061694A

Abstract

The invention discloses an anti-galloping structure of a long-distance conveying belt type transmission line and a using method thereof, wherein the anti-galloping structure comprises a first side lath and a second side lath, a conveying adhesive tape is arranged at the middle position between the first side lath and the second side lath, which is close to the lower side, a plurality of groups of retraction leg columns are arranged at the middle positions of the lower end surfaces of the first side lath and the second side lath, inner grooves are arranged at the middle positions of the two end surfaces of the retraction leg columns, and telescopic column legs are inserted at the middle positions of the upper end surfaces of the retraction leg columns; the invention can ensure the accuracy and stability of horizontal inclination angle adjustment by utilizing the tight occlusion between teeth, avoid the inclination angle deflection phenomenon of the movable conveying mechanism in the use process, ensure the normal use of the mechanism, utilize the rubber leather strips to increase the friction force between the linkage conveying structure and the auxiliary wheel to form a double anti-skidding mechanism, avoid the skidding phenomenon between the conveying rubber belt and the linkage conveying structure, and ensure the stable conveying of materials by the linkage conveying structure.

Description

Anti-galloping structure of long-distance transportation belt type transmission line and use method

Technical Field

The invention belongs to the field of transport transmission lines, and particularly relates to an anti-galloping structure of a long-distance transport belt type transmission line and a using method thereof.

Background

The conveyor belts are generally classified according to the existence of a traction part, the conveyor belt equipment with the traction part and the conveyor belt equipment without the traction part are various, mainly comprise belt conveyors, plate conveyors, trolley conveyors, escalators, scraper conveyors, buried scraper conveyors, overhead cableways and the like, the common conveyor belt equipment without the traction part comprises rollers for rotating and a screw conveyor, and the deviation of the conveyor belt is one of the most common faults when the conveyor belt runs; the conveyer belt is except above-mentioned off tracking problem, still wear and tear often appears, the fish tail, overlap joint position fracture scheduling problem, the damage of conveyer belt has not only been accelerated to the appearance of these equipment problems, and cause the hourglass of material to spill and waste, after the conveyer belt equipment problem appears usually, most all through sewing up, heating vulcanization or scrap the renewal, the not fine solution equipment problem of these modes all, scrap the renewal and led to the fact the rise of equipment purchasing cost especially, in the use of past, the risk of driving can take place for the conveyer belt, need a structure that can effectively prevent this kind of thing from taking place for this reason, provide effective protection for the user.

Most of anti-galloping structures in the market do not have the function of accurately adjusting the horizontal inclination angle of a conveying rubber belt, the conveying rubber belt is prone to inclination angle deflection with a conveying mechanism, slipping between the conveying rubber belt and a linkage conveying structure is prone to occurring, and stable conveying of materials by the linkage conveying structure cannot be guaranteed.

Disclosure of Invention

The invention aims to provide an anti-galloping structure of a long-distance conveying belt type transmission line and a using method thereof, and aims to solve the problems that most of the anti-galloping structures in the market proposed in the background technology do not have the function of accurately adjusting the horizontal inclination angle of a conveying rubber belt, the conveying rubber belt is easy to deflect with the conveying mechanism at the inclination angle, the conveying rubber belt is easy to slip with a linkage conveying structure, and the linkage conveying structure cannot ensure stable conveying of materials.

In order to achieve the purpose, the invention provides the following technical scheme: an anti-galloping structure of a long-distance conveying belt type conveying line and a using method thereof comprise a first side plate strip and a second side plate strip, wherein a conveying adhesive tape is arranged at the middle position between the first side plate strip and the second side plate strip and close to the lower side, a plurality of groups of retraction leg columns are arranged at the middle positions of the lower end surfaces of the first side plate strip and the second side plate strip, inner grooves are formed in the middle positions of the two end surfaces of the retraction leg columns, extension column legs are inserted in the middle positions of the upper end surfaces of the retraction leg columns, an inclined foot device is fixedly connected to the upper end surfaces of the extension column legs, a transverse plate support I is arranged at the middle position between the two groups of retraction leg columns and close to the lower side, a transverse plate support II is arranged at the lower end of the conveying adhesive tape and behind the transverse plate support I, a group of longitudinal support plates is arranged between the transverse plate support I and the support II, and a group of longitudinal support plates are arranged between the transverse plate support II, wherein the retraction leg columns, the extension column legs and the inclined foot devices jointly form a movable support structure, the first side lath, the second side lath and the conveying adhesive tape jointly form a movable conveying mechanism, and the movable conveying mechanism is matched with the movable support frame structure through the telescopic column legs and the inclined foot devices to be installed in a lifting mode.

As a further scheme of the invention: the lower end surface intermediate position of second sideboard strip just corresponds with slope foot device and has set firmly a set of structure that clamps, slope foot device is including fixed tooth structure that connects, the right side of fixed tooth structure that connects is provided with manual adjustment mechanism, the downside of fixed tooth structure that connects just is located the upper end surface of flexible column leg and has set firmly the fixed ring cylinder, the guiding groove has been seted up to the right-hand member surface intermediate position of flexible column leg, flexible column leg passes through fixed ring cylinder, fixed tooth structure and clamps the structure cooperation and second sideboard strip fixed mounting, and wherein manual adjustment mechanism connects tooth structure rotation mounting through clamping the structure and fixed ring cylinder cooperation and fixed.

As a further scheme of the invention: the fixed tooth connecting structure comprises a fixed connecting column, a rear fluted disc is fixedly arranged at the middle position of the front end surface of the fixed connecting column, an inserting rod groove is formed at the middle position of the front end surface of the rear fluted disc, a plurality of groups of first meshing engaged teeth are uniformly and fixedly arranged on the front end surface of the rear fluted disc close to the edge position, a tooth socket is formed between every two groups of the first meshing engaged teeth, the manual adjusting mechanism comprises a connecting rotating rod, a front fluted disc is fixedly connected to the left end surface of the connecting rotating rod, a plurality of groups of side engaged teeth are uniformly and fixedly arranged on the outer surface of the front fluted disc close to the edge position, a plurality of groups of second meshing engaged teeth are uniformly and fixedly arranged on the edge position of the front end surface of the front fluted disc, the fixed connecting column is fixedly arranged with a second side plate, the rear fluted disc is meshed with the front fluted disc through the matching of the first meshing engaged teeth and the second meshing engaged teeth, and the front fluted disc is butt-jointed with the rear fluted disc through the matching of the connecting rotating rod groove and the inserting rod groove, wherein the second engaging teeth are arranged to engage with the first engaging teeth via tooth grooves.

As a further scheme of the invention: the clamping structure comprises a front clamping ring, a plurality of groups of matching teeth are uniformly and fixedly arranged on the surface of the inner side wall of the front clamping ring, a rear clamping ring is fixedly arranged at the left end of the front clamping ring and at the middle position of the lower end surface of the second side plate strip, an embedding ring groove is formed in the middle position of the outer surface of the rear clamping ring in a penetrating mode, a manual rotating rod is connected to the surface of the right end of the rotating rod in a connecting mode, the manual rotating rod is fixedly connected with the front gear plate through the connecting rotating rod, the front gear plate is installed in a meshing mode through side clamping teeth and matching teeth, the fixed connecting teeth structure is installed in a clamping mode through the embedding ring groove and the rear clamping ring, the front clamping ring and the rear clamping ring form the clamping structure together, and the manual adjusting mechanism is installed in a rotating mode through the front clamping ring and the second side plate strip.

As a further scheme of the invention: the fixed ring cylinder comprises a counter rotating column, a rotating column ring groove is arranged in the middle of the upper end surface of the counter rotating column, a middle-mounted meshing ring is fixedly connected to the right end surface of the counter rotating column, a plurality of groups of meshing racks are uniformly and fixedly arranged in the middle of the surface of the inner side wall of the middle-mounted meshing ring, a closing disc is fixedly connected at the right end of the middle meshing ring, a plugging ring is arranged on the outer surface of the closing disc in a penetrating way near the middle position of the right side, the fixed tooth-connecting structure is matched with and embedded with the rotary columns through the fixed connecting column, the rear fluted disc and the rotary column ring groove, the fixed ring column body comprises the rotary columns, the middle-arranged meshing ring and the closing disc, the manual adjusting mechanism is matched with the closing disc through the front fluted disc and the middle-arranged meshing ring and the connecting rotating rod and is rotatably installed with the fixed ring column body, wherein, the front fluted disc is engaged with the middle meshing ring through the matching of the side biting teeth and the meshing rack, and the manual rotating rod is engaged with the closed disc through the matching of the connecting rotating rod and the plugging ring.

As a further scheme of the invention: the middle position of the right end surface of the second side plate strip is close to the front side and is provided with an annular groove, the inner part of the second side plate strip is positioned at the middle position of the inner side of the annular groove and is provided with a motor, the middle position of the left end surface of the motor is provided with a rotating rod, the outer surface of the rotating rod is close to the left side and is fixedly provided with a rotating wheel head, a driving rod is arranged between the first side plate strip and the second side plate strip and is positioned at the inner side of the conveying adhesive tape, the outer surface of the driving rod is sleeved with a splicing collar close to the left side, an auxiliary roller is arranged between the first side plate strip and the second side plate strip and is positioned at the inner side of the conveying adhesive tape, a plurality of groups of jacks are uniformly arranged at the middle position of one side surface of the first side plate strip and the second side plate strip, the driving rod, the splicing collar and the auxiliary roller jointly form a linkage conveying structure, and the conveying adhesive tape is movably installed with the motor through the cooperation of the linkage conveying structure and the rotating rod, wherein the driving rod is rotatably installed with the first side lath through the matching of the inserting shaft collar and the inserting hole, and the motor is installed with the driving rod in a butt joint mode through the matching of the circular groove and the rotating rod.

As a further scheme of the invention: the inboard surface equidistance of conveying sticky tape has set firmly the first rubber leather strap of a plurality of groups, the inboard surface cover that just is located the runner head of second limit lath is equipped with the belt, the surface of belt is close to the inboard surface and is provided with a plurality of groups and assists the driving wheel, the inboard surface equidistance of belt has set firmly a plurality of groups second rubber leather straps, the inboard intermediate position that returns the inside of leg and be located the inner groovy that contracts has set firmly the inner convex body, the flexible groove has been seted up to the upper end surface intermediate position that returns the leg, and wherein conveying sticky tape is through first rubber leather strap, driving rod and assist the cooperation of driving roll and the inseparable installation of linkage conveying structure.

As a further scheme of the invention: the motor sets up with the assistance roller interlock through runner head, belt and assistance wheel cooperation, and wherein the belt passes through second rubber leather strap and assistance wheel laminating installation, and flexible column leg passes through flexible groove and interior convex body cooperation and the flexible installation of the leg post that contracts, and wherein flexible column leg passes through guiding groove and interior convex body gomphosis installation, and the diaphragm props one, and the diaphragm props two and vertical fagging constitutes stable strut mechanism jointly, and it is through retracting leg post and interior concave groove cooperation and activity strut structure slidable mounting.

A use method of an anti-galloping structure of a long-distance transportation belt type transmission line comprises the following specific steps:

the method comprises the following steps: the method comprises the steps of firstly, stabilizing the vertical position of a support frame mechanism and a movable support frame structure in a sliding mode through up-down sliding mode to adjust the overall stability of the movable support frame structure, then, rotating a manual adjusting mechanism according to the specific operation terrain to change the horizontal meshing angle of the manual adjusting mechanism and a fixed connecting tooth structure, adjusting the inclination angle of a movable conveying mechanism and the horizontal plane to determine the inclination angle of downward transportation, starting a motor, driving a driving rod and an auxiliary roller to run together through a belt under the matching of a rotating rod and a rotating wheel head, and realizing the normal starting and running of the conveying adhesive tape through the operation.

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

1. by arranging the inclined foot device, the front fluted disc and the rear fluted disc are driven to relatively rotate by the connecting rotating rod through manually rotating the manual rotating rod, the front fluted disc drives the second side plate fixedly connected with the upper part of the fixed connecting tooth structure to integrally incline at the inner side of the inclined foot device by utilizing the meshing installation of the side engaging teeth and the meshing rack at the inner side of the middle engaging ring and the meshing installation of the side engaging teeth and the matching teeth at the inner side of the front engaging ring, the inclined angle of the movable conveying mechanism and the horizontal plane can not be extruded and dislocated by huge load borne by a conveyed object when the inclined angle of the movable conveying mechanism and the horizontal plane is adjusted by utilizing the tight engagement between the teeth and the meshing installation between the second engaging teeth and the first engaging teeth, the accuracy and the stability of horizontal inclined angle adjustment are ensured, and the inclined angle of the movable conveying mechanism is prevented from deflecting in the use process, ensuring the normal use of the mechanism.

2. Through being provided with first rubber leather strap and second rubber leather strap, the conveying sticky tape utilizes first rubber leather strap cover to establish and installs on linkage transport structure, and the leather strap passes through second rubber leather strap and closely overlaps with the auxiliary wheel and establish and the interlock sets up at second sideboard strip inboardly, utilize rubber leather strap increase and linkage transport structure and auxiliary wheel between the frictional force, form dual anti-skidding mechanism with this between first sideboard strip and second sideboard strip, through the above-mentioned mode, effectively avoid the phenomenon of skidding between conveying sticky tape and the linkage transport structure, prevent from this that the phenomenon of flying a car takes place, ensure the steady transport of linkage transport structure to the material.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view showing the structure of the lower part of the second side panel of the present invention.

Fig. 3 is a schematic view of a combination structure of the fixed gear coupling structure and the manual adjusting mechanism in the invention.

Fig. 4 is a partial structural view of fig. 2.

Fig. 5 is a schematic view of a combination structure of a fixed tooth connecting structure and a fixed ring cylinder in the invention.

Fig. 6 is a schematic view of the internal structure of the transfer tape of the present invention.

Fig. 7 is a partial sectional view of the transfer tape of the present invention.

Fig. 8 is a schematic view of the internal structure of the second side panel of the present invention.

FIG. 9 is a schematic view of the structure of the auxiliary wheel in the present invention.

Figure 10 is a schematic view in partial cross-section of a retraction leg post and a telescoping leg of the present invention.

FIG. 1, a first side panel; 101. a second side panel; 2. conveying the adhesive tape; 3. retracting the leg; 301. an inner groove; 4. a telescopic column leg; 5. a tilt foot device; 6. a transverse plate supports one; 7. a second transverse plate support; 8. a longitudinal bracing plate; 9. a clamping structure; 510. fixing the tooth connecting structure; 511. a manual adjustment mechanism; 512. a stationary ring cylinder; 513. a guide groove; 1014. fixing and connecting the column; 1015. a rear fluted disc; 1016. a plug-in rod slot; 1017. a first meshing engagement tooth; 18. a tooth socket; 1019. connecting the rotating rod; 1020. a front fluted disc; 1021. side biting teeth; 1022. a second meshing engagement tooth; 923. a front snap ring; 924. matching teeth; 925. a clamp ring is arranged at the rear; 926. embedding the ring groove; 1127. a manual rotating rod; 1228. turning the columns; 1229. a rotary column ring groove; 1230. a meshing ring is arranged in the middle; 31. meshing the racks; 1232. a closing tray; 33. a plugging ring; 34. a circular groove; 35. a motor; 36. rotating the rotating rod; 37. a wheel head; 38. a driving lever; 39. a plug collar; 40. an auxiliary roller; 41. a jack; 42. a first rubber leather strip; 43. a belt; 44. an auxiliary wheel; 45. a second rubber leather strip; 46. an inner convex body; 47. a telescopic groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to 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.

As shown in fig. 1-10, an anti-galloping structure of a long-distance transportation belt type transmission line and a using method thereof comprise a first side plate strip 1 and a second side plate strip 101, a conveying adhesive tape 2 is arranged at the middle position between the first side plate strip 1 and the second side plate strip 101 close to the lower side, a plurality of groups of retraction leg columns 3 are arranged at the middle positions of the lower end surfaces of the first side plate strip 1 and the second side plate strip 101, inner grooves 301 are arranged at the middle positions of the two end surfaces of the retraction leg columns 3, a retraction column leg 4 is inserted in the middle position of the upper end surface of the retraction leg column 3, an inclined foot device 5 is fixedly connected to the upper end surface of the retraction column 4, a transverse plate support 6 is arranged at the middle position between the two groups of retraction leg columns 3 close to the lower side, a transverse plate support 7 is arranged at the lower end of the conveying adhesive tape 2 and at the rear side of the transverse plate support 6, a group of longitudinal transverse plate support 8 is arranged between the transverse plate support 6 and the transverse plate support 7, the retractable leg column 3, the retractable column leg 4 and the inclined foot device 5 jointly form a movable support frame structure, the first side lath 1, the second side lath 101 and the conveying adhesive tape 2 jointly form a movable conveying mechanism, and the movable conveying mechanism is matched with the inclined foot device 5 through the retractable column leg 4 and is installed with the movable support frame structure in a lifting mode.

A group of clamping structures 9 are fixedly arranged at the middle position of the lower end surface of the second side lath 101 and correspond to the inclined foot device 5, the inclined foot device 5 comprises a fixed connecting tooth structure 510, a manual adjusting mechanism 511 is arranged at the right side of the fixed connecting tooth structure 510, a fixed ring cylinder 512 is fixedly arranged at the lower side of the fixed connecting tooth structure 510 and positioned at the upper end surface of the telescopic column leg 4, a guide groove 513 is arranged at the middle position of the right end surface of the telescopic column leg 4, the telescopic column leg 4 is fixedly arranged with the second side lath 101 through the matching of the fixed ring cylinder 512, the fixed connecting tooth structure 510 and the clamping structures 9, wherein the manual adjusting mechanism 511 is rotatably arranged with the fixed connecting tooth structure 510 through the matching of the clamping structures 9 and the fixed ring cylinder 512, and under the matching of the clamping structures 9 and the fixed ring cylinder 512, the fixed connecting tooth structure 510 and the manual adjusting mechanism 511 are effectively clamped and fixedly arranged in the fixed connecting tooth structure to realize the function of horizontally conveying the inclined angle of the manual adjusting structure as a whole, by fitting the guide groove 513 and the inner protrusion 46, the retractable leg 3 and the retractable leg 4 are stably assembled.

The fixed tooth-connecting structure 510 includes a fixed connection column 1014, a rear toothed disc 1015 is fixedly arranged at the middle position of the front end surface of the fixed connection column 1014, an insertion rod slot 1016 is arranged at the middle position of the front end surface of the rear toothed disc 1015, a plurality of sets of first engaging teeth 1017 are uniformly and fixedly arranged at the front end surface of the rear toothed disc 1015 near the edge position, a tooth slot 18 is formed between each two sets of first engaging teeth 1017, a manual adjusting mechanism 511 includes a connecting rotating rod 1019, a front toothed disc 1020 is fixedly connected to the left end surface of the connecting rotating rod 1019, a plurality of sets of side teeth 1021 are uniformly and fixedly arranged at the outer surface of the front toothed disc 1020 near the edge position, a plurality of sets of second engaging teeth 1022 are uniformly and fixedly arranged at the edge position of the front end surface of the front toothed disc 1020, the fixed connection column 1014 is fixedly mounted with the second side lath 101, the rear toothed disc 1015 is engaged and mounted with the front toothed disc through the first engaging teeth 1017 and the second engaging teeth 1020, wherein the front toothed disc is in butt joint with the rear toothed disc 1015 through the connecting rotating rod 1019 and the insertion rod slot 1016, wherein the second engagement toothing 1022 is arranged in engagement with the first engagement toothing 1017 via the tooth gap 18.

The clamping structure 9 comprises a front occlusion ring 923, a plurality of sets of matching teeth 924 are uniformly and fixedly arranged on the surface of the inner side wall of the front occlusion ring 923, a rear occlusion ring 925 is fixedly arranged at the left end of the front occlusion ring 923 and positioned in the middle of the lower end surface of the second side slat 101, a embedding ring groove 926 is formed in the middle of the outer surface of the rear occlusion ring 925 in a penetrating manner, a manual rotating rod 1127 is connected to the right end surface of the connecting rotating rod 1019, the manual rotating rod 1127 is fixedly connected with the front toothed disc 1020 through the connecting rotating rod 1019, the front toothed disc 1020 is matched and meshed with the front occlusion ring 923 through the side teeth 1021 and the matching teeth 924, the fixed connecting tooth structure 510 is clamped and fixedly installed with the rear occlusion ring 925 through the embedding ring groove 926, the front occlusion ring 923 and the rear occlusion ring 925 jointly form the clamping structure 9, the manual adjusting mechanism 511 is rotatably installed with the second side slat 101 through the front occlusion ring 923 and passes through the embedding ring groove 926 formed on the inner side of the rear ring 925, the rear toothed disc 1015 is effectively embedded in the front toothed disc 1020, so that the front toothed disc and the rear toothed disc are stably arranged, and an effective meshing rotating space is provided for the meshing mechanism by utilizing a rotary column ring groove 1229 formed in the inner side of the rotary column 1228.

The fixed ring cylinder 512 comprises a pair of rotating columns 1228, a rotating column ring groove 1229 is arranged in the middle of the upper end surface of each rotating column 1228, a middle meshing ring 1230 is fixedly connected to the right end surface of each rotating column 1228, a plurality of sets of meshing racks 31 are uniformly and fixedly arranged in the middle of the inner side wall surface of the middle meshing ring 1230, a closed disc 1232 is fixedly connected to the right end of the middle meshing ring 1230, a plugging ring 33 is arranged on the outer surface of the closed disc 1232 in a penetrating manner near the middle of the right side, the fixed connecting tooth structure 510 is matched and installed with the rotating columns 1228 in a embedding manner through the fixed connecting column 1014, the rear fluted disc 1015 and the rotating column ring groove 1229, the fixed ring cylinder 512 comprises the rotating columns 1228, the middle meshing ring 1230 and the closed disc 1232, the manual adjusting mechanism 511 is matched and installed with the fixed ring cylinder 512 in a rotating manner through the front fluted disc 1020 and the middle meshing ring 1230, the manual rotating rod 1127 is matched with the closing disc 1232 through the connecting rotating rod 1019 and the plugging ring 33 to be installed in a matching mode.

The middle position of the right end surface of the second side plate strip 101 close to the front side is provided with an annular groove 34, the middle position of the inner side of the annular groove 34 inside the second side plate strip 101 is provided with a motor 35, the middle position of the left end surface of the motor 35 is provided with a rotating rod 36, the outer surface of the rotating rod 36 close to the left side is fixedly provided with a rotating wheel head 37, a driving rod 38 is arranged between the first side plate strip 1 and the second side plate strip 101 and positioned at the inner side of the conveying adhesive tape 2, the outer surface of the driving rod 38 close to the left side is sleeved with an inserting collar 39, an auxiliary roller 40 is arranged between the first side plate strip 1 and the second side plate strip 101 and positioned at the inner side of the conveying adhesive tape 2, the middle positions of one side surfaces of the first side plate strip 1 and the second side plate strip 101 are uniformly provided with a plurality of groups of jacks 41, the driving rod 38, the inserting collar 39 and the auxiliary roller 40 jointly form a linkage conveying structure, the conveying adhesive tape 2 is movably arranged with the motor 35 through the linkage conveying structure and the rotating rod 36, wherein the driving rod 38 is matched with the first side lath 1 through a splicing collar 39 and a jack 41 for rotary installation, and the motor 35 is matched with the driving rod 38 through an annular groove 34 and a rotary rotating rod 36 for butt joint installation.

The inboard inside wall surface equidistance of conveying sticky tape 2 has set firmly the first rubber leather strap 42 of a plurality of groups, the inboard surface that just is located runner head 37 of second limit lath 101 is equipped with belt 43, the surface of belt 43 is close to the inboard surface and is provided with a plurality of groups and assists driving wheel 44, the inboard surface equidistance of belt 43 has set firmly a plurality of groups second rubber leather strap 45, the inside of contracting leg 3 and the inboard intermediate position that is located inner grove 301 have set firmly inner convex body 46, the upper end surface intermediate position of contracting leg 3 has seted up flexible groove 47, wherein conveying sticky tape 2 is through first rubber leather strap 42, the cooperation of driving lever 38 and assistance roller 40 and linkage transport structure closely installs.

The motor 35 is matched with the auxiliary roller 40 through the rotating wheel head 37, the belt 43 and the auxiliary wheel 44 and is arranged in a linkage way, wherein the belt 43 is attached to the auxiliary wheel 44 through the second rubber leather strip 45, the telescopic column leg 4 is matched with the telescopic leg column 3 through the telescopic groove 47 and the inner convex body 46 and is arranged in a telescopic way, the telescopic column leg 4 is embedded with the inner convex body 46 through the guide groove 513, the transverse plate support I6, the transverse plate support II 7 and the longitudinal support plate 8 jointly form a stable support mechanism, the telescopic column leg 4 is matched with the movable support mechanism through the telescopic leg column 3 and the inner concave groove 301 and is arranged in a sliding way, the conveying rubber belt 2 is sleeved on the linkage conveying structure through the first rubber leather strip 42 and the second rubber leather strip 45, the rotating wheel head 37 and the auxiliary wheel 44 are tightly sleeved on the inner side of the second side plate strip 101 through the belt 43 through the second rubber leather strip 45 and the friction force between the linkage conveying structure and the auxiliary wheel 44 is increased through the rubber leather strips, thus, a double anti-slip mechanism is formed between the first side lath 1 and the second side lath 101, and the slip phenomenon between the conveying belt 2 and the linkage conveying structure is effectively avoided.

The working principle of the anti-galloping structure is as follows: firstly, the vertical position of the up-down sliding stable support frame mechanism and the sliding installation of the movable support frame structure is used for adjusting the integral stability of the movable support frame structure, then according to the specific operation terrain, the manual adjusting mechanism 511 is rotated to change the horizontal meshing angle of the manual adjusting mechanism 511 and the fixed gear receiving structure 510, so as to adjust the inclination angle of the movable conveying mechanism and the horizontal plane, thereby determining the inclination angle of downward transportation, the motor 35 is started, the driving rod 38 and the auxiliary roller 40 are driven by the belt 43 to run together under the matching of the rotating rod 36 and the rotating wheel head 37, and the normal starting and running of the conveying adhesive tape 2 are realized through the above operation; wherein, the stabilizing support frame mechanism composed of a transverse plate support I6, a transverse plate support II 7 and a longitudinal support plate 8 is fixedly arranged at the inner side of the retraction leg post 3 through the clamping of an inner groove 301, the structural stability of the whole movable support frame structure is effectively enhanced, the vertical height adjustment of the whole structure is realized by utilizing the expansion of the extension post leg 4 at the inner side of an extension groove 47, the stable assembly between the retraction leg post 3 and the extension post leg 4 is realized by the clamping of a clamping structure 9 and the cooperation of a fixed ring post 512, the fixed connection tooth structure 510 and a manual adjusting mechanism 511 are effectively and fixedly arranged in the structure, the function of the whole horizontal transmission inclination angle of the manual adjusting structure is realized, the stable assembly between the retraction leg post 3 and the extension post leg 4 is realized by the embedded installation of a guide groove 513 and an inner convex body 46, the fixed connection post 1014 and a second side lath 101 are fixedly connected, the whole horizontal inclination angle of the manual adjusting mechanism 511 is convenient to rotate, wherein the connecting rotating rod 1019 is inserted in the inserting rod groove 1016, the rear fluted disc 1015 and the front fluted disc 1020 are tightly meshed to avoid the rail supporting phenomenon, an effective meshing space is provided for the tight meshing between the first meshing engaged teeth 1017 and the second meshing engaged teeth 1022 through the tooth grooves 18, the rear fluted disc 1015 is effectively embedded in the meshing space through the embedding ring groove 926 arranged on the inner side of the rear clamping ring 925 to ensure the stable arrangement of the rear fluted disc and the front fluted disc 1020, an effective meshing rotating space is provided for a meshing mechanism through the rotating column ring groove 1229 arranged on the inner side of the rotating column 1228, the connecting rotating rod 1019 is effectively and stably rotated on the inner side of the tilting leg device 5 through the clamping installation of the closing disc 1232 and the plugging ring 33 in the middle of the closing disc 1232 and the connecting rotating rod 1019, the motor 35 is effectively installed on the inner side of the second side lath 101 through the ring groove 34 to realize the movable installation and disassembly of the motor 35, the two ends of the driving rod 38 are effectively and rotatably installed with the first side lath 1 and the second side lath 101 through the insertion hole 39 inserted into the insertion hole 41, ensuring relative rotation of the active lever 38 therebetween; by arranging the tilting foot device 5, manually rotating the manual rotating rod 1127, driving the front fluted disc 1020 and the rear fluted disc 1015 to rotate relatively by the connecting rotating rod 1019, utilizing the meshing installation of the side biting teeth 1021 and the meshing rack 31 on the inner side of the middle meshing ring 1230 and the meshing installation of the side biting teeth 1021 and the matching teeth 924 on the inner side of the front meshing ring 923, the front fluted disc 1020 drives the second side strip 101 fixedly connected with the upper part of the fixed tooth connecting structure 510 on the inner side of the tilting foot device 5 to tilt integrally, utilizing the tight meshing between the teeth and the meshing installation between the second meshing biting teeth 1022 and the first meshing biting teeth 1017, when the tilt angle of the movable conveying mechanism and the horizontal plane is adjusted, the movable conveying mechanism cannot be extruded and dislocated by a huge load borne by a conveyed object, so that the device has the adjustable conveying tilt angle, ensures the accuracy and the stability of the horizontal tilt angle adjustment, and avoids the tilt angle of the movable conveying mechanism from deflecting in the use process, ensuring the normal use of the mechanism; finally, by arranging the first rubber leather strips 42 and the second rubber leather strips 45, the conveying rubber belt 2 is sleeved on the linkage conveying structure by the first rubber leather strips 42, the belt 43 tightly sleeves the runner head 37 and the auxiliary wheel 44 through the second rubber leather strips 45 and is arranged on the inner side of the second side lath 101 in a linkage manner, the friction force between the rubber leather strips and the linkage conveying structure and the friction force between the rubber leather strips and the auxiliary wheel 44 are increased, so that a dual anti-skidding mechanism is formed between the first side lath 1 and the second side lath 101, and by the above mode, the skidding phenomenon between the conveying rubber belt 2 and the linkage conveying structure is effectively avoided, so that the occurrence of the car runaway phenomenon is prevented, and the stable conveying of the linkage conveying structure to materials is ensured.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

Claims

1. The utility model provides an anti-galloping structure of long distance transport belt transmission line, its characterized in that, includes first side lath (1) and second side lath (101), intermediate position is close to the downside and installs conveying adhesive tape (2) between first side lath (1) and second side lath (101), a plurality of groups of leg post (3) that contract are all installed to the lower extreme surface intermediate position of first side lath (1) and second side lath (101), inner groovy (301) have all been seted up to the both ends surface intermediate position of the leg post (3) that contracts, it has flexible post leg (4) to peg graft in the upper end surface intermediate position of the leg post (3) that contracts, the upper end surface rigid coupling of flexible post leg (4) has slope foot device (5), and intermediate position is close to the downside and installs diaphragm and props one (6) between two sets of the leg post (3) that contracts, the lower extreme of conveying adhesive tape (2) and the rear side that is located diaphragm and props one (6) are provided with diaphragm and prop two (7), a group of longitudinal supporting plates (8) are arranged between the transverse plate support I (6) and the transverse plate support II (7), wherein a retraction leg column (3), a telescopic column leg (4) and an inclined foot device (5) jointly form a movable supporting frame structure, a first side plate strip (1), a second side plate strip (101) and a conveying adhesive tape (2) jointly form a movable conveying mechanism which is matched with the movable supporting frame structure through the telescopic column leg (4) and the inclined foot device (5) to be installed in a lifting mode, a group of clamping structures (9) are fixedly arranged in the middle of the lower end surface of the second side plate strip (101) and correspond to the inclined foot device (5), the inclined foot device (5) comprises a fixed connecting tooth structure (510), a manual adjusting mechanism (511) is arranged on the right side of the fixed connecting tooth structure (510), a fixed ring cylinder (512) is fixedly arranged on the lower side of the fixed connecting tooth structure (510) and on the upper end surface of the telescopic column leg (4), the middle position of the right end surface of the telescopic column leg (4) is provided with a guide groove (513), the telescopic column leg (4) is fixedly installed with the second side plate strip (101) through the matching of a fixed ring column body (512), a fixed connecting tooth structure (510) and a clamping structure (9), wherein a manual adjusting mechanism (511) is rotatably installed with the fixed connecting tooth structure (510) through the matching of the clamping structure (9) and the fixed ring column body (512), the fixed connecting tooth structure (510) comprises a fixed connecting column (1014), the middle position of the front end surface of the fixed connecting column (1014) is fixedly provided with a rear fluted disc (1015), the middle position of the front end surface of the rear fluted disc (1015) is provided with an inserting rod groove (1016), a plurality of groups of first meshing engaged teeth (1017) are uniformly and fixedly arranged on the front end surface of the rear fluted disc (1015) close to the edge position, and a tooth socket (18) is formed between every two groups of the first engaged teeth (1017), the manual adjusting mechanism (511) comprises a connecting rotating rod (1019), a front fluted disc (1020) is fixedly connected to the surface of the left end of the connecting rotating rod (1019), a plurality of groups of side biting teeth (1021) are uniformly and fixedly arranged on the outer surface of the front fluted disc (1020) close to the edge position, a plurality of groups of second meshing biting teeth (1022) are uniformly and fixedly arranged on the edge position of the front end surface of the front fluted disc (1020), a fixing column (1014) and a second side lath (101) are fixedly arranged, a rear fluted disc (1015) is in meshing installation with the front fluted disc (1020) through the matching of a first meshing biting tooth (1017) and a second meshing biting tooth (1022), the front fluted disc (1020) is in butt joint installation with the rear fluted disc (1015) through the matching of the connecting rotating rod (1019) and an inserting rod groove (1016), the second meshing biting tooth (1022) is in meshing arrangement with the first meshing biting tooth (1017) through a tooth groove (18), and the clamping structure (9) comprises a front meshing ring (923), the inside wall surface of leading interlock ring (923) evenly sets firmly a plurality of groups cooperation tooth (924), the left end of leading interlock ring (923) and the lower extreme surface intermediate position that is located second limit lath (101) have set firmly rearmounted snap ring (925), the surface intermediate position of rearmounted snap ring (925) runs through and has seted up gomphosis annular (926), the right-hand member surface connection who connects bull stick (1019) has manual bull stick (1127), wherein manual bull stick (1127) through connecting bull stick (1019) and preceding fluted disc (1020) fixed connection, and preceding fluted disc (1020) through the cooperation of side bite tooth (1021) and cooperation tooth (924) with leading interlock ring (923) meshing installation, fixed joint tooth structure (510) are through gomphosis annular (926) with rearmounted snap ring (925) card solid installation, wherein leading interlock ring (923) and rearmounted snap ring (925) constitute jointly and clamp structure (9), and manual adjustment mechanism (511) are through leading interlock ring (923) and the rotatory installation of second limit lath (101), fixed ring cylinder (512) are including putting rotary column (1228), rotary column annular (1229) have been seted up to the upper end surface intermediate position of rotary column (1228), right-hand member surface rigid coupling to rotary column (1228) has put in meshing ring (1230), the inside wall surface intermediate position of putting in meshing ring (1230) has evenly set firmly a plurality of groups meshing rack (31), the right-hand member rigid coupling of putting in meshing ring (1230) has closed dish (1232), the surface of closed dish (2) is close to the right side intermediate position and has run through shutoff ring (33), fixed connection tooth structure (510) are through solid connection post (1228), back fluted disc (1015) and rotary column annular (1229) cooperation and are installed rotary column (1228) gomphosis, fixed ring cylinder (512) are including putting rotary column (1228), The middle-placed meshing ring (1230) and the closing disc (1232) are arranged in the middle, the manual adjusting mechanism (511) is matched with the closing disc (1232) through a front fluted disc (1020) and the middle-placed meshing ring (1230) and a connecting rotating rod (1019) and the closing disc (1232) to be rotatably installed with the fixed ring column body (512), wherein the front fluted disc (1020) is matched with the middle-placed meshing ring (1230) through side biting teeth (1021) and a meshing rack (31) to be installed in a meshed mode, and the manual rotating rod (1127) is matched with the closing disc (1232) to be installed in a meshed mode through the connecting rotating rod (1019) and the plugging ring (33).

2. The anti-galloping structure of the long-distance transportation belt type transmission line according to claim 1, wherein a circular groove (34) is formed in the middle position of the right end surface of the second side plate strip (101) close to the front side, a motor (35) is installed in the second side plate strip (101) and located in the middle position of the inner side of the circular groove (34), a rotating rod (36) is installed in the middle position of the left end surface of the motor (35), a rotating wheel head (37) is fixedly arranged on the outer surface of the rotating rod (36) close to the left side, a driving rod (38) is installed between the first side plate strip (1) and the second side plate strip (101) and located on the inner side of the transportation belt (2), an inserting shaft collar (39) is sleeved on the outer surface of the driving rod (38) close to the left side, and an auxiliary roller (40) is installed between the first side plate strip (1) and the second side plate strip (101) and located on the inner side of the transportation belt (2), a plurality of groups of jacks (41) are uniformly formed in the middle positions of the surfaces of one side of the first side lath (1) and the second side lath (101), the driving rod (38), the inserting shaft collar (39) and the auxiliary roller (40) jointly form a linkage conveying structure, the conveying adhesive tape (2) is movably mounted with the motor (35) through the cooperation of the linkage conveying structure and the rotating rod (36), the driving rod (38) is rotatably mounted with the first side lath (1) through the cooperation of the inserting shaft collar (39) and the jacks (41), and the motor (35) is in butt joint mounting with the driving rod (38) through the cooperation of the ring groove (34) and the rotating rod (36).

3. The anti-galloping structure of a long-distance conveyor belt transmission line according to claim 1, it is characterized in that a plurality of groups of first rubber leather strips (42) are fixedly arranged on the surface of the inner side wall of the conveying rubber belt (2) at equal intervals, a belt (43) is sleeved on the outer surface of the inner side of the second side lath (101) and positioned on the rotating wheel head (37), a plurality of groups of auxiliary wheels (44) are arranged on the outer surface of the belt (43) close to the inner side surface, a plurality of groups of second rubber strips (45) are fixedly arranged on the surface of the inner side wall of the belt (43) at equal intervals, an inner convex body (46) is fixedly arranged in the retraction leg column (3) and in the middle of the inner side of the inner groove (301), a telescopic groove (47) is arranged in the middle of the upper end surface of the retraction leg column (3), wherein the conveying adhesive tape (2) is tightly installed with the linkage conveying structure through the matching of the first rubber leather strip (42), the driving rod (38) and the auxiliary roller (40).

4. The anti-galloping structure of the long-distance transportation belt type transmission line as claimed in claim 2, wherein the motor (35) is arranged in a linkage manner with the auxiliary roller (40) through the cooperation of the rotating wheel head (37), the belt (43) and the auxiliary roller (44), wherein the belt (43) is attached to the auxiliary roller (44) through the second rubber leather strip (45), the telescopic column leg (4) is installed in a telescopic manner through the cooperation of the telescopic groove (47) and the inner protrusion (46) and the telescopic installation of the retraction leg column (3), wherein the telescopic column leg (4) is installed in a jogged manner with the inner protrusion (46) through the guide groove (513), and the transverse plate support I (6), the transverse plate support II (7) and the longitudinal support plate (8) jointly form a stable support mechanism which is installed in a sliding manner with the movable support structure through the cooperation of the retraction leg column (3) and the longitudinal support groove (301).

5. The use method of the anti-galloping structure of the long-distance transportation belt type transmission line according to any one of claims 1 to 4, characterized by comprising the following steps:

the method comprises the following steps: firstly, the vertical position of the up-and-down sliding stable support frame mechanism and the movable support frame structure is slidably arranged to adjust the integral stability of the movable support frame structure, then according to the specific operation terrain, the manual adjusting mechanism (511) is rotated to change the horizontal meshing angle between the manual adjusting mechanism and the fixed connecting tooth structure (510), so as to adjust the inclination angle between the movable conveying mechanism and the horizontal plane, thereby determining the inclination angle of downward transportation, the motor (35) is started, and under the matching of the rotating rotary rod (36) and the rotating wheel head (37), the belt (43) drives the driving rod (38) and the auxiliary roller (40) to run together, so that the normal starting and running of the conveying adhesive tape (2) are realized.